1. Patent Search
  2. Details

Additive Equipment to Basic Equipment with Advantage in Form of Multimedial, Health, Sport or another Equipment Convenient for Adding by Additive Equipment

20190192075 ยท 2019-06-27

    Inventors

    Cpc classification

    International classification

    Abstract

    An addition of auxiliary functions to the multimedia equipment not included inside. These functions can be function of physiological data processing, extended and/or uninterrupted operations with regard to monitored and processed data. Auxiliary functions are implemented by the auxiliary equipment and circuits solutions physically placed in the original equipment or out of it but mechanically and electrically connected by it, whereas can it formed one compact unit. The parts, which are necessary to be during operation changed to get uninterrupted functions, are user friendly and simply exchangeable from the aspects of users.

    Claims

    1. The additive equipment for multimedia and health equipment characterized by the fact that this additive equipment (104) is connected by wires to electrodes (143) for transmission of physiological Signals and for their processing to health parameters, namely the heart rate or ECG, or the additive equipment (104) is connected to the chest belt (419) for receiving ECG data or the chest belt (146) for receiving the heartbeat data and/or to the chest belt (147, 209) with electrodes (143, 202), sensors (210, 211) for receiving ECG data, heartbeat and biometric data from these sensors and the breast belt (147, 209, 419, 146) is optionally connected to braces (232) and the additive equipment (104) is adaptable to show the health parameters on the additional display (434), optionally touch display, visible to the monitored person and/or for their transmission to the multimedia device (600) feasible in form of a mobile telephone (100) and/or on the PC (418), and/or the watch (416) and/or the mobile telephone in the bracelet (236) for detailed observing (416) by the monitored person and/or the additive equipment (104) is adapted for transmission to the server (665) in the desk (663) and/or on the panel (663) for remote monitoring, and the additive equipment (104) located in the pocket (230) or in the bag (401), or on the bracelet and/or extensible mechanical device (664) optionally together with the multimedia equipment (600) feasible in form of the mobile telephone (100) optionally removable, or the additive equipment (104) can be carried separately, whilst the multimedia equipment (600) feasible in form of the mobile telephone (100) can be put on the extensible mechanical device independently, and/or the additive equipment (104) can also be adapted for charging the basic accumulator (129) of the multimedia device (600) feasible in form of the mobile telephone (100) and/or placed on the additive equipment from the backup accumulator (120) located in the additive equipment (104), and/or the additive equipment (104) is adapted for separate data processing optionally on other operating systems with micro-processors at the same time.

    2. The additive equipment for multimedia and health equipment characterized by the fact that the bracelet (620) is provided with the ejecting mechanism (664) shape-modified for placement of the additive equipment (104) and/or multimedia device (600), whilst is can be ejected in direction towards the hand and the ejecting mechanism (664) is modified for limited movement or for full removal of the multimedia device (600).

    3. The additive equipment for multimedia and health equipment characterized by the fact that the breast belt (209) is modified as a system of two belts sliding each other, namely the detecting belt (201) with electrodes (202) and fixation belt (204) for thrusting of the detecting belt (201) and its electrodes (202) embracing the whole chest (208) of the monitored person, where the surfaces of parts of the detecting belt (201), fixation belt (204) including surfaces of the hangers (203) in mutual contacts are made of sliding material feasible of Teflon and to the contrary, surfaces of the detecting belt (201) facing to the body (208) of the monitored person is made of non-sliding material feasible of rubber, or the breast belt (147, 201) with electrodes (143, 202) is provided with braces (232) with electrodes (231) for extension of the number of electrodes located in the area of shoulders of the monitored person and these braces (232) are elastic to ensure thrusting of electrodes (231) to skin of the monitored person, or the breast belt is provided with replaceable electrodes (227) for detection of biomedicine signals from the monitored person body (208), whilst the electrodes are fixed on a thrusting element (660) in the fixing mechanism (654) of the electrode, where the conductive part is feasible made of a conductive coat and the contact with the monitored person body (208) is ensured thrusting force of the thrusting element (660) and the breast belt is feasible in form of elastic clothes or harness.

    4. The additive equipment for multimedia and health equipment according to claim 1 characterized by the fact that the bracelet (602) furnished by the ejecting mechanism (664) with the shape modified for seating of the additive equipment (104) and/or multimedia equipment (600), whilst it can be ejected towards the arm ( . . . ), whilst the ejecting mechanism (664) is modified to limit the position or enable full removing of the additive equipment (104) and/or multimedia equipment (600).

    5. The additive equipment for multimedia and health equipment according to claim 2 or claim 4 characterized by the fact that the ejecting mechanism (664) is provided by the grooved guide (621) for travel of the slide (622) along the forearm longitudinal axis and end stops (627, 627) to limit the end positions, and further it is fitted with the arresting ball (623) for fixation of limit positions of the slides (622), whilst these limit positions are secured by fitting the arresting ball (623) into the arresting hollows (624), when the thrusting pressure of the arresting ball (623) is secured by the spring in the lower part of the slide (622), and the electing mechanism (644) can be modified for removal of the slides (622) by removing the stop (627), whilst slide (622) is provided with the groove (625) for the rail (626)

    6. The additive equipment for multimedia and health equipment according to claim 2 or claim 4 characterized by the fact that the additive equipment (104) feasible in form of the board (123) with electronics is located on the ejecting mechanism (664) on the bracelet (620) separately or beside the multimedia device (600) or under it or in it, whilst the interconnection is provided using a wire or is wireless.

    7. The additive equipment for multimedia and health equipment according to claim 2 or claim 4 characterized by the fact that shapes of the grooves (625) in the slide (622) are modified using extending tapers (637) for easy insertion of the multimedia equipment (600) and the slide (622) is also provided with end stops (627, 627) preventing their sliding outside the groove guide (621), whilst removing of the multimedia equipment (600) from the ejecting mechanism (664) is feasible by removing of the end stop (627) after overcoming resistance of the arresting ball (623), whilst the slide (622) can be connected to the multimedia equipment (600) or additive equipment (104) by permanent mechanical connection using screws or by gluing or can be provided by removable connection using a Velcro.

    8. The additive equipment for multimedia and health equipment according to claim 1 characterized by the fact that the breast belt (209) is modified as a system of two belts sliding each other, namely the detecting belt (201) with electrodes (202) and fixation belt (204) for thrusting of the detecting belt (201) and its electrodes (202) embracing the whole chest (208) of the monitored person, where the surfaces of parts of the detecting belt (201), fixation belt (204) including surfaces of the hangers (203) in mutual contacts are made of sliding material feasible of Teflon and to the contrary, surfaces of the detecting belt (201) facing to the body (208) of the monitored person is made of non-sliding material feasible of rubber, or the breast belt (147, 201) with electrodes (143, 202) is provided with braces (232) with electrodes (231) for extension of the number of electrodes located in the area of shoulders of the monitored person and these braces (232) are elastic to ensure thrusting of electrodes (231) to skin of the monitored person, or the breast belt is provided with replaceable electrodes (227) for detection of biomedicine signals from the monitored person body (208), whilst the electrodes are fixed on a thrusting element (660) in the fixing mechanism (654) of the electrode, where the conductive part is feasible made of a conductive coat and the contact with the monitored person body (208) is ensured thrusting force of the thrusting element (660) and the breast belt is feasible in form of elastic clothes or harness.

    9. The additive equipment for multimedia and health equipment according to claim 1 characterized by the fact that the electrodes (231) are located on detection belts (201), where contact surfaces of the detection belts (201) and thrusting braces (232) are sliding each other, so that the detection belts (201) are fixed to the monitored person body (208) and the thrusting braces (232) slide on these belts when the body (208) moves, whilst the wire (643) provides connection of the electrodes (231) with the breast belt (147).

    10. The additive equipment for multimedia an health equipment according to claim 3 or claim 8 characterized by the fact that the electrodes (202) on the surface of the detection belt (201) surface, facing the monitored person body (208), are made of conductive material and fixed to the detection belt (201) feasible made of non-conductive material, or the detection belt (201) is feasible made as multi-layer belt in a combination of conductive and non-conductive materials and the electrodes are created as an area of conductive material in the non-conductive layer.

    11. The additive equipment for multimedia and health equipment according to claim 3 or claim 8 characterized by the fact that the replaceable electrodes (227) detecting biomedicine signal from the monitored person body (208) are feasible made as poppers with a layer of a conductive gel (223) with covering foil (226) for manipulation, placed in a plastic cartridge (225) for transport purposes, or as gel electrodes in form of a conductive gel (652), put into a shaped hollow of the conductive part of the breast belt (647) or thrusting element (660) feasible in form of the breast belt (147) and/or foot belt (147) and/or braces (231) or elastic clothes or harness thrusting the replaceable electrode (227) to the monitored person body (208) to provide conductive connection.

    12. The additive equipment for multimedia and health equipment according to claim 3 or claim 8 characterized by the fact that the thrusting element (660) is provided with a conductive part (653) for installation of the replaceable electrode (227); this part together with the connecting cable (657) forms the electrode fixing mechanism (654), whilst the replaceable electrode (227) is made of a plastic foil (655) of the electrode with the popper-pin (221) for fixing it in the conductive part hollow (653) in the thrusting element, whilst the popper-pin (221) with outer sides of the plastic foil (655) are covered with conductive gel (223) shaped as a half-lens, or the electrode consists of the popper-pin (227) for fixing it into the hollow in the conductive part (653) of the thrusting element, when the popper-pin (227) is sunk partly in the conductive gel (652) formed as a half-lens body, or the electrode consists of the annular ring (661) provided with adhesive layer (659) for fixing it to the conductive part (653) of the breast belt thrusting element (660), where this annular ring (661) is covered with conductive gel (223) for conductive connection of the monitored person body (208) with the conductive part (653) of the thrusting element.

    13. The additive equipment for multimedia and health equipment according to claim 1 characterized by the fact that the additive equipment (104) in form of the board (123) with electronics in a case is located on the bracelet on the forearm (646) and can be connected with the multimedia equipment (600) feasible in form of a mobile phone on the bracelet (620) or with multimedia equipment on the bracelet (236) in form of a mobile phone by a wire or wireless, or the additive equipment (104) is installed on the multimedia equipment (600) or in it, or separately on a slide on the bracelet (620), whilst the additive equipment (104) is connected with the electrodes (143, 231) using the cable (233) led under along the arm under shirt (641) or connected with the breast belt (419, 147, 209, 146) using the cable (233) or is wireless, or the additive equipment (104) is located in a bag (401) at the waist and connected with electrodes (143, 231) using the cable (234) or to the breast belt (419, 147, 209, 146) using a wire or the connection is wireless, or the additive equipment (104) can be carried in the pocket (230) and connected using the cable (234) led using a clip to the pocket (230), from where the connection can be made using an extension cable in form of twisted wires or wire on a winch and the additive equipment (104) can be provided with an additional display (434), optionally as touch display to control the additive equipment (104) and/or multimedia equipment (600).

    14. The additive equipment for multimedia and health equipment according to claim 1 characterized by the fact that the additive equipment (104) or breast belt (419, 147, 209) process biometric signals coming from two electrodes (143) to single-wire ECG, and additional electrodes process ECG devices with up to 12 wires; this can be realised by adding two electrodes (231) for 3- to 6-wire ECG devices and addition of three other electrodes (143) on the breast belt from two electrodes (231) for up to 12-wire ECG device, whilst the additive equipment (104) is equipped with Front End for processing of analogue signals coming from the monitored person body for the ECG curve, and/or heart rate detected by electrodes (143) through the cables (430) and connector (140) and led to the Front End unit (141) for processing into digital signal and further to the microprocessor (133) and through the connector (428) to the multimedia equipment (600) for evaluation, or the front End is located on the breast belt (419) together with electrodes (143); after conversion to digital form the signals are processed in the module (446) electronically or in the microprocessor (133) on the board (123) with electronics, where signals are transmitted wireless via module (144) and/or transmission unit BT/BLE/NAT, or transferred to the board (123) with electronics through a wire for processing and/or displaying and further transferred to the multimedia equipment (600), whilst the additive equipment (104) can be adapted to show that ECG curves or heart rate curves on the display (434) and multimedia equipment (600) is adaptable to display them on the display of this multimedia equipment.

    15. The additive equipment for multimedia and health equipment according to claim 1 characterized by the fact that the additional equipment (104) is equipped for recharging the multimedia equipment (600) through the connector (428) and converter (132) from the battery (120) that can be recharged through the battery of an external source and/or the additive equipment (104) is equipped with a communication unit (149) equipped with one of the following units and modules for communication in the 5 kHz band, unit (135) for transmissions Bluetooth, Bluetooth Low Energy, ANT, module (136) for RF transmission, module (138) for ZigBee transmission, for communication with the breast belt (145, 147, 209, 419) and/or with multimedia equipment and/or with arm clock (416) and/or the additive equipment (104) is also equipped with a module (137) for WiFi transmission, unit (804) for GSM communication used for communication with the server (665) of the desk (447) with participants of mobile networks; further the additive equipment (104) can be equipped with the unit (804) with a SIM card, microphone (802), loudspeaker (801), for voice communication, pushbuttons (110, 111) that can be used for emergency calls (panic button) and/or sending ECG data to the server (665) and as a rest button for resetting the emergency call or resetting data sending; further the additive equipment (104) is equipped with the microprocessor (133) communicating through the connector (448) with the multimedia equipment (600), whilst the warning acoustic signal saying that the emergency call or data from the loudspeaker (801) or light signal from LED (108, 109) were sent can be reset by the pushbutton (111).

    16. The additive equipment for multimedia and health equipment according to claim 1 characterized by the fact that the additive equipment (104) is adapted for simultaneous work on various SW protocols or operating systems optionally different from the ones on which the multimedia equipment (600) is working, by adding at least one other microprocessor (133, 133) to the microprocessor (133) and/or resistance of the breast belt (209, 419, 145, 147) against fault can be increased by two independent sensors (210, 211) connected to independent pairs of electrodes (202, 2) and (202, 200), where independent sensors (217) and (217) of heart signals from transmitters (214, 214) represent two independent chains that backup each other and that can be comparable in units of the additive equipment (104) and/or multimedia equipment (600) or in the control unit (222) after the output from sensors (217, 217), or signals from electrodes (202, 202) and other sensors (217, 217, 217) are joined and transmitted by independent transmitters (214 to 216), 238) optionally on different frequencies and protocols for backup and minimising the interference.

    17. The additive equipment for multimedia and health equipment according to claim 1 characterized by the fact that the bag (401) consists of at least one removable additive equipment (104) consisting of the optionally extensible board (123) with electronics and at least one multimedia equipment (600) can easily be put into this bag (401) using a shape modification and inserting adapter (433) and that is connected with the additive equipment (104) using wires configurable for seating in the dedicated space (404) of the bag (401) or automatically after insertion of the multimedia equipment (600) consisting optionally of the mobile phone (100) put into the bag (401) using the reducing connector (431) or the connection is wireless for recharging of the basic battery (129) from the additional battery (120) removable and seated optionally in the seating mechanism adapted for its removing and that can also be located on the board (123) with electronics and/or for communication with the board (123) with electronics that can be equipped with a display (434) or the bag (401) consisting of the additive equipment (104) with the display (434) and this additive equipment is connected using wires or wireless to the breast belt (209, 147, 419) or electrodes (143) and multimedia equipment (600), when the bag (401) is fixed optionally to the clothes by a removable clamping mechanism or strap on the body, whilst the bag (401) can be provided with panic (110) and reset (111) pushbuttons.

    18. The additive equipment for multimedia and health equipment according to claim 17 characterized by the fact that the multimedia equipment is connected to the additive equipment located in the bag using a trusted cable led inside the bag (404) or outside it, connected through the connector (408) to the multimedia equipment (600) and through the connector (409) to the data communication board with electronics and power supply or recharging of the multimedia equipment from the additional battery (120), whilst the twisted cable (407) can be stored in the bag (401) with a compartment (404) for storage of the twisted cable for connection of the multimedia equipment with the additive equipment in the bag for data communication and power supply, whilst for connection of the multimedia equipment (600) with the module of electronics (410) you can use the cable on the automatic winch (412) designed so that in rolled up state it is stored automatically on the bottom of the bag (401).

    19. The additive equipment for multimedia and health equipment according to claim 17 characterized by the fact that the board (123) with electronics is replaceable using an extensible device, connected through the connector (428) to the bag (401) and provided optionally with a connector (106) for communication with a PC and connection to an external power source for recharging of the additional battery (120) or the board (123) with electronics can be equipped with a storage mechanism of the additional battery (120) for power supply and recharging of the basic battery of the multimedia equipment (600) and it is placed in the storage mechanism of the battery in a case (420) and separated from the compartment for storage of the multimedia equipment using a partition (411) and after pushing aside the latch (421) using the spring (125) it is pushed out for easy removing and replacing it optionally during operation of the multimedia equipment, whilst the bag is provided alternatively by a removable clip for fixing it to the clothes, whilst the battery is secured against any movement by the mechanism of the latch (421), whilst the board (123) with electronics ban be fitted with accessible pushbuttons Panic (110) and Reset (111) with their indicators (108, 109), whilst the board (123) with electronics can be provided with the additional display (434), optionally with a touch display, connected with the board (123) with electronics optionally with a twisted cable (407) or wireless, adapted for easy watching of the display by the user using a small transparent window or hole (474) in the bag after its release from the clamping mechanism (443) fixed on the clothes; alternatively the additional display (434) is removable from the bag (401), whilst the additional equipment (104) in the bag (401) is adaptable for processing of ECG, heartbeat and other medical data using the microprocessor (133, 139, 144, 158, 159) from the data received through wireless or wired transfer of signals from the breast belt (147) or from electrodes (143) using wires in the Front End (141) on the board (123) with electronics, whilst this board (123) with electronics can be fitted with microprocessors working optionally on operating systems different from the multimedia equipment (600).

    20. The additive equipment for multimedia and health equipment according to claim 17 characterized by the fact that the bag (401) is provided with a removable extension (433) for easy and fast insertion of the multimedia equipment (600) into the bag and in the alternative with the connector (408) on the side it can be adapted by a vertical slit from the upper part for use with the multimedia equipment (600) to enable full insertion of the multimedia equipment (600) into the bag (401).

    21. The additive equipment for multimedia and health equipment according to claim 17 characterized by the fact that the bag (401) is provided with a removable clip (402) for fixing it in a pocket or with a screwed connection to the pocket using the screw (425) and nut (445) with the mounting hole (427) in the centre of the clip (402) for easy access to it, and/or for fast clipping and unclipping the bag (401) to/from the holder fixed on clothes of the user; fixing consists of the fixing mechanism (443) based on a system of grooves (440) with latches (439) pressed down by the spring (438), whilst the mechanism for release of the bag can be opened by counterpressure of fingers onto the latches (439) that release the grooves (444) from bosses (480), whilst for clipping the vertical force during sliding in overcomes resistance of the spring using tapers of the latches (439) using the reaction force of the bosses (480) and the latches (480) fit into the hole of the eye (442) fixed to the belt or another part of clothes of the user.

    22. The additive equipment for multimedia and health equipment according to claim 17 characterized by the fact that the multimedia equipment (600) can be connected to the board (123) with electronics in the bag using the connectors modified so that when the multimedia equipment (600) is inserted into the bag, this provides automatic connection using the existing connector on the multimedia equipment or using a reducing connector (431) that enables such function, or the multimedia equipment (600) can be placed outside the bag (401) and connected using the twisted cable (407) or using wireless radio.

    Description

    EXAMPLE OF INVENTION EMBODIMENT

    [0023] On FIG. 1 is example of connection of an auxiliary device, not adapted multimedia device 600 not adapted for connecting of auxiliary device 100 by individually constituted cellular phone 100 not adopted from line production for connecting auxiliary device with removable cover 101 connected with cellular phone 100 by fastening elements 602 made by hitches 128 of cover fitting into counterparts 127 made by depressions on cellular phone 100 where cover is situated at the adverse side of display 178 and keyboard 172 covering SIM card 177 and accumulator 129 placed inside of the cellular phone. On the cellular phone 100 is situated a connector 102 for connecting USB cable, inside is situated further accumulator 129, unit 328 and basic communication block 328. The unmodified multimedia equipment 600 is made with advantage as well by multimedia pocket computer or similar multimedia equipment containing further described functions or some of them, such as mobile communication by means of internet, communication on mobile phone network or other data communication media, multimedia playback, photo-camera, TV camera, GPS detection with virtual keyboard equipped with keyboard and display or touch display.

    [0024] FIG. 2 shows a multimedia device 600 not adapted formed by cellular phone 100, not adapted with removed back cover 101 and auxiliary device 104 individual, which extends functions of not adapted multimedia device 600 Connection of auxiliary device 104 on multimedia device 600 made by cellular phone 100 is such a way that auxiliary device 104 is situated instead of removed covet 101. This solution preferably enables its easy electric, electronic and mechanic disconnection from auxiliary device 104. When there is no intention to use functions provided by auxiliary device 104 it can be remove and instead of it to use the cover 101 of the multimedia device. It is possible to acquire the auxiliary device only in case when is needed to strengthen the capacity of basic accumulator of the multimedia device, or to use functions of auxiliary device 104. It is not necessary to acquire auxiliary device at the same time as multimedia device, it can be purchased later according needs. In this case it is acquired only multimedia device which results in saving, because all electric, electronic and mechanic parts for operating, connecting and interface for multimedia device are preferably placed in auxiliary device 104. The price of acquisition of multimedia device is limited only at these units and parts which needs the multimedia device for its function and is lower than if the multimedia device contained also parts for cooperation with the auxiliary device. In this example, there is in the part of the auxiliary device 104 exceeding the shape of the cellular phone 100 situated a connector 105 USB, which is at mechanic connection of the auxiliary device 104 to the cellular phone inserted into counterpart 102 of cellular phone 100. The connector 105 is mounted flexibly using a flexible element 148, which after inserting the connector 102 at snapping the cellular phone 100 to auxiliary device 104, as shows multimedia device 600 ensures electric connection with the multimedia device. The storing mechanism 603 of accumulator with small door 22 for exchange of discharged accumulator 120 of auxiliary device 104 by a charged one ensures easy access to accumulator and easy exchange of accumulator and at the same time its locking by a lock 126 of door of accumulator 126 against sliding out. At the auxiliary device 104 is situated another connector 106 preferably USM connector common for external communication of the auxiliary device and the multimedia device with preferably external PC, which can be used as a source of 5V for charging of accumulator 120 of the auxiliary device from external source. Preferably can be used a data switch 107 of external USB for switching data stream transferred by internal USB connector 105 either from the processor of auxiliary device, or from connector 106. Detail 500 depicts a composition made of multimedia device formed by cellular phone 100 with connected auxiliary device 104. Detail 501 depicts a view in direction S1 and detail 502 depicts a view in direction S2. Pushbuttons 110 and 111 described at detail 501 enable to transfer into multimedia device hints and LEDs 08 and 109 preferably situated inside pushbuttons can sign 1 the reaction to hints. Pushbutton 110 serves for emergency calls and pushbutton 111 for resetting. Pushbuttons are located at easy accessible place at auxiliary device 104 which has advantage for immediate use of them in comparison with situation with using pushbuttons on touch screen of cellular phone 100, where it would be necessary first manipulate for displaying it on screen. On detail 502 is showed connecting element 601 made of connector 106, further is depicted door 122 with hinge 119 an lock of door 126 and connector 106. Discharged accumulators 120 in auxiliary device 104 can be preferably replaced by charged ones without interruption the operation of multimedia device. Operating accumulators 129 can be charged by means of storing mechanism of accumulator 603 without removing the auxiliary device 104 from the multimedia device 600 preferably made by cellular phone 100. So it is not necessary to charge accumulator by relevant cable to USM connector 106 and this connector remains free for use. The user is not forced to charge the cellular phone 100 through connector 102 from charger an in this way the phone is still ready for use. Another advantage of auxiliary device is a lot of functions, which support and extend the possibility of multimedia device 600. Advantage is also usage of not adapted cellular phones from line production. The auxiliary device 104 is clapped on the multimedia device 600 instead of the back cover. Connection and disconnection of auxiliary device may be done during the operation of multimedia device 600 without loosing any ability of multimedia device 600. Advantage after connection of auxiliary device is continuous uninterrupted operation of multimedia device 600 without necessity of charging its internal accumulator 129 by external charger, which is ensured by auxiliary accumulators 120 located in auxiliary device 104 whereas in auxiliary device 104 can be used accumulators from line production currently available on the market.

    [0025] FIG. 5 illustrates block diagram of module 199 continuously charging of basic accumulator 129, which is part of modified auxiliary device 104a. This example illustrates charging of the basic accumulator 129 of cellular phone 100 and the auxiliary accumulator 120 at the same time from the charger 131, which simultaneously supplies the electric circuits of module 199 and also multimedia equipment 600 consisting with advantage of a cellular phone 100. In case when external source 113 is not connected, it is running recharging of the basic accumulator 129 of cellular phone 100 at the same time from the auxiliary accumulator 120, which is placed in the auxiliary device in the way, that is at first the voltage of auxiliary accumulator 120 modified by voltage converter 132 to voltage by the specification for charging multimedia device, often 5V. Via second connector 105 USB of auxiliary device 104a and connector 102 USB of multimedia device with advantage formed by cellular phone 100 is this voltage used for recharging of the basic accumulator 129 via charger 130 of multimedia equipment. The advantage of this solution is based on fact that it is possible to use in the auxiliary device accumulators with different voltages regardless of voltage for recharging multimedia equipment accumulator. The auxiliary accumulator 120 placed inside in the auxiliary device is possible after discharging easily and quickly replace by another charged accumulator or recharge it from external source 113. Replacement of the auxiliary accumulator 120 of module 199, in which auxiliary device is placed inside can be realized during operation without removal of auxiliary device 104 or phone cover and without operation interruption of multimedia device preferably formed by cellular phone 100, because during auxiliary accumulator 120 replacement of auxiliary device, its operation is supplied from the basic accumulator 129. The auxiliary accumulator 120 can be replaced without limitation of operation and without separation of multimedia device with advantage formed by cellular phone 100 and auxiliary device 104a. The auxiliary accumulator 120 placed in auxiliary device can be recharged from external source 113 which is connected through next connector 106 to the charger 131, which ensures recharging by the way of the auxiliary accumulator 120 specification. All electronics related to accumulator recharging preferably placed in auxiliary device 199. The voltage states during accumulator recharging which is placed inside auxiliary device and presence of voltage on the voltage converter output is indicated by indicators 181, 182 and 183 which evaluate this voltages and with the advantage are monitoring this states and indicates by means of LED of various colors. Indicator 181 signals presence of connection to external voltage on next connector 106, in addition indicator 182 shows recharging of the auxiliary accumulator 120 situated in auxiliary device 199. The correct function of voltage converter 132 and thus indirectly state of auxiliary accumulator 120, which is placed in auxiliary device, shows voltage indicator 183.

    [0026] FIG. 6 illustrates block diagram of auxiliary device 104, illustrated on FIG. 2 and FIG. 4, electronics and all functions of which are placed on board of electronics 123 on the auxiliary device board of electronics. Auxiliary accumulator 120 placed in auxiliary device 104 can be very easily replaced by the use of small door 122 for the auxiliary device, without interruption of multimedia device operation and without separation of multimedia device from auxiliary device, is used for auxiliary device supplying through circuit 326, in which is auxiliary accumulator 120 placed and also used for charging of basic accumulator 129, which is placed inside the multimedia device. Auxiliary accumulator 120 can be in auxiliary device 199 placed directly on the board 123 of electronics or can be with this board connected and be recharged without removing it from auxiliary device 104 by the external power supply trough next connector 106 of external USB of auxiliary device and charger 131. Continuous recharging of the basic accumulator 129, illustrated on FIG. 1, of multimedia equipment 600 is ensured from voltage converter 132 and linked up USB connectors 105 and 102. This enables uninterrupted operation of multimedia device without necessity to recharge basic accumulator 129 by the external charger. The possibility to connect USB cable for data transfer is the main function of USB connector 102 of multimedia device, which is by connection with multimedia device and auxiliary device covered and is used by auxiliary device except charging the accumulator of multimedia device end as well for data transfer between microprocessor 133 of multimedia device and multimedia device which would limit using the cable of multimedia device for connecting USB cable. The problem of multimedia device connector USB covering solve the data switch 107 of external USB, which switches data path of multimedia device connector 102, which is inserted into the second connector 105, between microprocessor 133 and next connector 106 of auxiliary device, so next connector 106 can from the point of view of data transfer and USB cable connection fully substitute function of multimedia equipment connector 102, for example for PC connection. Preferably it is possible to place into auxiliary device 104a next modules and circuits, namely block 149 of communication modules which ensure data transfer by next communication protocols, which are in multimedia auxiliary device not available. This data is evaluated by microprocessor of auxiliary device 133 and is transferred into multimedia device and alternatively into next device. The block 149 of communication modules with advantage includes module 134 for signal transmission in the frequency band 5.5 kHz, which receives and transmits into cellular phone 100 data, which ordinary cellular phone is not able to receive. This data is preferably heart rate data, transmitted by chest belt, further a block o transmission 135 using Bluetooth Low Energy (BLE), ANT, alternatively Bluetooth (BT) and next communication protocols with advantage module 136 of RF transmission (band 800-900 MHz), module 137 of WiFi transmission and also module 138 of ZigBee protocol transmission.

    [0027] Up to date multimedia equipment, for example cellular phones with touch display, have available for multimedia equipment applications control only virtual keyboard and icons displayed on touch display, which is not 1 the time of multimedia equipment sleeping regime active. Touch display operation is very energy demanding that is why it is required to operate multimedia equipment in the regime of automatic sleeping, as long as it is possible. But multimedia equipment activation, which is in the sleeping regime, requires from user a few operation, what is lengthy and makes substantial trouble in the moment in which it is necessary call for help for person with loss of consciousness health problem, loss of spectacles, in darkness and similar. This problem is solved by push buttons 110 and 111 placed on auxiliary equipment 104a. The advantage over current state is prompt accessibility and identification of push buttons by touch even in dark and immediate multimedia equipment activation, even if it is in the sleep regime. Push buttons 110 and 111 activate microprocessor 133 of auxiliary equipment, which immediately activate corresponding applications in multimedia equipment regardless if is in this moment the multimedia equipment active or in the sleeping regime. The advantage of push buttons 110 and 111 using for calling for help in the case of emergency, at what time is instantly after multimedia equipment activation send message to specified location including case that the multimedia equipment is in the energy saving sleeping regime. The advantage for fast help calling by the use of multimedia equipment is using push the buttons 110 and 111 on the auxiliary equipment with advantage labeled Panic and Reset, which in cooperation with microprocessor 113 of auxiliary equipment and its software, indicators 108 and 109 with advantage LED and acoustic signalization 112, controlled by microprocessor 133. With advantage is after the press of push button 110 by which is assigned function panic going on starting of acoustical and optical warning announcing that was activate request to send call for help by the acoustic signalization 112 and optical signalization by indicator 108 with advantage red color LED alert by blinks activation of request to call for help. During the period of which is warning signals activated it is possible to cancel the activation of request to send call for help by the use of push button 111 advantage labeled Reset. After this the indicator 108 stops blinking and also stops warning signal of acoustic signalization. If the request to send call for help was not canceled by push button Reset, the blinking of indicator 108 is changed to permanent lighting until multimedia equipment accent request to send call for help. Acceptance of request to send call for help the multimedia equipment confirms, the indicator 108 stops lighting, stops acoustic signalization and for short time is lighting indicator 109 with advantage green color LED confirms call for help acceptance. Push buttons 110 and 111 in addition reduce energy consumption because both multimedia equipment and auxiliary equipment 104a can be in the sleeping regime also in the case of probability of incident requires urgent call for help.

    [0028] FIG. 7 shows block diagram of other auxiliary device, with board 123 of electronics where ordinary microprocessor 133, as presented in the FIG. 6, is substituted by microprocessor 139 with two USB ports, which can be used for connection with two USB connectors for controlling data flow transferred through these connectors. After inserting connector USB 102 of multimedia device into USB connector of auxiliary device the data stream is directed to the microprocessor or to the first USB connector 106 of two ports microprocessor which enables communication of multimedia device through connector 102 covered by auxiliary device and first USB connector 106 with another device connected with USB cable to auxiliary device. As an example of utilization of auxiliary module of receiver 134 of signal 5.5 kHz situated in auxiliary device is illustrated as connection of chest strap 145 for sensing heart rate and transmitting it wirelessly in frequency band 5.5 kHz. Another example of evaluation and further processing of heart rate by microprocessor in auxiliary device is utilization of chest strap 146 for sensing with wireless transmission using Bluetooth module with transmission module 135 of auxiliary device.

    [0029] FIG. 8 illustrates extended block diagram for processing ECG signals by auxiliary device showing continuously the heart activity by means of auxiliary device and transferring results for graphic displaying and achieving to multimedia device through connector 105. It can be preferably monitored if the heart activity is normal, or if occurs irregularities in it or if it reveals acute or proceeded any heart defect, especially defect of myocardium, specially infarct of myocardium and performs continuous screening of ischemic disease of heart at load and displays on display of cellular phone ECG curves, time slopes of heart pulses and that as long-duration program in conditions of common for patient for instance at sport. In this case auxiliary nodules and elements are used such as connector 140 for inputs of ECG leads and module 141 Front End. Electrodes 143 ECG placed on body skin of patient sense the low voltage originated by the heart activity are connected trough connector 140 to the input of auxiliary module 141 Front-End which amplifies the signals, filters, digitizes ad adapted and transforms for consecutive processing by microprocessor 142.

    [0030] FIG. 9 shows arrangement of auxiliary device for evaluation ECG signals, which are preprocessed by electronics situated close to ECG electrodes 143, for instance of a strap 147 with EGG electronics where is also placer a module 141 Front-End with communication module BT/BEE 144 ensuring wireless processed data transfer from module 141 into auxiliary transfer module 135 BT/BLE/ANT. Modules 141 and 144 are preferably fastened on chest strap so as the leads from contacts were as short as possible. Advantage of this arrangement is shortening of leads for reducing the level of signal jamming. The ECG electrodes can be with advantage as a part of strap with electronics. Using auxiliary module of microprocessors using one or more microprocessor the power can be enhance and the data processing speed can increase. Microprocessor 158 and 159 communicate with other auxiliary units through microprocessor 142. In each microprocessor ca be used different operational system such as Android, Windows Mobile, Symbian and in this way to optimize possibilities of auxiliary device with regards to requested applications.

    [0031] FIG. 16 presents block diagram of modules situated on board of electronics 167 of multimedia device 600. To the operational module 193 of multimedia device are connected modules 196 of display, keyboard module 197, block 149 of communication modules, preferably containing modules of transfer including modules 135 of BT/BLC/ANT transmission, module 136 of RF transmission, module 137 of WiFi transmission, module 138 of ZigBee transmission and auxiliary module 194 of microprocessors and 195 module of multimedia device. Operational accumulator 161 and auxiliary accumulator 162 are connected to electronics 170 of accumulators charging, which aside from charging of both accumulators provide also supply circuits of multimedia device, which is figured by arrow 198.

    [0032] FIG. 35 depicts an example of the bag configuration 401 of two multimedia devices 600, enhancing its potential use upon connecting the multimedia device 600 by extending substantially its operation without interruption with continuous charging the accumulator 129 of multimedia device. Furthermore, the bag 401 contains the additional electronic devices placed on the circuit board 123 that support applications of the connected multimedia device. The bag 401 is preferably made of plastic, leather, or other suitable material, and it can store the multimedia devices. In the period of not using the multimedia device 600, it is stored in the space 403, the second multimedia device is stored in the space 403, the space 405 is used to store the backup accumulator 120 and the clip 402 serves to attach the bag 401 to the clothes of user.

    [0033] FIG. 36 depicts clearly the space 404 to store the connecting cable-twisted cord 407.

    [0034] FIG. 37 depicts a configuration example of the bag 401, using it for connecting the multimedia device 600 with the module of electronics 410 by the twisted cord 407, enabling data connection and power supply. The twisted cord 407 serving to connect the multimedia device 600 with the circuit board 123 of the bag stored in the space 404 for the patch cord. This cord allows easy handling. The twisted cord 407 may be stretched out when used. Upon release, it returns back to its original short form. The adjusted multimedia device 600 is connected to the circuit board 123 of the bag 401 by the twisted cord 407 with the USB connector 408, led to the multimedia device 600, and the USB connector 409 of the circuit board 123. The case 420 of the accumulator 120 is located on the circuit board 123 as well as the module of electronics 410 to include all electronic circuits of the bag 401 expanding the possibilities of multimedia device 600 including the continuous recharging its accumulator.

    [0035] FIG. 38 depicts the top view of the bag 401. The accumulator 120 is separated by the partition 411, and it is connected through the circuit board 123 with the electronics module 410 shown in the FIG. 37, interconnected to the multimedia device 600. The accumulator is stored in the case 420 fitting to the printed circuit of electronics. Upon pushing the latch 421 away to secure the accumulator 120 in the retracted position, it is pushed out by the spring 125 enabling an easy and fast replacement. The bag is equipped with the detachable clip 402 to enable the attachment to the clothes of user.

    [0036] FIG. 39 depicts the location of the case 420 of the accumulator 120 on the circuit board 123. The accumulator 120 is preferably inserted in the case 420, and it is secured against the movement by the latch mechanism 421. The USB connector 428 is intended to connect the circuit board 123 with the connector 409 of the bag, hence with the multimedia device 600. According to needs, or in case of failure, the circuit boards 123, equipped differently, are preferably replaced in the bag 401 for a spare part.

    [0037] FIG. 40 specifies the location of latch 421 in the case 301 of the accumulator 120, containing the connector 423 either to ensure electrical connection of the accumulator 120 with the circuits either located on this board. Upon releasing the latch 421 manually, the spring 125 ejects the accumulator 120 out of the case 301. The electronic circuits, located on the circuit board 123, are marked like the module of electronics 410. The USB connector 106 serves to connect an external source of power to charge the accumulator 120, and it can also be used to communicate with an external PC, if the data signals of the USB connector 106 are connected to the electronic circuits of the electronic module 410. The advantage of solution lies in the fact that the circuit board 123 is electrically connected through the connector 428 only, hence to enable an easy replacement. It is therefore easy to place in the bag 401 and replace the circuit boards with various functions of the electronics module 410.

    [0038] FIG. 41 depicts an option of leading and placing the twisted cord 407 outside the bag 401. In this case, the twisted cord 407, connecting the multimedia device 600 with the circuit board 123, extended by a passage created in the bottom part of bag 401; it depicts how the twisted cord 407 is led through the upper part of the bag 401. Moreover, the preferably removable inlet extension bit 433, enabling to speed up and facilitate the insertion of the multimedia device 600 into the bag 401 by its broadened end, is depicted.

    [0039] FIG. 42 depicts how the twisted cord 407 with the connectors 408 and 409 is led and located and their connection to the circuit board 123 and the multimedia device 600. The buttons 110 and 111, preferably assigned by the Panic and Reset functions, as well as indicators 108 and 109, preferably the LED indicators, located in the buttons 110 and 111 are placed on the circuit board 123.

    [0040] FIG. 42B depicts the option of using the twisted cord led outside the bag 401, if the multimedia device 600 had a connector located on side of the case. The connector 408 of the twisted cord, preferably a corner one, is inserted in the connector of multimedia device through the gauge 360 created to this end on side of the bag.

    [0041] FIG. 43 depicts the detachable clip 402 to ensure the attachment in the pocket able to be removed or fixed by the screw 425 in the nut 445 connected firmly with the wall of the bag 401. The hole 427 serves as an access area for the clip assembly and disassembly.

    [0042] FIG. 44 depicts the configuration of the bag 401, using the self-acting reel 412 and the cord 413 with the connector 414 and the connector 415 to enable the link of the multimedia device 600 to the electronics module 410 of the bag 401. By pulling out the multimedia device 600, the connecting cord winds off the reel 412. By storing the multimedia device 600, the cord 413 itself is automatically re-winded on the reel 412 which is placed automatically on the bottom of the bag 401. The detail 1 depicts the side view of the bag 401.

    [0043] FIG. 45B depicts the automatic connecting/disconnecting the multimedia device 600 to/from the circuit board 123 of the bag 401 simply by plugging it in the bag 401 to the stop 429. The non-adapted multimedia device with the reduction connector 431 inserted in the USB connector 102 of that multimedia device may be used. The contacts of the reduction connector shall be inserted in the connector 432, designed for automatic guidance of the connector, preferably attached to the counter 411, connected to the circuit board 123 by the cable 361, as shown in the FIG. 45 B. In addition, the adjusted multimedia device prepared so as the connector intended for inserting it in the connector 432 forms its part with the latter's configuration being designed for automatic guidance of the connector so as the reduction connector 431 is not used.

    [0044] Det. 1 depicts a side view of the automatic connecting/disconnecting the multimedia device 600 to/form the circuits board 123 of the bag 401.

    [0045] FIG. 45D illustrates a diminished version of the bag 401, which serves just for placing the accumulator 120 of the circuit board 123, with the multimedia device placed separately, e.g. in the same pocket, together with the bag 401. The communication between the multimedia device 600 and the circuit board 123 is pursued by mean of the twisted cord 407, with the connectors on both ends, or the radio connection, preferably via Bluetooth, inserted in the connector 409, and similarly in the connector 102, preferably via USB of multimedia device. Wireless connection of multimedia device with the bag 401 may also be used, albeit the advantage of continuous accumulator charging of the multimedia device is lost.

    [0046] FIG. 45E depicts an enhancement of possibilities of the multimedia device 600, placed in the bag 401, by mean of the additional display 434, preferably protected against scratching by the protective foil 435. The additional display 434, preferably a touch screen, is placed in the bag 401, and it is connected by cable, or via Bluetooth, with the circuit board 123. The bag 401 is attached to the belt of trouser by mean of the fixture mechanism 443, shown in the FIGS. 45G and 45H, enabling easy pull out of the bag to allow viewing the display 434 through the hole 474 in the bag.

    [0047] Det. 1 FIG. 45E depicts an example of the fixture mechanism 443 to enable the bag 401 fast pinning/unpinning from the strap attached to the user's body so that the display 434, preferably a touch screen, may be viewed to control the auxiliary device. The lower part of the case 436 of the fixture mechanism, connected with the bag 401, contains the groove 440, with the sliding deadbolts 439 placed therein, put on the guiding rod 437, and pushed by the spring 438 towards extreme positions limited by the groove 440. The auxiliary display 434, visible through the hole 479 in the bag 401, is mounted on the circuit board 123.

    [0048] FIG. 45F depicts the bag 401, enlarged by the storage space for controlling the removable additional display 434, preferably a touch screen, interconnected wirelessly via Bluetooth, or the extendable cord, preferably the twisted cord 407 with the circuit board 123. Take out the multimedia device 600, or the additional display 434 is enabled by the cutout 805 in both sides of the bag 401, with the different width of the multimedia device 600 and the additional display 434 making it possible to distinguish both devices by touch.

    [0049] FIG. 45H depicts the pin/unpin procedure of the bag by mean of fixture mechanism. By sliding in the bag 401 in direction of arrow, connected firmly with the fixture mechanism, the deadbolts 439 are inserted in the eye 442, firmly attached to the belt 636. The beveling ends 810 of deadbolts 439 of fixture mechanisms 443 cause that the pressure of spring 438 is overcome and compressed to allow inserting them in the eye 442, and subsequently latching the deadbolt 439 in the groove 444. Unpin the bag is easy upon releasing the deadbolts 439 by pressing them in direction of horizontal arrows.

    [0050] FIG. 45I depicts the removable circuit board 123 of the auxiliary device 104, preferably equipped with the display 434 and the additional removable accumulator 120 placed in the bag 401, where the circuit board 123 with the basic accumulator 129 is preferably connected to the bag 401 by mean of the twisted cord 407, whereas the multimedia device 600 is connected to the bag 401 by the twisted cord 407, or preferably the circuit board 123 with other wireless connecting devices, preferably via Bluetooth, or the network of mobile operator, or other appropriate media. In this case of wireless connection, the twisted cords are preferably disconnected. The circuit board 123 is preferably placed in the case 649, with the hole therein enabling the view to the display 434, creating by this a separate unit of the auxiliary device 218. The circuit board 123, preferably containing the display 434 is preferably worn separately without the bag 401. In this case, it is wirelessly linked with the multimedia device 600 and other devices. As an example of other wirelessly linked device, there is a link of the chest belt 147 depicted here for the sake of processing the ECG heart signal via Bluetooth to process the heart pulse by mean of the induction circuit in 5.5 kHz band.

    [0051] FIG. 45J The circuit board 123, preferably equipped with the display 434, is placed in the bag 401, or it may even be used without the bag 401, by placing it in the pocket 230 as an example. In this case, it is linked wirelessly to other device, preferably the ECG, or the heart pulses 146, chest strap 419 ECG or chest strap 146 heart pulse, by mean of the multimedia device 600, the PC 418, or via the network of mobile operator 803 to the server 806. In the storage mechanism 603 of the accumulator, enabling its replacement and the basic accumulator 129, it preferably contains the additional accumulator 120, which is replaceable in the operation. In case the circuit board 123 is intended for processing the ECG heart signals, it is required to link it, in a galvanic way, to the ECG electrodes 143 by the cable 234, led under the shirt 641, around its end, through the top end of trousers in the pocket 230, preferably to the clip 402, with the extendable cord attached thereto, preferably the twisted one, or the cord with the reel of the cable connecting the circuit board 123 with the electrodes 143.

    [0052] The detail 1 depicts an example of distribution of electrodes of the three-lead ECG sensing, i.e. placing the electrodes 143 on the chest belt 147 with the shoulder straps 232 with the electrodes 231. The interlink of ECG sensing electrodes 143 is also depicted particularly with the circuit board 123, serving in the current example to process the ECG signals, placed in the pocket 230 by mean of the clip 402, the cable 234, preferably by the multi-core and extendable cord, or alternatively, the circuit board 123 is preferably placed in the bag 401, linked to by the cable 234. The electrodes 231, placed on the shoulder straps 232, are linked to by the cable 643, preferably a multi-core one, connected to the cable 234, preferably a multi-core one, in the chest belt 147, linking the electrodes 143. The electrodes 143 placed on the chest belt 147, amounting to 2 to 3 electrodes 143, and may be used separately for the single-lead ECG, albeit without shoulder straps 232 in that case. The three-lead ECG may be achieved in connection with the shoulder straps 232 equipped by the electrodes 231. By adding other two electrodes 143 in the chest belt, totally amounting to 5 pcs, and the electrodes 231, preferably attached to the elastic leg belt 147 on the ankles linked to by the cable 643, the 12-lead ECG may be achieved. Alternatively, the electrodes 231 may be placed under the waist. They are depicted as the electrodes 231 in these positions. The electrodes 231 on the leg belt 147 may preferably be linked to with the chest belt 147 by the cable 643 without the shoulder straps 232, preferably by mean of the connectors 644, similarly with the cables 643 by mean of the connectors 644. From that place, the multi-core cable 234 leads the electrodes through the independent cores in the circuit desk 123. The electrodes 231 are placed on the top of shoulder, or closely thereunder, to enable the elastic shoulder straps be pressed towards the skin to achieve good contact, preferably without glue. This is also enabled by the elastic chest belt 147 and the leg belts 147. The removable and replaceable electrodes 227, preferably the popper ones and/or glued to the belt, and/or the gel ones, enabling good contact with the skin, albeit without gluing them thereto, using the electrodes pushed towards the skin by the elastic belts 147, 147, and the shoulder straps 232, are preferably used instead of the firmly fixed electrodes 231, 143, 231.

    [0053] Alternatively, the circuit board 123 may be placed on the wrist 645 on the bracelet and conned it by the cables 233 with the shoulder straps 232, further linked to by the cables 643 with the belt 147. The circuit board 123, preferably includes the display 434, preferably a touch screen, to control it thereby. By mean of wireless connection, preferably via Bluetooth, or in case it is created by the mobile phone on the bracelet 236, alternatively by the cable 646, or preferably placed in the mobile phone on the bracelet 236, it is preferably linked to with the multimedia device 600. The principle of chest belt preferably applies with the sliding sensors 209 stored not only for the chest part described in the FIG. 63, but also for the shoulder straps with the fixing shoulder straps 204 pressed by the sensing belts 201. Alternatively, the circuit board 123 is preferably inserted in the bracelet mobile phone 236, placed on the retractable mechanism 664, depicted in the FIG. 54 with the possibility of withdrawal. In such a case, the metallic link to with electronics, secured by spare cable 233, or the extendable cord.

    [0054] FIG. 46 depicts the block scheme of the circuit board 123 electronics of the auxiliary device 104 with the function of continuous recharging accumulator of the multimedia device 600 via the connector 428 without other additional functions. The continuous recharging battery of the multimedia device, via the USB connector 428, enables the continuous and uninterrupted operation of the multimedia device 600 linked to the connector 428 without the necessity to recharge the accumulator of multimedia device by mean of external charger from the network or the notebook, hence to enable the continuous operation of or viewing the given application. Other USB connector 106, reaching the 5V voltage, as a rule, upon connecting it by the cable to the PC, or the charger with the USB connector, enables to charge the accumulator 120 of the bag, and in the same time, through the electronics circuits of the bag, recharge the accumulator of multimedia device. To this end, the accumulator 120, having a substantially larger capacity in comparison with the capacity of accumulator, forming part of the multimedia device 600, applies. The charger 131 of the accumulator 120 with the transformer, being part thereof, transforming the 5V voltage from the USB connector 106, achieved by connecting it to the PC connector, or from the network source, up to the value required to charge the accumulator 120. The voltage transformer 132 is transforming the voltage of accumulator of the multimedia device.

    [0055] FIG. 47 depicts the block scheme of the electronics of the auxiliary device to enhance the capacity of accumulator of the multimedia device 600. In addition thereto, it provides other enhancing functions. The voltage transformer 132 of the accumulator 120 is added to achieve the value required to supply the microprocessor 133, the receiver 134 and the block 135 of BT/BLE/ANT transfers. The receiver 134 of signals transmitted in 5 kHz band may be preferably used to receive signals from the chest belt transmitting data on the heart rate of person using the belt, and similarly the block 135 of transfers BT/BLE/ANT enables the communication with the device transmitting data this way. Thus, the electronics of the bag 401 enables both the two-way wireless communication with the multimedia device 600, and the two-way communication through the connector 428. The data transmitted this way may be assessed by the microprocessor 133, and the results transmitted via the connector 428 to the multimedia device 600, preferably able to view the screen in numeric or graphic form on the display.

    [0056] FIG. 48 depicts the block scheme of the electronics of auxiliary device, strengthening the capacity of accumulator of the multimedia device 600, it includes the communication block 149, preferably encompassing the receiver 134 of signals in the 5 kHz band, the block 135 of BT/BLE/ANT transfers, the module 136 of RF transfers, the module 137 of Wi-Fi transfers and the module 138 of ZigBee transfers. The receiver 134 of signals in the 5 kHz band, or the block 135 of BT/BLE/ANT transfers may be used, e.g. for the reception of signal from the chest belt processed in the microprocessor 133 and transmitted through the block 135 of BT/BLE/ANT transfers, or the twisted cord, or the cord placed on the reel together with charging 5V voltage in the multimedia device. The possibility to receive and assess data on the heart rate sensed by the chest belts of various producers is an advantage. An important part of the communication block 149 is the block 804 of the GSM communication, enabling the network communication even if the multimedia device was not in active mode. The block 804 contains particularly the SIM card 177 as well as the microphone and the speaker 801 of the voice communication. In addition to the communication block 149, the block scheme depicts the buttons 110, 111 and indicators 108 and 109, preferably the LED ones. These buttons, preferably assigned with the Panic and Reset functions enable to submit the additional instructions of fast activation of mobile phone via the microprocessor 133 such as setting the alarm that is, with the current technology, not feasible to set it in addition fast enough as the application of touch screen of the multimedia device, created preferably by mobile phone, is time consuming for this purpose. The pushed button 110, e.g. with the assigned Panic function, may be assessed by the microprocessor 133 as an emergency request. To reduce the occurrence of false alarms caused accidentally by pressing the button 110, the indicator 108, e.g. the red LED diode, flashes for few seconds in the adjustable time period. In the same time, the warning acoustic signal is made preferably by the speaker 801. At this time, the alarm mode may be canceled by the button 111, preferably with the Reset function upon expiry of this period of time, unless reset, the microprocessor 133 sends via the connector 428 to the multimedia device 600 the data signal instructing to send preferably the SOS messages prepared in advance and saved to the central prevention desk, or other place prepared to react fast to this emergency call. The communication block 149 is preferably amended by the GSM communicator 463 with the speaker 801 and the microphone 802 to be also preferably used for an emergency calling for the sake of backup by the multimedia device in case of its malfunction. The emergency voice phone communication is preferably pursued, via GSM or other network of the mobile operator, if needed.

    [0057] FIG. 49 the block scheme of the auxiliary device, intended to process the analog signals of ECG curve by the Front End module 141, placed on the circuit board 123, and their further processing by the microprocessor 133 upon digitization. The ECG leads 430 led from the sensing electrodes 143 are connected to the connector 140, to the Front End unit 141, to amplify the signals on one hand, filter the interfering signals, and upon digitization, they are digitized by the latter. The signals in the digital form are advanced to the microprocessor 133, whereas, upon being processed, they are led to the connector 428, and further to the multimedia device 600. Moreover, the block scheme depicts the blocks of continuous accumulator charging 120 of the multimedia device 600 through the connector 428.

    [0058] FIG. 50 depicts the block scheme of other option to process the ECG signals by using the auxiliary device forming part of the bag. In this case, the electrodes 143 are placed on the ECG belt 419 to enable their connection, and the Front End circuit 141. The ECG sensing signals are amplified and filtered as well as digitized directly on the ECG belt 419. The ECG signals pre-processed in this way are sent wireless through the module 144 to the BT/BLE/ANT block 135 of transfers, located in the electronics of the bag to be transmitted therefrom to the microprocessor 133 for further processing the ECG signal. The second microprocessor 133 and other microprocessor 133 may preferably be used to extend the functions. These microprocessors preferably operate with various protocols different from the protocol of multimedia device, bringing about the advantage of working with more databases and programming languages. Other option includes the use of the ECG belt 419, preferably reinforced by the module 446 of the electronics for processing ECG signals completely so that the comprehensive ECG curve in form of data is transmitted to the circuit board 123 to be subject to imaging it. The connection is wire or wireless, preferably via Bluetooth.

    [0059] FIG. 51 depicts an example of extending the functions of the multimedia device 600 by mean of the auxiliary device located in the bag 401 to assess the pulse rate, or EGG, by the chest belt 419 with the possibility of emergency call by pushing the button 110, with the option of resetting the reset button 111. The multimedia device 600 is linked to with the bag 401 by the twisted cord, enabling both the two-way communication, and the continuous charging accumulator of multimedia device. The chest belt may transfer wireless the sensing data to the communication block 149 of the bag 401 by mean of routine communication protocols so that the belts of various producers using various communication protocols may be linked to. Simultaneously, this data are preferably transmitted to the watch 416 with a receiver, preferably operating at 5.5 kHz induction frequency, or 2.4 GHz. The data transmitted to the electronics of the bag 401 is processed by the microprocessor 133, transferred thereafter to the multimedia device 600 to be viewed and controlled, and preferably also in the wrist mobile phone 417 via radio signal, preferably by the BT transfer module, or other suitable communication medium.

    [0060] FIG. 52 depicts an example of extending functions of the multimedia device 600 on sensing and assessing ECG with the wireless link to the ECG belt 449. The data serving simultaneously to assess the pulse rate are wireless transferred in the electronics circuits of the bag 401, the ECG belt 419, the multimedia device 600, and preferably the PC 418 as well, trough the block 149 of transfer, preferably pursuant to the Bluetooth protocol with the multipoint function, or master function. Alternatively, the chest belt 145 transferring data of the pulse rate in 5 kHz band instead of the ECG belt 419 is communicating with the bag 401. Furthermore, the data between the bag 401, and the bracelet 417, are transferred, preferably by the Bluetooth receiver. The data information is transferred to the surveillance central desk 447, preferably through the network of mobile operator 803 to assess it further. Alternatively, the data are transferred from the ECG belt 419 by mean of the wire circuit 633.

    [0061] FIG. 53 depicts an example of enhancing the functions of the multimedia device 600 by assessing the ECG signals, transferred from the ECG belt 419 in the electronic circuits of the bag 401 by using the two-core, or four-core cord 362, whereas two wires to transfer data and other two wires may be used for continuous recharging accumulator of the ECG belt 419.

    [0062] FIG. 54 depicts the bracelet 620 with the eject mechanism 664 for the ejecting attachment of multimedia device 600, adjusted or non-adjusted, preferably with the groove ducts 621, used for moving the sliding sledge 622 thereon, with the position fixed in the limit positions by the small stopping ball 623 pressed on by the spring placed in the bottom part of the sledge 622 snapping shut in the stopping depressions 624 on the surface. The sledges 622 contain the groove 625 with the small rail 626 snapping shut therein; the sledges 622 eject out of the bracelet is ensured by the end stops 627, 627. The multimedia device 600 is plotted in the ejecting position, while the detail 513 depicts the retracting position. The advantage is the ability to wear the multimedia device in the standby position, on the bracelet, hidden under the shirt, and in case of use to eject it in the visible position. To pull out the multimedia device 600, if required, it shall preferably be adjusted by the ejecting mechanism 664, and it preferably removes the stopper 627, and upon the resistance of the stopping depression on the surface 624 is overcome, the multimedia device 600 may be pulled out from the sledge 622 for free use. Easy insertion in the groove 625 preferably enables the extended lead-in 637. The described design of the ejecting mechanism 664, preferably adjusted for pulling out the multimedia device 600, serves just an example so that it may be executed by other appropriate mechanism.

    [0063] FIG. 55 depicts the side view of the ejecting mechanism 664 with the placement of the multimedia device 600 made visible, may be non-adjusted, preferably on the movable sledges 622 with them mounted to the rear cover of the multimedia device 600, additionally mechanically interconnected by a suitable joint such as screw, glue, dry zip or alike. The multimedia device 600 adjusted already at the factory is preferably used so that the back cover contains grooves and the rear wall adjusted this way assumes the function and replaces the moveable sledges 622. The advantage is the possibility of inserting the multimedia device 600 into the sleeve of coat or jacket fast, thereby hiding it when not used and pulling it out fast, if required.

    [0064] The multimedia device 600 preferably wears the attached auxiliary device 104, depicted in the previous figures, with the circuit board 123, the additional accumulator 129 removable through the door 466 upon extrusion by the spring 422, preferably mounted on the rear cover 101 of non-adjusted multimedia device consisting of the mobile phone.

    [0065] FIG. 63 depicts the belt intended for continuous sensing the electric activity of the heart muscle, showing itself in the form of biomedical signals of very low voltage travelling on the surface of the body which can be sensed by using the electrodes placed in the appropriate points of the body of examined person, preferably for the heart rate and/or ECG measuring. In terms of achieving reliable contact of the electrodes sensing the biomedical signals, particularly for the long-term continuous sensing, it is important to minimize the occurrence of interfering signals caused by moving the contacts on the surface of body. Due to this, the position of contacts on the surface of body should not be changed due to the movement of the person in the sensing session. This problem is dealt with by the chest belt 209, with the sensors stored to allow the sliding movement, arranged according to FIG. 63, by replacing the commonly used belt with the electrodes, firmly attached to the fixing fastening belt, by mean of the system of two belts sliding mutually at each other's surface that is composed of the sensing belt 201 with the electrodes 202, and the fixing belt 204 surrounding the entire chest of the monitored person which presses the sensor belt 201, and thus its electrodes 202 towards the body surface 208 of the monitored person either. The individual electrodes are marked by the reference code of the electrodes 202, amended by the apostrophe ('), i.e. the electrode 202 up to the electrode 202. The flexible fixing belt is composed of three parts, particularly the part of the fixing belt 204, the part of the fixing belt 204, and the part of the fixing belt 204. The first side of the sensing belt 201 with the electrodes 202 must have a surface that best adheres to the body 208 to avoid sliding the sensing belt 201 on the body, thus ensure the invariable reliable contact of the electrodes 202 with the body 208. The other way around, the other side of the sensing strip 201, with the loops 203, must have a sliding surface, preferably made of Teflon, to achieve the slightest rubbing between its surface and the surface of the sliding part of the fixing belt 204. With regard to the first side of the sensing belt 201 and the side 201, there are different requirements offered in this way. Due to this, they are preferably covered by the layers of different materials, and/or the sensing belt 201 is composed of two connecting layers of different materials. Similarly to the contact surface, the electrodes 202 may be composed of the electric power conductive material which are glued to, steamed to the sensing belt 201, and/or created directly on the first side of the sensing belt 201 made of the electric power non-conductive material. The conductive and non-conductive plastic which, in the same time, may form the first side of the sensing belt 201, with the conductive regions made of the electric power conductive plastic, having the function of the electrodes, may preferably be combined. The sliding part of the fixing belt 204 is preferably made of the material with a low friction coefficient, e.g. Teflon, or it is coated by such a material, and it is connected to the sensing belt 201 by mean of several loops 203. The individual loops are marked by the reference code of the loops 203, with apostrophes such as the loop 203, or the loop 203, firmly connected to the sensing belt 201, with them passed through on the sliding part of the fixing belt 204 thus creating the mutually slightly sliding connection. In the movement of the fixing belt 204, moving on the surface of the sensing belt, due to impact of the movement of the body, it slides on the sensing belt 201 so that the position of the sensing belt 201 against the body 208 remains unchanged. The sliding part of the fixing belt 204 is connected with the part of the fixing belt 204 by the expandable clip 207, with that clip being expanded only at the passing part of the fixing belt 204 through on the loops 203, e.g. during the repair, and thus being constantly joined to when using the belt 204. The other end of the part of the fixing belt 204 is connected to the fixed connection 212 to the part of the fixing belt 204. Other two parts of the fixing belt 204 and 204 are made of a flexible material, preferably the rubber-textile strip. The total length of the fixing belt 204, and thus also the pressure imposed to push the sensing belt 201 towards the body 208, can be set up in the mentioned example by the movable clasp 206, enabling to adjust and fix the length of the loop created by passing the fixing belt 204 through on the clasp 206. The connection/disconnection of the past of the fixing belt 204 of the part of the fixing belt 204 is ensured by the two-piece disconnecting conjunction 205. Two or more contact surfaces, mechanically connected to the sensing belt 201, are electrically connected with one, or more sensors, e.g. the sensor 210, and the sensor 211, processing the biomedical signals sensed by the electrodes 202 for further processing. The electrodes 202 may be positioned on the sensing belt 201, or directly in the sensing belt 201, or the sliding part of the fixing belt 204. There are possible different ways of using the electrodes 202 and the combination of connecting them to the sensors. In the depicted configuration, the electrodes 202 and 202 are connected to the sensor 211, and the electrodes 202 and 202 are connected to the sensor 210.

    [0066] FIG. 64 depicts the option of the previous configuration of the chest belt with the sensors stored so as to allow the sliding movement, with the sensor 210 integrated in the sensing belt 201, with the surface shaped so as to enable the sliding part of the fixing belt 204 to slide perfectly on the surface of the sensing belt 201. The auxiliary device 218 composed of the easy replaceable accumulator to supply the sensors 210 and 211 with power, or recharge their accumulators respectively, extends the operation time of the depicted sensors 210 and 211 without charging, or replacing the built-in accumulators of sensors. With advantage could be used other auxiliary device 218 too, which may contain the electronic circuits, e.g. for further processing of the sensed biomedical signals.

    [0067] FIG. 65 depicts the disconnected fixing belt 204 in the straighten form, the conjunction 205 is disengaged, the part of conjunction 205, connected with the part of the fixing belt 204, is detached from the conjunction part 205 connected with the part of the fixing belt 204. The sliding buckle 206 is intended for setting the length of the fixing belt 204, and thus the pressure used to push the electrodes 202 to the body 208 through the sensing belt 201 either. Other depicted parts were described in FIG. 63.

    [0068] FIG. 66 depicts a view of the sensing belt 201 from the side of loops 203 and the side of the electrodes 202. In this case, the sensor 210 is placed on the sensing belt 201.

    [0069] FIG. 67 depicts a simplified chest belt with the sensors 210 and 211, preferably able to be used in combination with the shoulder straps 232, 204 so as the chest belts depicted in FIGS. 63 to 66.

    [0070] FIG. 68 depicts the block scheme of using the electrodes 202, and sensors 210 and 211 of the chest belt 209, preferably with the sensors stored so as to allow the sliding movement, with an example of execution shown in FIG. 63. The mentioned configuration enables the assessment of bio-signals sensed by the selected electrodes, placed on the chest belt with two independent sensors stored so as to allow the sliding movement, and the results sent wireless by two or more independent transmission paths preferably by using different transmission protocols. The pair of the electrodes comprised of the electrode 202 and the electrode 202 is connected to the sensor 217 inputs placed in the independent sensor 210, together with the transmitter 214, preferably operating in 5 kHz band. The electrodes 202 and 202 are connected to the inputs of other sensor 217, located in the second independent sensor 210, together with the transmitter 215, preferably operating in 2.4 GHz band, preferably by use of the transmission Bluetooth protocol. The connection enables the sensors 217 and 217 to assess simultaneously the bio-signals, sensed by the pair of the electrodes, formed by the electrode 202 and the electrode 202, and via the second pair, consisting of the electrode 202 and the electrode 202, with the results transmitted for further use as a data by mean of the transmitter 214, and in the same time, through the transmitter 215. The jamming resistance may preferably be improved by the control unit 222 which compares the signals at the outputs of the sensors 217 and 217, and at the moment of assessing the failure, it disables the transmitter 214, or the transmitter 214. The jamming resistance may similarly be improved by using the receiver 214, operating in 5 kHz band, and simultaneously the receiver 215, operating in 2.4 GHz band, with their output data being assessed by the control unit 222.

    [0071] FIG. 69 depicts the block scheme option just using the electrodes 202, and 202, connected with the parallel linked inputs of the sensor 210 and the sensor 211. In this case, the sensors 210 and 211 evaluate bio-signals sensed by one pair of electrodes 202 and 202, assessed by the various sensors 217 and 217, with the results transmitted by two independent transmitters 214 and 215. Furthermore, the auxiliary device 218, containing the readily replaceable accumulator 219, with the electronics 220, to supply the auxiliary devices by the power from the backup accumulator 219, is also depicted. Other auxiliary device 218, may also preferably be used, with the electronic circuits, e.g. for further processing of the sensed biomedical signals.

    [0072] FIG. 70 depicts the block scheme of the probe 213 with communication block, preferably formed by the transmitter 214, operating in 5 kHz band, and the transmitter 215, operating in 2.4 GHz band, using the Bluetooth transmission protocol and the transmitter 216, operating in 2.4 GHz band using the ANT transmission protocol, and preferably other transmitters 238, operating in other protocols. The signals sensed by the pair of electrodes formed by the electrode 202 and the electrode 202 of the sensor 217.

    [0073] FIG. 71 depicts the electrodes 227, preferably the popper, or the gel ones. Their conductive connection to the sensors ensures the link of the popper sleeve 221the popper-thorn 221 system that can be dismantled, with the thorn 221 located on the side of the electrode, and the sleeve 221 on the side of the pushing element 660, preferably of the chest or leg belt, shoulder straps, elastic clothes, or harness, particularly in its conductive part 653 linked to the input of heart rate detector, or eventually the circuit board. The sleeve is preferably filled by the female part of the clip 648. The electrodes 227 are designed to have the contact surface 224 intended for contact with the human skin. The contact is improved by the conductive gel layer 223 laid on this surface. In the configuration of FIG. 71, there is the gel layer covered by the sensing cover foil 226. By pressing the finger on the foil, the electrode snaps in the counter connector, a sleeve in the belt 147. Thereafter, the cover foil 226 is removed and the electrode is put in the required position on the body of sensing person. In the configuration of FIG. 71 below, the electrode is pulled on in the plastic cartridge 225 to be removed upon the snapping the electrode on the belt. This configuration prevents the gel leakage from the contact surface at the handling and snapping the electrode in the belt.

    [0074] The detail depicts the electrodes 227 with the thorn 221 mounted directly on the gel material 223 and fit in the sleeve 647 of the chest belt 201, preferably made of the elastic material. An easy removal capability and the high conductivity of the gel 223, and in the same time, the adhesion to the skin, hold in the belt on the body in the position without slippery, is an advantage.

    [0075] FIG. 72 depicts the portion of the pushing element 660 to enable that the electrodes 202 are pulled on, and it provides the conductive connection to the body of the sensing person and the heart rate, or the ECG detector. The sensing portion of the electrode, i.e. the popper-thorn 221, connected with the skin, is preferably a metallic one and preferably laid by the conductive gel 223. In the pushing element, there is a conductive part of the pushing element connected with the electrode that creates the electrode fixing mechanism 654 described in the following figures.

    [0076] FIG. 73 depicts the fixing mechanism 654 of the electrode, composed of the conductive element of the pushing element 660, with the sleeve of conductive element 658 latched by the popper-thorn 221. Before setting the electrode to the sensing position on the body, the plastic cover 656 of gel of the electrode is removed.

    [0077] The plastic foil 655 of the electrode includes the composition with the popper-thorn 221, and it may preferably be furnished by an adhesive layer to secure stronger connection with the pushing element 660.

    [0078] FIG. 74 depicts the execution of the gel electrode in the identical configuration of the fixing mechanism 654 of the electrode. In this case, the plastic foil 655 of the electrode is omitted and the entire body of the electrode is created by the popper-thorn 221 with the contact body formed by the gel 223.

    [0079] FIG. 75 depicts the solution of the electrode fixing mechanism of the covering shaped annulus 661, with its adhesive layer 659, revealed upon the electrode unpacking from the package and the cover foil removing, adheres to the conductive portion 653 of the pushing element. Upon removing the plastic cap 656 of the electrodes, and pressing the electrode by the pushing element towards the body, the gel 223 leaks from beneath the covering shaped ring 661 to ensure the conductive contact link.