Abstract
A flashlight is disclosed which comprises a base that has a servo motor that allows the base to rotate in a 180° angle, and at each end of said base lamps are placed with a plurality of LED lights, a main support which has a battery indicator, a camera and an LCD or LED screen, some buttons that control the on, off, flashing lights and camera, also on said main support is placed a removable SD memory that allows data storage, said flashlight also comprises a handle that has buttons that serve to control the LED lights of the lamps, and a switch to control the rotating base, said flashlight also comprises a removable battery responsible for supplying the power of the entire system of that flashlight.
Claims
1. A flashlight comprising: A main support (2), a servomotor (7a) that is set to be placed inside the main support (2), said servomotor (7a) comprises a pinion (7), a swivel base (10), configured to be held by the pinion (7), a plurality of supports (37) that are placed one for each end of the rotating base (10), a plurality of LEDS light lamps (14), comprising a plurality of gripping hooks (36), said plurality of LEDS light lamps (14) are placed one for each end of the plurality of supports (37), said plurality of LEDS light lamps (14) when placed on said plurality of brackets (37) the first of said plurality of LEDS light lamps (14) remains in the front position and the second of said plurality of LED light lamps (14) remains in the rear position of the lantern (1), said plurality of LED light lamps (14) also comprise flashing lights, a first controller card (7b) that serves to control the functions of the servomotor (7a), a second controller card or MINI DVR (23b) comprising a camera (23), a microphone (39), a connector with a micro SD card input (32) and a monitor (8), a rotating arm (9a) having two ends, the first end is connected to the rotating support (9), said rotating support (9) is connected to the main support (2) and the second end of said rotating arm (9a) is connects with the monitor (8), said rotating arm (9a) allows the monitor (8) to move or rotate and be placed under the main support (2) to protect itself, a third controller card (25a), configured to control the plurality of LED light lamps (14) that are in the front position of the lantern (1), a fourth controller card (25e), configured to control the plurality of LED light lamps (14) that are in the rear position of the lantern (1), a first switch (4) that is attached to the main support (2), which serves to turn on and off the plurality of LED light lamps (14) that are in the front position of the lantern (1), a second switch (4a) that is attached to the main support (2), which serves to turn on or off the flashing lights of the plurality of LED light lamps (14) that are in the front position of the lantern (1), a third switch (5) that is attached to the main support (2), which serves to turn on and off the plurality of LED light lamps (14) that are in the rear position of the lantern (1), a fourth switch (5a) that is attached to the main support (2), which serves to turn on or off the flashing lights of the plurality of LED light lamps (14) that are in the rear position of the lantern (1), a fifth switch (6) that is attached to the main support (2), which is used to turn on or off the controller card or MINI DVR (23b), a battery indicator (2a) that is attached to the main support (2), which is used to check the status of the battery (29), a potentiometer (7c), which is attached to the main support (2), which serves to control the energy of the servomotor (7a), a hook (3), which is attached to the main support (2), a belt (3b) that is attached to the hook (3), a handle (24) that is attached to the main support (2), said handle (24) serves to hold and manipulate the flashlight (1), a battery (29) that supplies the energy of the entire lantern (1), said battery (29) is configured to be housed inside the handle (24).
2. The swivel base (10) of claim 1 further comprises: A plurality of female connectors (19) that is placed one at each end of the rotating base (10), the first of said plurality of female connectors (19) connects with the controller card (25a) and the second of said plurality of female connectors (19) connects with the controller card (25e).
3. The plurality of LED light lamps (14) of claim 1 further comprises: A plurality of LED light indicators (16), which serve to indicate which light is active of the plurality of LED light lamps (14), a plurality of female connectors (19), which is placed one in each plurality of LED light lamps (14), a plurality of cables (13a) comprising a plurality of male connectors (13) one at each end of said plurality of cables (13a), the first of said male connectors (13) is configured to connect to the first of the connectors female (19) of the rotating base (10), the second of said male connectors (13) is configured to connect to the first of said female connectors (19) of the plurality of LED light lamps (14), the third of said male connectors (13) is configured to connect to the second of the female connectors (19) of the swivel base (10) and the fourth of said male connectors (13) is configured to connect to the second of the female connectors of the plurality of LED light lamps (14), said plurality of wires (13a) serve to send current and control the lights of the plurality of LED light lamps (14).
4. The handle (24) of claim 1 further comprises: A panel (25) comprising a plurality of switches that when pressed serve to change the colors of the plurality of LEDS light lamps (14) of the lantern (1) and a switch or trigger (26), said panel (25) is fixed on one side of the handle (24) and has a slight inclination in such a way that the thumb of the user can reach the switches of said panel (25) and the index finger of the user of the same hand where said finger is located The user's thumb can reach the switch (26), said switch (26) when pressed allows the swivel base (10) to rotate.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
(1) FIG. 1. Shows a perspective view of the left side of the present invention with some parts identified.
(2) FIG. 2. Shows a perspective view of the back of the present invention with some parts identified, where a hand is seen gripping the handle.
(3) FIG. 3. Shows a left side view of the present invention with some parts identified.
(4) FIG. 4. Shows a front view of the present invention with some parts identified.
(5) FIG. 5. Shows a rear view of the present invention with some parts identified.
(6) FIG. 6. Shows a top view of the present invention where the rotating base is simulating a 180° rotation.
(7) FIG. 7. Shows a bottom perspective view of the present invention with some parts identified.
(8) FIG. 8. Shows a bottom perspective view of the present invention where the protective cover of the SD card containing the orifice of the microphone outlet and the protective cover of the battery is out of place, the input of the battery, with said battery out of place.
(9) FIG. 9. Shows a bottom perspective view of the present invention where the LCD or LED screen in conjunction with the rotating stand are placed in saved mode.
(10) FIG. 10. Shows a left side perspective view with the LED lamps removed.
(11) FIG. 11. Shows a perspective view of the left side of the present invention with the LED lamp lamps mounted on the rotating base and said disassembled rotating base.
(12) FIG. 12. Shows a bottom perspective view of the left side of the present invention with the LED lamp lamps mounted on the swivel base and said swivel base disassembled.
(13) FIG. 13. Shows a perspective view of the left side of one of the disassembled LED lamps with most of its parts identified.
(14) FIG. 14. Shows a top perspective view of the grip hook attached to the support for holding the hook.
(15) FIG. 15. Shows a perspective view of the left side of the flashlight with a strap attached to the grip.
(16) FIG. 16. Shows a top perspective view of the gripping part fixed to the main support and with a strap attached.
(17) FIG. 17. It is a schematic diagram of a control circuit of the LED headlight array connected to a controller card.
(18) FIG. 18. Schematic diagram of the rear lamp.
(19) FIG. 19. Schematic diagram of the servo motor.
(20) FIG. 20. Schematic diagram of a mini digital video recorder (DVR).
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
(21) FIG. 1 shows a flashlight (1) comprising a rotating base (10) where said rotating base (10), has two LED lamps (14) one at each end where said LED lamp (14) receives energy by means of a cable (13a) that goes from the rear cover (15) of the LED lamp (14) to the rotating base (10). The rear covers (15) of the LED lamp (14) have LED indicator lights (16) that allow the operator to indicate the color of the LED lights (20) that are operating in the LED lamp (14).
(22) FIG. 1 of said flashlight (1) also comprises a main support (2) that has several buttons that are: The on/off switch of the front lamp (4), flashing light switch of the front lamp (4a), the rear lamp on/off switch (5), rear lamp turn signal switch (5a), MINI DVR on/off switch 6, a battery indicator (2a), a potentiometer (7c), a grab hook (3), an LCD or LED monitor (8) that is held by arms (9a).
(23) FIG. 1 of said flashlight also comprises a handle (24) that has a button panel (25) that allows changing the colors of the LED lights (20) and the LED indicator lights (16), a switch or trigger (26) that pressing it allows the rotating base to rotate.
(24) As shown in FIG. 2, the lantern handle (24) is held in one hand, where the thumb of said hand is in position to press one of the panel buttons (25), while the finger Index is in position to press the switch (26) and the other fingers are holding the handle (24). Said panel (25) is attached to the side of the handle (24) and has a slight inclination such that the thumb can easily reach and accommodate the panel buttons (25), and at the same time the index finger can be used to press the switch (26) that allows the rotation of the rotating base (10).
(25) FIG. 3 shows a flashlight (1) where the main support (2) is connected to the rotating base through the pinion of the servo motor (7), leaving a gap between the medium so that when you rotate the rotating base (10) do not have any contact with the main support (2), also the LED lights lamps (14) are placed at each end of the rotating base (10) in such a way that it does not make contact with the main support (2), so The rotating base (10) together with the LED lamp lamps (14) can rotate freely.
(26) FIGS. 4 and 5 shows a flashlight (1) where the front and rear LED lamp lamps (14) can be identified, said LED lamp lamps (14) preferably have an approximate size of 17 cm in diameter, being a suitable size for when the person in charge of the traffic points on the pedestrians and drivers can see the LED lights clearly.
(27) FIG. 6 shows a simulation of the rotating base (10) together with the LED lamp lamps (14) of the flashlight (1) rotating from an initial position to which we set as 0° degrees to 180° degrees, such so that the front LED lamp (14) is on the back of the flashlight (1) and the rear LED lamp (14) is on the front and vice versa. In this way an order can be issued with the front LED lamp (14) towards the pedestrians or drivers who are obviously in front and with the other rear LED lamp (14) another different order can be issued towards the pedestrians or drivers that are obviously in the back, and you can quickly change the order by turning the rotating base (10) where the order executed with the front LED lamp (14) is on the back of the flashlight (1) and the order of the rear LED lamp (14) is on the front. In other words, you can send different orders at different angles at the same time, also quickly change an order that is being executed to the front and place that order on the back and vice versa.
(28) As shown in FIG. 7, the flashlight (1) has a protective cover (31) that has an audio output for the microphone (38), which is already placed in its corresponding place on the main support (2). Also the handle of said flashlight (1) has a cover to protect the battery (28), where said cover is placed in its corresponding place.
(29) As shown in FIG. 8, the flashlight (1) has the protective cover of the SD memory (31) removed, so that it allows the SD memory to be placed or removed from its place. Also the handle (24) of said flashlight (1) has the protective battery cover (28) and the battery (29) removed; the battery input (27) can be distinguished where said input (27) and the internal part of said input (27) has the shape of the battery (29), also said input (27) is slightly larger than the battery (29), so that the battery (29) can enter, and when placed it can be perfectly adjusted, so that it cannot move from its place regardless of whether they make sudden movements with the flashlight (1).
(30) As shown in FIG. 9, the rotating support (9) is attached to the main support (2) of the flashlight (1), and the arms (9a) have two ends, the first of the ends is attached to said rotating support (9) and the second end of said arms (9a) is holding the LCD or LED screen (8). The arms (9a) can be moved or rotated in such a way that the LCD or LED screen (8) can be placed in the lower part of the main support (2) and in this way said LCD or LED screen (8) is protected. In the position in which the LCD or LED screen (8) is located in FIG. 9 we call it the storage position.
(31) As shown in FIG. 10, the flashlight (1) has the LED light lamps (14) removed and the cables with the male connectors (13) removed. The entrance of the female connectors (19) where one of the ends of said cables with male connectors (13) and on the back of said LED lamps (14) can be identified on the rotating base (10). the input of a female connector (19) can be identified where the other end of said cables is connected with male connectors (13). The way to remove the LED lamp lamps (14) from the rotating base (10) is to first remove the cables with the male connectors (13) from the female connectors (19), and then press the grip hook (36) of the support to hold the hook (37).
(32) As shown in FIGS. 11 and 12, the rotating base (10) is removed from the flashlight (1). The rotating base (10) of the lantern (1) is disassembled in such a way that you only have to remove the protective cap (11) with outward pressure, then unscrew the screw (12) which is what allows the base to be fixed rotating (10) of the servo motor pinion (7). The rotating base (10) in the lower part has a groove with grooves that fit with the pinion of the servo motor (7) such that said pinion (7) is perfectly positioned inside the groove with splines of said rotating base (10). By placing the pinion (7) inside the rotating base (10) in its corresponding place, it allows said rotating base (10) to rotate firmly.
(33) As shown in FIG. 13, the LED light lamp (14) has a rear cover (15), which will protect the LED light matrix (20) when placed on the inside of said rear cover (15), It also has a reflector base (18) that is placed in such a way that the LED lights (20) remain inside the inverted cones (18a) of said reflector base (18). Said cones (18a) function as a light collector, broadening the reflection of the emitted light, also each of the LED lights (20) within said cone (18a) are separated, so that, with all the LEDs on its light can be identified individually, also said reflector base (18) has a division (18b) that allows LED lights (20) to be separated from other LED lights (20), that is, a group of LED lights (20) can emit lights without mixing with the emitted lights of the other group of LED lights (20). Also the inverted cones (18a) and the division (18b) have the same length size which allows to create a flat surface in the front part of said reflecting base (18) such that the lens (21) can be placed on the front part of the reflector base (18) said lens (21) being perfectly positioned.
(34) The lens (21) of FIG. 13 has a division (21a) that coincides with the division (18b) of the reflecting base (18) where the central part of said lens (21) can have different colors or be translucent, and the other part of said lens (21) can be of another color or be translucent, in this way people can see different shades of colors in the lens (21) at the same time or simply directly see the LED lights (20).
(35) The LED lamp (14) of FIG. 13 also has a rubber gasket (22) that is placed on the back of the front protective cover (17) where said front protective cover (17) with the rubber gasket (22) comes under pressure, and is sealed from the front part of the back cover (15), in this way all the parts that remain inside said back cover (15) are fully protected, and where said rubber gasket (22) creates a shield so that no type of particle penetrates into said LED lamp (14).
(36) In FIG. 14 it shows a hook (36) attached to the support (37) where the leg that is inside the hollow of said support (37) has a size practically equal to that of the hollow of said support (37), the pressure exerted and The firmness with which said hook (36) is grasped within the hollow of said support (37) prevents said hook (36) from moving from its position or from exiting.
(37) FIG. 15 shows an illustration of the flashlight with a strap (3b) placed on the grip (3), where said strap (3b) has an automatic pressure buckle (3c), which when pressed releases said strap (3) to be able to remove it from the grip (3).
(38) FIG. 16 shows an illustration where you can see the inside of the grip piece (3) where said piece (3) has two supports (3a), one at each end, which are attached to the main support (2), and said supports (3a) of the grip piece is approximately 8 mm long, and being fixed of the main support (2) leaves a space between said main support (2) and the grip piece (3), by said space is where the strap enters (3b).
(39) FIG. 17 shows an illustration of a schematic diagram of the control circuit of the LED lights (20) and the LED indicator lights (16) of the front lamp (14), where said LEDs are crystal RGB, and common cathode. The anodes of these LEDs have a limiting resistance to protect them. Said LEDs (20) and LED indicator lights (16) are connected in such a way that the anodes of the red LEDs are connected consecutively in series, with the anode assemblies of said red LEDs connected in parallel, like that the anodes of the blue LEDs that are connected consecutively in series, with the anode assemblies of the said blue LEDs connected in parallel and the anodes of the green LEDs are connected consecutively in series, with the sets of the anodes of said green LEDs connected in parallel, where said RGB LEDs form a matrix. The wiring end of said array of LED lights (20) is attached to a female connector (19) and said female connector (19) has a male connector (13) connected and said male connector are attached cables (13a) and in at the other end of said cables (13a) is another male connector (13) connected to a female connector (19) where the cables that communicate with the controller card (25a) are connected. Said controller card is housed inside the flashlight (1).
(40) The controller card (25a) has pins that are listed in such a way that:
(41) Pin 1 or VDD communicates with the positive of the battery (29), and with one of the poles of the on/off switch (4), and the other pole of said switch (4) is connected to pin 16 or VSS of the controller card (25a). The function of the switch (4) is to turn the front LED lamp (14) on and off.
(42) Pin 2 communicates with a switch (4a) and the other pole of said switch (4a) communicates with pin 16 or VSS of the controller card (25a). The function of the switch (4a) is to activate the LED lights (20) intermittently.
(43) Pin 3 communicates with pin 14, pin 6 and pin 11, where said pins communicate with one of the switch's poles (25b) of the panel (25) and the other pole of said switch (25b) is connected to pin 16 or VSS of the controller card (25a). The function of said switch (25b) of the panel (25) is to activate or deactivate one of the colors of the LED lamp (14).
(44) Pin 4 communicates with pin 13, pin 7 and pin 10, where said pins communicate with one of the switch's poles (25c) of the panel (25) and the other pole of said switch (25c) is connected to pin 16 or VSS of the controller card (25a). The function of said switch (25c) of the panel (25) is to activate or deactivate one of the colors of the LED lamp (14).
(45) Pin 5 communicates with pin 12, pin 8 and pin 9, where said pins communicate with one of the switch's poles (25d) of the panel (25) and the other pole of said switch (25d) is connected to pin 16 or VSS of the controller card (25a). The function of said switch (25c) of the panel (25) is to activate or deactivate one of the colors of the LED lamp (14).
(46) Pin 16 or VSS communicates with the negative pole of the battery (25). Said battery (25) has a battery indicator (2a), which is used to measure the amount of charge that said battery has (25).
(47) The controller card (25a) is held in the inner part of the main support (2) in such a way that it cannot be moved. Said controller card (25a) being in the internal part of the support (2), is also protected.
(48) FIG. 18 shows an illustration of a schematic diagram of the control circuit of the LED lights (20) and the LED indicator lights (16) of the rear lamp (14), where said LEDs are RGB glass, common cathode. The anodes of these LEDs have a limiting resistance to protect them. Said LEDs (20) and LED indicator lights (16) are connected in such a way that the anodes of the red LEDs are connected consecutively in series, with the anode assemblies of said red LEDs connected in parallel, like that the anodes of the blue LEDs that are connected consecutively in series, with the anode assemblies of the said blue LEDs connected in parallel and the anodes of the green LEDs are connected consecutively in series, with the sets of the anodes of said green LEDs connected in parallel, where said RGB LEDs form a matrix. The wiring end of said array of LED lights (20) is attached to a female connector (19) and said female connector (19) has a male connector (13) connected and said male connector are attached cables (13a) and in at the other end of said cables (13a) there is another male connector (13) connected to a female connector (19) where the cables that communicate with the controller card (25e) are connected. Said controller card (25e) is housed inside the flashlight (1).
(49) The controller card (25e) has pins that are listed in such a way that:
(50) Pin 1 or VDD communicates with the positive of the battery (29), and with one of the poles of the on/off switch (5), and the other pole of said switch (5) is connected to pin 16 or VSS of the controller card (25e). The function of the switch (5) is to turn the rear LED lamp (14) on and off.
(51) Pin 2 communicates with a switch (5a) and the other pole of said switch (5a) communicates with pin 16 or VSS of the controller card (25e). The function of the switch (5a) is to activate the LED lights (20) intermittently.
(52) Pin 3 communicates with pin 14, pin 6 and pin 11, where said pins communicate with one of the switch's poles (25b) of the panel (25) and the other pole of said switch (25b) is connected to pin 16 or VSS of the controller card (25e). The function of said switch (25b) of the panel (25) is to activate or deactivate one of the colors of the LED lamp (14).
(53) Pin 4 communicates with pin 13, pin 7 and pin 10, where said pins communicate with one of the switch's poles (25c) of the panel (25) and the other pole of said switch (25c) is connected to pin 16 or VSS of the controller card (25e). The function of said switch (25c) of the panel (25) is to activate or deactivate one of the colors of the LED lamp (14).
(54) Pin 5 communicates with pin 12, pin 8 and pin 9, where said pins communicate with one of the switch poles (25d) of the panel (25) and the other pole of said switch (25d) is connected to pin 16 or VSS of the controller card (25e). The function of said switch (25d) of the panel (25) is to activate or deactivate one of the colors of the LED lamp (14).
(55) Pin 16 or VSS communicates with the negative pole of the battery (25). Said battery (25) has a battery indicator (2a), which is shown in FIG. 23, which serves to measure the amount of charge that said battery has (25).
(56) The controller card (25e) is held in the inner part of the main support (2) in such a way that it cannot be moved. Said controller card (25e) being in the internal part of the support (2), is also protected.
(57) FIG. 19 shows a schematic diagram of a servo motor (7a) where said diagram is described in such a way that: The positive of the servo motor (7a) communicates by means of wires with one of the contacts of the switch (26) and the contact 2 of the potentiometer (7c) and the positive of the battery (29). The pulse of the servo motor (7a) communicates by means of cables with the PWM signal D1 of the controller card (7b). The negative of the servo motor (7a) communicates by means of cables, with the negative of the battery (29), with the PWM signal D3 of the controller card 7b, the GND of said controller card (7a), the contact 1 of the potentiometer, one of the contacts of the resistor R1, and of the other contact of said resistance R1 is held by a cable that communicates to the other contact of the switch (26). Between the connection of the GND and the negative of the battery (29) a capacitor (C1) is connected in parallel. As one of the main advantages is known when connecting capacitors in parallel is that the total capacity value is increased.
(58) The contact 3 of the potentiometer 7c is connected to the analog input A1 of the controller card 7b.
(59) The servo motor (7a) works in such a way that:
(60) When you press the switch (26), the capacitor (C1) has an accumulated energy that allows said energy to be released, giving it sufficient capacity to send a signal from the PWM D2 of the controller card (7b) to the pulse of the servo motor, allowing turn the pinion (7) of said motor servo (7a) at a 180° degree angle, in this process the capacitor (C1) is discharged, but recharged, and when the switch (26) is pressed again, said pinion (7) returns to its initial state. The voltage difference that is emitted in the circuit is regulated with the resistance R1 in such a way that said resistance R1 protects the elements connected to it.
(61) The potentiometer is used to regulate and control the speed of the pinion (7) of the servo motor (7a). If we set the potentiometer (7c) to 0 resistance, the potentiometer 7c sends a signal through the analog input A1 to the motor servo (7a) causing the voltage of said motor servo (7a) to be the maximum you may have and the speed of the pinion (7) will be faster. If we increase the resistance of the potentiometer, said potentiometer sends a signal through the analog input A1 to the servo motor (7a) causing less voltage, and the speed of the pinion (7) will be slower. In this way we control the speed of the pinion (7).
(62) The motor servo (7a) is held in the inner part of the main support (2) so that it cannot be moved and is also protected. The only part that protrudes outside is the pinion (7) from which the rotating base (10) will be held. Said motor servo (7a) would preferably be constructed of materials resistant to extreme temperatures, it would also be completely sealed to avoid any contact with any liquid.
(63) The controller card (7b) is held in the inner part of the main support (2) in such a way that it cannot be moved. Said controller card (7b), being inside the support (2), is also protected.
(64) FIG. 20 shows a schematic diagram of a MINI DVR controller card 23b, which has a video camera (23), a microphone (39), a connector with a micro SD card input (32), a monitor that It can be LCD or LED (8) where said monitor (8) has a panel with several buttons that work as follows: The switch (8a), when pressed, sends a signal to the MINI DVR controller card 23b giving it an order to create a capture of the area that the camera is focusing on (23), and at the same time that area capture instantly stores it in the micro SD. The switch (8b) when pressed, sends a signal to the MINI DVR controller card 23b giving an order to activate the camera (23) in recording mode, allowing to record the area that said camera is focusing (23) and said recording is Instantly stores in the micro SD. Pressing the switch (8b) again deactivates the recording mode. Also said monitor (8) has a horn (8c) to be able to listen to the recording of what was stored in the micro SD.
(65) The MINI DVR controller card 23b is connected from the battery (29) and said battery (29) supplies the power of said MINI DVR controller card 23b in conjunction with the camera (23), microphone (39), power connector the input of the micro SD (32) and monitor (8).
(66) The MINI DVR controller card 23b also has a switch (6) that allows the MINI DVR controller card 23b to be switched off and on, so that when the switch (6) is turned off, it deactivates all components connected to the MINI DVR controller card 23b and if you put the switch on, it activates all the components connected to said MINI DVR controller card 23b.
(67) The invention described in this way, it will be obvious that it can be developed in different ways. Such variations should not be considered as a deviation from the spirit and scope of the invention, and all are intended to be included within the scope of the following non-limiting claims.
