Electromechanical machine with wireless control for sexual activity

Abstract

A machine that combines three sections bound to each other by the corresponding dynamic swivels that are driven from a remote control of adjustment and command (R). The first section constitutes the main body (A) wherein a fixed frame whereby a sliding carriage (D) is defined, which is arranged associated with a first motor reducer (M1) which drives its rectilinear movement, in the horizontal plane and in both senses; said sliding carriage (D), by one end, is bound to an intermediate arm (B), which makes up the second section of the machine, being arranged over a pivoting transverse axis that is into a first dynamic swivel, which is arranged associated to a second driving motor reducer (M2) so that said intermediate arm (B) may make a pivoting movement in the vertical plane, with circular direction in both senses; said intermediate arm (B), by its other end, is bound to a head of the massage actuator (C), that makes up the third section of the machine, being arranged over a transverse axis that forms a second dynamic swivel, which is arranged associated to a third driving motor reducer (M3) so that said head of massage actuator may make a pivoting movement in the vertical plane, with circular direction in both senses; an actuator piston (P) is arranged into the head of the massage actuator (C) which transforms the rotating movement that transmits the output axis of a fourth motor reducer into an alternative linear movement that is transmitted to the piston for massage (23); constituting the four motor reducers an electronic driving installation by remote control, through which the positioning of each of the mobile parts duly bound to the rotating coders and end-of-travel positions is commanded. The electronic driving installation is comprised of the electronic controlling plate (E) installed in the main body (A) and includes a remote control processor (MP2) that receives the order, processes the information and sends it through the FR antenna (a4) of the remote control (R), to the FR antenna (a1) of the electronic system (E) installed into the machine, that communicates the information to its processor (MP1). The electronic installation of remote control includes the option of saving, through memories, the previous adjustment that the user establishes in each case.

Claims

1. An ELECTROMECHANICAL MACHINE WITH WIRELESS CONTROL FOR SEXUAL ACTIVITY, that combines three sections bound to each other by the corresponding dynamic swivels that are driven from a remote control of adjustment and command, characterized in that the first section constitutes the main body wherein a fixed frame whereby a sliding carriage is defined, which is arranged associated with a first motor reducer which drives its rectilinear movement, in the horizontal plane and in both senses; said sliding carriage, by one end, is bound to an intermediate arm, which makes up the second section of the machine, being arranged over a pivoting transverse axis that is into a first dynamic swivel, which is arranged associated to a second driving motor reducer so that said intermediate arm may make a pivoting movement in the vertical plane, with circular direction in both senses; said intermediate arm, by its other end, is bound to a head of the massage actuator, that makes up the third section of the machine, being arranged over a transverse axis that forms a second dynamic swivel, which is arranged associated to a third driving motor reducer so that said head of massage actuator may make a pivoting movement in the vertical plane, with circular direction in both senses; an actuator piston is arranged into the head of the massage actuator which transforms the rotating movement that transmits the output axis of a fourth motor reducer into an alternative linear movement that is transmitted to the piston for massage; constituting the four motor reducers an electronic driving installation by remote control, through which the positioning of each of the mobile parts duly bound to the rotating coders and end-of-travel positions is commanded.

2. The ELECTROMECHANICAL MACHINE WITH WIRELESS CONTROL FOR SEXUAL ACTIVITY, in accordance with what is claimed in claim 1, characterized in that the first motor reducer has its output axis coupled to a worm over which a nut associated with the sliding carriage is run, which is arranged supported by longitudinal movement guides defined in the fixed frame that is defined in the main body.

3. The ELECTROMECHANICAL MACHINE WITH WIRELESS CONTROL FOR SEXUAL ACTIVITY, in accordance with what is claimed in claim 1, characterized in that the second motor reducer, has an output axis with a gears train and a corresponding assembly of crown and worm, through which the rotating movement is transmitted to the pivoting axis of the intermediate arm.

4. The ELECTROMECHANICAL MACHINE WITH WIRELESS CONTROL FOR SEXUAL ACTIVITY, in accordance with what is claimed in claim 1, characterized in that the third motor reducer, has an output axis with a gears train that transmits the movement to a corresponding assembly of crown and worm that transfers the rotating movement to the pivoting axis of the head of massage actuator.

5. The ELECTROMECHANICAL MACHINE WITH WIRELESS CONTROL FOR SEXUAL ACTIVITY, in accordance with what is claimed in claim 1, characterized in that the output axis of a fourth motor reducer is associated to a hollow axis which cylindrical surface is affected by a longitudinal groove that follows a curved line such as a continuous sinusoidal propeller over which a sliding skid is associated with the cylindrical and enlarged body of the piston for massage, and provides the swinging linear movement.

6. The ELECTROMECHANICAL MACHINE WITH WIRELESS CONTROL FOR SEXUAL ACTIVITY, in accordance with what is claimed in claim 1, characterized in that the run of the massage piston, in its swinging movement, is made from a cylindrical jacket that sets the external face of the piston for massage.

7. The ELECTROMECHANICAL MACHINE WITH WIRELESS CONTROL FOR SEXUAL ACTIVITY, in accordance with what is claimed in claim 1, characterized in that the electronic driving installation is comprised of an electronic controlling plate (E) installed in the main body (A) and includes a remote control processor (MP.sub.2) that receives the order, processes the information and sends it through the FR antenna (a4) of the remote control (R), to the FR antenna (a1) of the electronic system (E) installed into the machine, that communicates the information to its processor (MP.sub.1).

8. The ELECTROMECHANICAL MACHINE WITH WIRELESS CONTROL FOR SEXUAL ACTIVITY, in accordance with what is claimed in claim 1, characterized in that the electronic installation of remote control includes the option of saving, through memories, the previous adjustment that the user establishes in each case.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) In order to specify the advantages merely mentioned, to which the users and those skilled in the art may add many others more, and to facilitate the understanding of the structural, constitutive and functional characteristics of the electromechanical invention machine, it is below described a preferred example of the embodiment, which is schematically illustrated and without a determined scale, in the attached sheets, with the expressed explanation that just for being an example, no any limited or exclusive character of the protection scope of the present invention may be assigned thereto.

(2) FIG. 1 is a perspective view that shows the machine for sexual activity of the invention with a flat embedded platform.

(3) FIG. 2 is also a perspective view that shows the same machine of the prior figure, in this case separated from the support platform thereof.

(4) FIG. 3 is also a perspective view that, in this case, represents the same machine of the previous figures in an operative positioning.

(5) FIG. 4 is also a perspective view that, in this case, represents the same machine of the previous figures in another operative positioning.

(6) FIG. 5 is also a perspective view that, in this case, represents the same machine of the previous figures in another operative positioning.

(7) FIG. 6 is also a perspective view of the same machine of the previous figures, without the lock shells, thus being possible to see the combination of basic elements into it.

(8) FIG. 7 is a perspective view that globally represents and without an end shell two of the sections comprising thereof.

(9) FIG. 8 is an enlarged detail of a portion of the invention machine, under reference (VIII) in FIG. 7.

(10) FIG. 9 is a perspective view that globally represents and without a shell of termination, the three sections comprising thereof.

(11) FIG. 10 is an enlarged detail of a portion of the invention machine, under reference (X) in FIG. 9.

(12) FIG. 11 is an exploded perspective view where it can be seen those basic elements that take part to form the head of the massage actuator that is included in the electromechanical machine of this invention.

(13) FIG. 12 is a perspective view that shows the piston incorporated into the head of the massage actuator of the invention machine.

(14) FIG. 13 is a cross-sectional schematic view that shows the same head of the massage actuator of the previous figures.

(15) FIG. 14 is a chart that shows how the controlling plate that makes up the electronic driving installation of the invention machine is comprised of

(16) FIG. 15 is a chart that represents the anterior face of the electronic device that forms the remote control that uses the electronic driving installation of the invention machine.

(17) FIG. 16 is a chart that represents the electronic controlling plate of the same remote control that uses the electronic driving installation of the invention machine.

(18) FIG. 17 is a chart that represents the back face of the electronic device that forms the remote control that uses the electronic driving installation of the invention machine.

(19) It is clarified that, in all figures, equal reference numbers and letters correspond to the same or equivalent parts or elements that make up the assembly, in accordance with the example chosen for this explanation of the electromechanical machine of the invention.

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT

(20) As it can be seen in FIGS. 1 to 5, the electromechanical machine with wireless control for sexual activity referred to in the present invention, is comprised of three sections, as follow: main body identified by the global reference (A), an intermediate arm identified by the global reference (B), a head of the massage actuator identified by the global reference (C)

(21) The main body (A) is comprised of a lower flat base (1) that is a support of the whole assembly, being arranged covered by a top lock shell (2).

(22) In order to guarantee stability during use, this lower flat base (1) is coupled to a flat platform (3) of lower support, that, so as to be kept and transported, may be folding from a straight line of central folding (4).

(23) By specifically looking at FIG. 2, we may appreciate that this platform (3), passing a transverse step, defines a surface (5) specially designed so that the main body (A) may be stood thereon, with the possibility of incorporating fixing means (portions of velcro or magnetic plates) acting as a fast coupling means.

(24) Under the conditions exposed and now looking at FIGS. 3, 4 and 5, it is appreciated that the electromechanical machine of the invention, in order to be used for sexual activity, may adopt very variable operative positions, for which various movements of previous positions are combined, as follow: Movement in the horizontal plane, for which the mentioned main body (A) has a sliding carriage (D) assembled under a sliding condition in straight direction and in both senses. First angular movement, for which the intermediate arm (B), pivoting in an end of the sliding carriage (D), is assembled into a first dynamic swivel that provides a circular movement, in both senses, in a vertical plane. Furthermore, the head of the massage actuator (C) makes a second angular movement, by pivoting in the superior end of the intermediate arm (B) and is assembled into a second dynamic swivel that provides a circular movement, in both senses, in the vertical plane.

(25) Now looking at FIG. 6, it is appreciated that the main body (A) presents a fixed frame (6) over which the sliding carriage (D) is assembled running over the side straight guides (7) and (8), that are defined in the internal faces of the longitudinal partitions of the frame.

(26) It is also appreciated that over the same fixed frame (6) the first motor reducer (M.sub.1) is assembled, which output axis is extended up to get coupled to the thread worm axis (9), with the corresponding hubs put in between (10).

(27) It can be seen that over said thread worm axis (9) a nut (11) is arranged that makes up the body of said sliding carriage (C) in such a way that with said motor (M1) it is possible to drive the straight movements of the carriage (C) in both senses.

(28) In order to guarantee that these movements do not cause undesirable related movements, in preferred embodiments, the carriage support over the long guides (7) and (8) of the frame (6) will be made by using the superior and lower edges of each guide, and using a dovetail type assembly as in this way all the side movements such as the headbanging are counteracted.

(29) In this FIG. 6 it is appreciated that the main body (A) also houses the electronic elements (E) that command all the motors and sensors and from where the communication is generated to the external devices, such as the remote wireless command (R) (visible in FIGS. 14 to 17).

(30) Now looking at FIGS. 6, 7 and 8 it is possible to appreciate how the assembly and the operation of the mentioned intermediate arm (B) is made, that sets the second section of the machine for sexual activity of the invention.

(31) It is appreciated that the lower end of the mentioned intermediate arm (B) is assembled into an and of the sliding carriage (D) by way of a pair of transverse pivoting axis, of which, that represented by reference (12) is associated with a mechanism of crown and worm (13) where the worm is extended to be coupled to the gears (14) bound to the output axis of the second motor reducer (M.sub.2).

(32) It is clear that, through this motor reducer (M.sub.2) it is possible to drive the angular movements, in the vertical plane with circular direction and also in both senses, of the referred intermediate arm (B) and therefore to establish the second adjustment of the previous positioning.

(33) Now by looking at FIGS. 6, 9 and 10 it may be understood that the same intermediate arm (B), at its superior end, is bound to the third section (C) of the electromechanical machine of the invention, through a second dynamic swivel.

(34) It can be seen that said arm (B) includes a third motor reducer (M.sub.3) which output axis is coupled to the gears (15) that transmit the movement of the axis (16) extending up to the crown/worm system (17) associated to the pivoting axis (18) where the head of the massage actuator (C) is assembled.

(35) It is appreciated that, through this motor reducer (M3) it is possible to drive the angular movements, in the vertical plane with circular direction and also in both senses, of the referred head of the massage actuator (C) and therefore to establish the second adjustment of the previous positioning.

(36) It is specially emphasized the great advantage that the invention machine presents due to the fact that by driving the referred motors reducers (M.sub.1), (M.sub.2) and (M.sub.3), it is possible to establish different operative positions that are individually chosen by each user in a precise, simple and direct way.

(37) Now looking at FIGS. 6, 11, 12 and 13, it is appreciated how the third section that makes up the invention machine is formed and it is called the head of the massage actuator (C).

(38) The mechanical assembly named piston (P) is located into the head, its function is to transform the rotating movement of the output axis of the motor reducer (M.sub.4), into a linear alternative movement.

(39) So, the output axis of said motor reducer M.sub.4) is associated with a hollow axis (19) which cylindrical surface is affected by a longitudinal groove (20) that follows a curved line such as a continuous sinusoidal propeller (worm).

(40) Above said helical groove (20), a sliding skid (21) runs, conveniently assembled over bearings (22), which is associated with the cylindrical and enlarged body of the massage piston (23), and provides the traditional swinging linear movement.

(41) Under the conditions mentioned, said piston for massage (23) held by the cylindrical jacket (24), will have a linear movement through which the piston body is projected outward, forward and backward.

(42) Now looking at the charts represented by FIGS. 14 to 17, it is possible to appreciate how the electronic installation of command and drive, being used by the invention machine, is made up, as a part of the combination of means that are a part thereof.

(43) It may be seen that the electronic controlling plate (E) installed in the main body (A) is holding a remote control processor (MP.sub.2) that receives the order, processes the information and sends it through the FR antenna (a4) of the remote control (R), to the FR antenna (a1) of the electronic system (E) installed into the machine, that communicates the information to the processor (MP.sub.1).

(44) Said processor (MP.sub.1) checks the status of the sensors (e1), (e2) y (sw1), (sw2, (sw3), (sw4), (sw5), (sw6), (sw7) and (sw9). If said processor detects that the position of all the mobile parts are in their place, it deploys the machine, by way of the power controls command (CP1), (CP2), (CP3 and (CP4) and activates the operation of the motor reducers (M.sub.1), (M.sub.2) and (M.sub.3) by arranging all its mobiles parts to the “on” position to be commanded from the same remote control (R) (visible in FIG. 15).

(45) Once the “on” position is determined, each time the key in the remote control (R) in the sections: carriage (D), intermediate arm (B) and head of massage actuator (C) is pressed the procedure that modifies the position of the mobile parts is repeated and the position of each part at each time is registered again.

(46) The motor reducer (M.sub.4) will not be activated until the keys located in the section piston (P) are pressed. When these keys are pressed, the previously described mechanism of the piston (P) will start moving, thus activating the swinging rectilinear movement of the massage piston (23) that is activated therewith.

(47) While the referred motor reducer (M.sub.4) is active, any pressure over the keys of the sections (D) carriage, (B) arm and (C) head, will be null as it may cause damage to the user. Only after pressing the key represented by reference (X) in the section piston (P) and once said piston working is stopped, the machine will be able to freely move the carriage (D), the arm (B) and the head of the massage actuator (C) in order to command new positionings.

(48) By looking at FIGS. 15 and 16, it is possible to understand that buttons (1) to (12) of the section memories (M) of the remote control are only used when the machine is “on” and the piston (P) is stopped.

(49) These keys have a double functioning:

(50) a) when pressure is applied during a time less than five seconds, and

(51) b) when the same pressure is applied during more than five seconds.

(52) Pressure of any key of the section memories (M) during less than five seconds will cause the mobile parts respectively bound to each other to move to the position saved for this key.

(53) Pressure applied for more than five seconds will save the position of each of the mobile parts respectively bound to each other at that time to be called afterwards.

(54) Once the electronic installation of command and drive is so formed, when the machine is on by pressing the key (TE) of the remote control (R), then the installation is ready for the user to position the parts carriage (D), arm (B) and actuator head (C) by using the respective keys (visible in FIG. 15).

(55) In this way, the user calibrates the position of the referred sections thereof to be arranged in the desired position (as it is shown in FIGS. 3, 4 and 5).

(56) Immediately after the user shall press, during more than five seconds, the key of the section memories (M) with the number (1), in which case the established order is saved. Let's call this moment “instant 1”.

(57) Subsequently, it will be possible to move each one of the mobile parts to the other positions by using the keys of the sections carriage (D), arm (B) and actuator head (C), also to deactivate the machine, to withdraw the energy accumulator and keep it in its box.

(58) If at any time when the machine is used again, decision is made to position the machine as it was positioned in the “instant 1”, by pressing the key (1) during less than five seconds the machine will automatically modify the position of all its parts to accommodate to the position in which it was at the time the memory (1) was saved.

(59) The other keys of the section memories (M) work in the same way.

(60) In this preferred example of embodiment, it is presented the case wherein the machine is set with twelve previously saved positions that may be modified by the user with the prior procedure. Only the combination of the keys (1) and (12) during more than ten seconds will delete the memories programmed by the user and will return to the default values.