CN118016466A - Wireless kinetic energy switch and control method - Google Patents

Abstract

The invention discloses a wireless kinetic energy switch and a control method, wherein the switch comprises a switch seat and at least one key board, the key board is arranged on the switch seat, a wireless main control board, a transmission mechanism and an elastic return mechanism are arranged in the switch seat, and a power generation module is integrated on the wireless main control board; the transmission mechanism is respectively connected with the key board and the swinging piece of the power generation module; the elastic return mechanism is connected with the transmission mechanism in an adapting way and is used for driving the transmission mechanism to return; when the key board is pressed, the key board drives the transmission mechanism to overcome the elastic acting force of the elastic return mechanism, move towards the opposite direction of the elastic acting force and drive the swinging piece to move, so that the wireless main control board works. The invention adopts a wireless self-discharging mode to realize the wireless control of the opening and closing of the external equipment, can improve the use experience of a user and reduce the use cost of the user, and has simple structure and environmental protection.

Description

Wireless kinetic energy switch and control method

Technical Field

The invention relates to the technical field of switches, in particular to a wireless kinetic energy switch and a control method.

Background

With the development of intelligent technology, a wireless remote control switch is generally used in the indoor to wirelessly control the on/off of external devices (such as lamps). The wireless remote control switch is generally fixedly installed on a wall, and a battery is built in the wireless remote control switch to serve as a power supply. However, under long-term use, the wireless remote control switch needs to be frequently detached to replace the battery, so that the disassembly and the assembly are complicated, the use experience of a user is reduced, the use cost of the user is increased, and the abandoned battery can pollute the environment.

In contrast, a part of piezoelectric wireless remote control switches are currently on the market, which adopt up-and-down reciprocating pressing to generate electricity, but have complex structure, short service life, poor reliability and high price.

The wireless remote control switch also has appeared in the market and adopts the self-generating module based on electromagnetic induction principle, and generating module is including the swinging member with shift knob linkage, is equipped with magnet or coil winding on the swinging member, can utilize the action when shift knob presses to drive the swinging member and remove (cutting magnetism induction line motion promptly), makes the current produced in the coil winding to make wireless main control board power on work and send wireless control signal. However, although the reliability of the wireless remote control switch is relatively high, the internal structure of the wireless remote control switch is complex, and the wireless remote control switch is not provided with a waterproof structure, so that the internal main control board can be waded, the normal use of the wireless remote control switch is influenced, even electronic devices are damaged, and the maintenance cost is increased. In addition, the wireless remote control switch has a single function.

Disclosure of Invention

The invention aims to solve the technical problems of providing the wireless kinetic energy switch and the control method, which adopt a wireless self-discharging mode to realize the wireless control of the opening and closing of external equipment, can improve the use experience of a user and reduce the use cost of the user, and has the advantages of simple structure and environmental protection.

In order to solve the technical problems, the invention provides a wireless kinetic energy switch, which comprises a switch seat and at least one key board, wherein the key board is arranged on the switch seat, a wireless main control board, a transmission mechanism and an elastic return mechanism are arranged in the switch seat, and a power generation module is integrated on the wireless main control board; the transmission mechanism is respectively connected with the key board and the swinging piece of the power generation module; the elastic return mechanism is connected with the transmission mechanism in an adapting way and is used for driving the transmission mechanism to return; when the key board is pressed, the key board drives the transmission mechanism to overcome the elastic acting force of the elastic return mechanism, move towards the opposite direction of the elastic acting force and drive the swinging piece to move, so that the wireless main control board works.

As an improvement of the scheme, a silica gel pad is further arranged in the switch seat, and the silica gel pad covers the wireless main control board, the transmission mechanism and the elastic return mechanism and is in sealing connection with the inner wall of the switch seat.

As an improvement of the scheme, the switch seat upper cover is provided with a fixed mounting seat, one end of the key board is rotationally connected with the fixed mounting seat, and the other end of the key board is movably connected with the fixed mounting seat and presses the transmission mechanism through the silica gel pad.

As an improvement of the scheme, at least two key boards are arranged on the switch base, the wireless main control board is provided with the tact switches which are in one-to-one correspondence with the key boards, and the tact switches and the transmission mechanism are staggered; the silica gel pad is provided with convex parts corresponding to the tact switches one by one, the convex parts cover the tact switches, and the convex parts penetrate through the through holes of the fixed mounting base and are abutted to the key board.

As an improvement of the scheme, a switch key rib is arranged on the back surface of the key board, and the switch key rib penetrates through the pressing hole of the fixed mounting seat to be abutted against the silica gel pad.

As an improvement of the scheme, the inner wall of one end of the key board is provided with a positioning rib and a buckling part, and the inner wall of the other end of the key board is provided with mounting and fixing holes at intervals; one end of the fixed mounting seat is provided with a positioning clamping groove corresponding to the positioning rib and a buckling part corresponding to the buckling part, the positioning rib is clamped into the positioning clamping groove, the buckling part is in clamping connection with the buckling part, and the buckling part can move back and forth in the movable space of the buckling part; the other end of the fixed mounting seat is provided with a fixed column corresponding to the mounting fixing hole, and the fixed column is connected with the mounting fixing hole in an adaptive manner.

As an improvement of the scheme, the transmission mechanism comprises a pressing transmission plate, one end of the pressing transmission plate is provided with a connecting piece, a clamping groove is arranged in the connecting piece, and the clamping groove is in clamping connection with one end of the swinging piece; the other end of the pressing transmission plate is provided with a pressing part, and the pressing part is abutted with an elastic return mechanism positioned below the pressing part.

As an improvement of the scheme, the elastic return mechanism comprises a fixed seat and a return spring, the fixed seat is arranged at the bottom of the switch seat, the upper part of the fixed seat passes through a through hole on the wireless main control board and is exposed out of the upper surface of the wireless main control board, and the two ends of the fixed seat are respectively provided with a spring fixing part; and two ends of the return spring are respectively connected with the corresponding spring fixing parts, and a spring action part of the return spring is abutted with the pressing part.

As an improvement of the scheme, at least one luminous strip is embedded in the key board.

The invention also provides a control method of the wireless kinetic energy switch, which is applied to the wireless kinetic energy switch, and comprises the following steps: when the key board is arranged as one, the key board is pressed, and the key board drives the pressing transmission board in the transmission mechanism to overcome the elastic acting force of the elastic return mechanism to move in the opposite direction of the elastic acting force by pressing the silica gel pad; when the pressing transmission plate moves, the connecting piece on the pressing moving plate drives the swinging piece of the power generation module to move, and the power generation module supplies power for the wireless main control board; the wireless main control board directly sends out a wireless control signal to control the external equipment to work;

Or when the number of the key plates is at least two, at least one key plate is pressed, the key plate drives the pressing transmission plate to move in the opposite direction of the elastic acting force against the elastic acting force of the elastic return mechanism by pressing the silica gel pad, and the corresponding tact switch is pressed by pressing the convex part on the silica gel pad; when the pressing transmission plate moves, the connecting piece on the pressing moving plate drives the swinging piece of the power generation module to move, the power generation module supplies power for the wireless main control board, and meanwhile, the corresponding tact switch is pressed and triggered; the wireless main control board sends out corresponding wireless control signals according to the trigger signals of the light touch switch so as to control corresponding external equipment to work.

The implementation of the invention has the following beneficial effects:

The invention adopts a wireless self-discharging mode to realize the wireless control of the opening and closing of the external equipment, and the battery is not required to be replaced frequently as in the conventional wireless remote control switch, so that the disassembly and installation frequency is greatly reduced, the use experience of a user is improved, the use cost of the user is reduced, and the invention is environment-friendly.

And secondly, the invention has simple integral structure, and the arranged silica gel pad can play a waterproof role on an internal electronic device, so that the device is prevented from being damaged due to water inflow or wading in the internal part, and the safe work of the electronic device is ensured. Through setting up a plurality of button control structures, can control the work to a plurality of external equipment, improve the functional diversity.

In addition, can play illumination display function under the darker environment of light through the night light strip that sets up to user control uses, improves user's use experience and feels.

Drawings

FIG. 1 is a schematic diagram of a first embodiment of a wireless kinetic energy switch of the present invention;

FIG. 2 is a schematic diagram of an exploded construction of the wireless kinetic energy switch of the present invention;

FIG. 3 is a schematic diagram of the wireless master control board, the transmission mechanism and the elastic return mechanism of the present invention;

FIG. 4 is an enlarged schematic view of the portion A of FIG. 3;

FIG. 5 is a schematic view of the structure of the fixing mount of the present invention;

FIG. 6 is a schematic view of the structure of the key sheet of the present invention;

FIG. 7 is a schematic diagram of a second embodiment of a wireless kinetic energy switch of the present invention;

FIG. 8 is an exploded view of the wireless kinetic energy switch of FIG. 7;

FIG. 9 is a schematic diagram of the wireless master control board, transmission mechanism and elastic return mechanism of FIG. 7;

FIG. 10 is a schematic view of the key sheet of FIG. 7;

FIG. 11 is a schematic diagram of a third embodiment of a wireless kinetic energy switch of the present invention;

FIG. 12 is an exploded view of the wireless kinetic energy switch of FIG. 11;

FIG. 13 is an exploded view of the key pad of FIG. 11;

FIG. 14 is a flow chart of the switch control when the wireless kinetic energy switch of the present invention includes a keypad;

Fig. 15 is a flow chart of the switch control when the wireless kinetic energy switch of the present invention includes at least two key pads.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present invention more apparent. It is only stated that the terms of orientation such as up, down, left, right, front, back, inner, outer, etc. used in this document or the imminent present invention, are used only with reference to the drawings of the present invention, and are not meant to be limiting in any way.

As shown in fig. 1 to 3, fig. 1 to 3 show a schematic structural diagram of a first embodiment of a wireless kinetic energy switch of the present invention, which comprises a switch base 1 and a key board 2, wherein the key board 2 is installed on the switch base 1, a wireless main control board 3, a transmission mechanism 4 and an elastic return mechanism 5 are arranged in the switch base 1, and a power generation module 6 is integrated on the wireless main control board 3; the transmission mechanism 4 is respectively connected with the key board 2 and the swinging piece 61 of the power generation module 6; the elastic return mechanism 5 is connected with the transmission mechanism 4 in an adaptive manner and is used for driving the transmission mechanism 4 to return.

When the key board 2 is pressed, the key board 2 drives the transmission mechanism 4 to overcome the elastic acting force of the elastic return mechanism 5 and move downwards, and drives the swinging piece 61 to move, so that the power generation module 6 generates current by performing cutting magnetic induction line movement, and power is supplied to the wireless main control board 3. When the wireless main control board 3 is powered on to work, the wireless main control board 3 sends out a wireless control signal to control corresponding external equipment (such as a lamp) to work. When the key board 2 is not pressed, the transmission mechanism 4 can be driven to return to the initial state position through the elastic return mechanism 5; in the process of returning, the transmission mechanism 4 drives the swinging piece 61 to move so that the power generation module 6 continues to supply power to the wireless main control board 3, and the stability and reliability of wireless control work are ensured.

According to the invention, the wireless self-discharging mode is adopted to realize the wireless control of the opening and closing of the external equipment, so that the battery does not need to be replaced frequently as in the conventional wireless remote control switch, the disassembly and installation frequency is greatly reduced, the use experience of a user is improved, the use cost of the user is reduced, and the environment is protected.

It should be noted that, the wireless main control board 3 integrated with the power generation module 6 is in the prior art, and the structure and the working principle thereof will not be described here in detail.

Specifically, the transmission mechanism 4 includes a pressing transmission plate 41, one end of the pressing transmission plate 41 is provided with a connecting piece 42, a clamping groove 43 is provided in the connecting piece 42, and the clamping groove 43 is in clamping connection with one end of the swinging piece 61, so as to achieve a linkage effect; the other end of the pressing transmission plate 41 is provided with a pressing part 44, and the pressing part 44 is abutted against the elastic return mechanism 5 positioned below the pressing part. When the key board 2 is actually pressed, the pressing part 44 of the pressing transmission board 41 is driven by the key board 2 to press the elastic return mechanism 5 so as to overcome the elastic acting force of the elastic return mechanism 5, so that the elastic return mechanism 5 moves downwards and drives the swinging piece 61 to move through the connecting piece 42, and the power generation work of the power generation module 6 is realized, so that the wireless main control board 3 performs wireless control work.

Preferably, the pressing transmission plate 41 has a hollow structure, the pressing transmission plate 41 is sleeved on the power generation module 6, and the power generation module 6 can pass through the hollow structure of the pressing transmission plate 41 so as to reduce the occupied space of the pressing transmission plate 41. As shown in fig. 2 to 4, two ends of the pressing transmission plate 41 are provided with a limiting portion 45, and the limiting portion 45 is adapted to be connected with the limiting slot portion 11 in the switch seat 1, so as to limit the pressing transmission plate 41.

The elastic return mechanism 5 comprises a fixed seat 51 and a return spring 52, the fixed seat 51 is mounted at the bottom of the switch seat 1, the upper portion of the fixed seat 51 penetrates through the through hole in the wireless main control board 3 and is exposed out of the upper surface of the wireless main control board 3, and the fixed seat 51 is close to one end, far away from the swinging piece 61, of the power generation module 6. The fixing seat 51 also penetrates through the hollow structure of the pressing transmission plate 41.

Spring fixing parts 511 are respectively arranged at two ends of the fixing seat 51; both ends of the return spring 52 are respectively nested in the corresponding spring fixing portions 511, and the spring acting portion 521 of the return spring 52 abuts against the pressing portion 44. When the key sheet 2 is pressed, the pressing portion 44 of the pressing transmission plate 41 is driven to move downwards, so that the spring action portion 521 is pressed to move downwards by overcoming the action force of the spring, and the connecting piece 42 drives the swinging piece 61 to move, so that the discharging operation of the power generation module 6 and the wireless control operation of the wireless main control board 3 are realized. When the pressing force is removed, the spring action portion 521 drives the pressing transmission plate 41 to return under the action of the elastic property.

In order to improve the waterproof performance of the switch, the safety work of electronic devices such as the wireless main control board 3, the power generation module 6 and the like is guaranteed. As shown in fig. 2, the switch seat 1 is further internally provided with a silica gel pad 7, and the silica gel pad 7 covers the wireless main control board 3, the transmission mechanism 4 and the elastic return mechanism 5 and is in sealing connection with the inner wall of the switch seat 1. Through adopting totally enclosed waterproof construction in order to realize the omnidirectional waterproof to the electronic device in it, improve the waterproof performance of switch, effectively avoid moisture to enter into inside electronic device department through the gap between keypad 2 and the switch seat 1, guarantee the safe work of electronic devices such as wireless main control board 3 and power generation module 6, reduce maintenance cost.

Wherein, the appearance of silica gel pad 7 and the whole mounting structure appearance looks adaptation of wireless main control board 3, drive mechanism 4 and the elasticity return mechanism 5 of installing on switch seat 1 to better sealed cover wireless main control board 3, drive mechanism 4 and elasticity return mechanism 5 and reduce occupation space.

Preferably, as shown in fig. 2 and fig. 5 to 6, the upper cover of the switch seat 1 is provided with a fixed mounting seat 8, one end of the key board 2 is rotatably connected with the fixed mounting seat 8, and the other end of the key board 2 is movably connected with the fixed mounting seat 8 and presses the transmission mechanism 4 through the silica gel pad 7. When the key board 2 is pressed, the moving end of the key board 2 can move relative to the fixed mounting seat 8, so that the pressing transmission board 41 is driven to move downwards by the pressing silica gel pad 7, and power generation and wireless control work are realized. The inner structure is protected by the fixed mounting seat 8. The fixed mounting seat 8 and the switch seat 1 can be connected through a screw fixed mounting mode or a buckle fixed mode.

The back of the key board 2 is provided with a switch key rib 21, and the switch key rib passes through a pressing hole 81 of the fixed mounting seat 8 to be abutted against the silica gel pad 7. When the key sheet 2 is pressed, the pressing portion 44 of the pressing transmission plate 41 is driven to move downward by the switch key rib 21.

In order to achieve the connection between the key sheet 2 and the fixed mount 8. As shown in fig. 5 to 6, the inner wall of one end of the key board 2 is provided with a positioning rib 22 and a buckling part 23, and the inner wall of the other end of the key board 2 is provided with mounting and fixing holes 24 at intervals; one end of the fixed mounting seat 8 is provided with a positioning clamping groove 82 corresponding to the positioning rib 22 and a buckling part 83 corresponding to the buckling part 23, and the positioning rib 22 is clamped into the positioning clamping groove 82 to position the key board 2. The buckling part 23 is connected with the buckling part 83 in a clamping way, the buckling part 23 is positioned in the movable space of the buckling part 83, and the buckling part 23 can move back and forth in the movable space of the buckling part 83, so that the downward pressing and return functions of the moving end of the key board 2 are realized. The other end of the fixed mounting seat 8 is provided with a fixed column 84 corresponding to the mounting fixing hole 24, and the fixed column 84 is connected with the mounting fixing hole 24 in an adapting manner, so that the fixed end of the key board 2 is rotationally connected with the fixed mounting seat 8, and the key board 2 can be conveniently moved.

Preferably, as shown in fig. 1, at least one luminous strip 25 is embedded on the key board 2. Wherein, the key board 2 is provided with an installation groove 26, and the luminous strip 25 is installed in the installation groove 26. The night light strip 25 through setting up can play illumination display function under the darker environment of light to the user knows the switch position and controls the use, improves user's use experience and feels and product aesthetic property.

As shown in fig. 7 to 10, fig. 7 to 10 show a schematic structural diagram of a second embodiment of the wireless kinetic energy switch according to the present invention, which is different from the first embodiment described above in that two key pads 2 are provided on the switch base 1. The wireless main control board 3 is provided with tact switches 31 which are in one-to-one correspondence with the key boards 2, and the tact switches 31 and the transmission mechanism 4 are staggered; the silica gel pad 7 is provided with convex parts 71 corresponding to the tact switches 31 one by one, the convex parts 71 cover the tact switches 31, and the convex parts 71 penetrate through the through holes of the fixed mounting seat 8 to be abutted against the key board 2. Wherein, the back of the key board 2 is provided with switch groove parts 27, and the switch groove parts 27 are connected with the convex parts 71 in a one-to-one correspondence so as to press the tact switch 31 better. When the corresponding key board 2 is pressed to realize power generation, the corresponding tact switch 31 can be triggered to output a corresponding trigger signal by pressing the corresponding convex part 71, so that the wireless main control board 3 controls corresponding external equipment to work.

As shown in fig. 11 to 13, fig. 11 to 13 show schematic structural diagrams of a third embodiment of the wireless kinetic energy switch according to the present invention, which is different from the second embodiment described above, in that three key boards 2 are provided on the switch base 1, three tact switches 31 are provided on the wireless main control board 3, and three protrusions 71 are also provided on the silica gel pad 7. Accordingly, when the corresponding key board 2 is pressed to realize power generation operation, the corresponding tact switch 31 can be triggered to output a corresponding trigger signal by pressing the corresponding convex part 71, so that the wireless main control board 3 controls corresponding external equipment to operate. The control work of a plurality of external devices can be realized through the embodiment, the functions are various, and various control demands of users are met.

In order to simplify the structure, the positioning ribs 22 may be directly provided in the middle key sheet 2, and after the positioning and mounting of the middle key sheet 2, the positioning and mounting of the rest key sheets 2 may be realized by using the key sheet 2 as a secondary auxiliary positioning object.

It should be noted that, when the wireless kinetic energy switch has two or more key sheets 2, the luminous strip 25 may be disposed on each key sheet 2; or in order to simplify the structure and reduce the cost, the luminous strip 25 is directly arranged on any key board 2, so that the luminous display effect can be achieved under the condition of darker illumination, and a user can conveniently find a switch. In other embodiments, a plurality of tact switches 31 and the protrusions 71 and the keypad 2 corresponding to the tact switches 31 may be provided according to actual requirements to integrate a plurality of control functions.

In addition, the silica gel pad 7 having N protrusions 71 is applicable to a wireless kinetic energy switch having N key sheets 2, and also applicable to a wireless kinetic energy switch having N-1 other key sheets 2 of the same size, so as to improve applicability and practicality. The silica gel pad 7 having 3 projections 71 can be directly applied to a wireless kinetic energy switch having 1 key sheet 2 and 2 key sheets 2, in addition to a wireless kinetic energy switch having 3 key sheets 2.

Preferably, the corresponding two ends of the switch seat 1, the wireless main control board 3, the silica gel pad 7 and the fixed mounting seat 8 are respectively provided with a mounting hole 9, and the corresponding positions are mounted through the mounting fixing holes 24 sequentially by screws so that a user can use the wireless kinetic energy switch fixedly. The wireless kinetic energy switch can be used in a movable mode, and various use requirements of users are met.

As shown in fig. 14 to 15, the present invention further provides a control method of a wireless kinetic energy switch, which is applied to the wireless kinetic energy switch, and includes the following two control methods:

1. as shown in fig. 14, when the key pad is provided as one, the control method thereof is as follows,

S101, pressing a key board, wherein the key board drives a pressing transmission board in a transmission mechanism to overcome the elastic acting force of an elastic return mechanism to move in the opposite direction of the elastic acting force by pressing a silica gel pad;

S102, when the pressing transmission plate moves, the connecting piece on the pressing moving plate drives the swinging piece of the power generation module to move, and the power generation module supplies power to the wireless main control board;

s103, the wireless main control board directly sends out a wireless control signal to control the external equipment to work.

The wireless kinetic energy switch of the single key board can be controlled to work through the mode, so that any external device can be controlled to work in a wireless mode.

2. As shown in fig. 15, or when the number of key pads is set to at least two, the control method thereof is as follows,

S201, pressing at least one key board, wherein the key board drives the pressing transmission board to move in the opposite direction of the elastic acting force against the elastic acting force of the elastic return mechanism by pressing the silica gel pad, and presses the corresponding tact switch by pressing the convex part on the silica gel pad;

S202, when the pressing transmission plate moves, the connecting piece on the pressing moving plate drives the swinging piece of the power generation module to move, the power generation module supplies power for the wireless main control board, and meanwhile, the corresponding tact switch is pressed and triggered;

And S203, the wireless main control board sends out corresponding wireless control signals according to the trigger signals of the tact switch so as to control corresponding external equipment to work.

The key board switch can be controlled to work simultaneously by the mode, any one or a plurality of external devices can be controlled to work synchronously by wireless, the multifunctional control work is realized, and the multifunctional control requirement of a user is met.

In summary, the invention adopts the wireless self-discharging mode to realize the wireless control of the opening and closing of the external equipment, and the battery is not required to be replaced frequently as in the conventional wireless remote control switch, so that the disassembly and installation frequency is greatly reduced, the use experience of a user is improved, the use cost of the user is reduced, and the invention is environment-friendly.

And secondly, the invention has simple integral structure and small occupied volume, and the arranged silica gel pad can play a waterproof role on an internal electronic device, so that the device is prevented from being damaged due to water inflow or wading in the interior, and the safe work of the electronic device is ensured. Through setting up a plurality of button control structures, can control the work to a plurality of external equipment, improve the functional diversity.

In addition, can play illumination display function under the darker environment of light through the night light strip that sets up to user control uses, improves user's use experience and feels.

The foregoing disclosure is merely illustrative of the preferred embodiments of the present invention and is not intended to limit the scope of the claims herein, as equivalent changes may be made in the claims herein without departing from the scope of the invention.

Claims (10)

1. The wireless kinetic energy switch is characterized by comprising a switch seat and at least one key board, wherein the key board is arranged on the switch seat, a wireless main control board, a transmission mechanism and an elastic return mechanism are arranged in the switch seat, and a power generation module is integrated on the wireless main control board;

the transmission mechanism is respectively connected with the key board and the swinging piece of the power generation module;

The elastic return mechanism is connected with the transmission mechanism in an adapting way and is used for driving the transmission mechanism to return;

When the key board is pressed, the key board drives the transmission mechanism to overcome the elastic acting force of the elastic return mechanism, move towards the opposite direction of the elastic acting force and drive the swinging piece to move, so that the wireless main control board works.

2. The wireless kinetic energy switch of claim 1, wherein a silica gel pad is further arranged in the switch seat, and the silica gel pad covers the wireless main control board, the transmission mechanism and the elastic return mechanism and is in sealing connection with the inner wall of the switch seat.

3. The wireless kinetic energy switch of claim 2, wherein the switch base upper cover is provided with a fixed mounting base, one end of the key board is rotatably connected with the fixed mounting base, and the other end of the key board is movably connected with the fixed mounting base and presses the transmission mechanism through the silica gel pad.

4. The wireless kinetic energy switch of claim 3, wherein the switch seat is provided with at least two key boards, the wireless main control board is provided with tact switches corresponding to the key boards one by one, and the tact switches and the transmission mechanism are staggered;

The silica gel pad is provided with convex parts corresponding to the tact switches one by one, the convex parts cover the tact switches, and the convex parts penetrate through the through holes of the fixed mounting base and are abutted to the key board.

5. The wireless kinetic energy switch of claims 3 to 4, wherein a switch key rib is arranged on the back surface of the key board, and the switch key rib passes through a pressing hole of the fixed mounting seat to be abutted against the silica gel pad.

6. The wireless kinetic energy switch of claim 5, wherein a positioning rib and a buckling part are arranged on the inner wall of one end of the key board, and mounting and fixing holes are arranged on the inner wall of the other end of the key board at intervals;

One end of the fixed mounting seat is provided with a positioning clamping groove corresponding to the positioning rib and a buckling part corresponding to the buckling part, the positioning rib is clamped into the positioning clamping groove, the buckling part is in clamping connection with the buckling part, and the buckling part can move back and forth in the movable space of the buckling part;

The other end of the fixed mounting seat is provided with a fixed column corresponding to the mounting fixing hole, and the fixed column is connected with the mounting fixing hole in an adaptive manner.

7. The wireless kinetic energy switch of any one of claims 1 to 4, wherein the transmission mechanism comprises a pressing transmission plate, a connecting piece is arranged at one end of the pressing transmission plate, a clamping groove is arranged in the connecting piece, and the clamping groove is in clamping connection with one end of the swinging piece;

The other end of the pressing transmission plate is provided with a pressing part, and the pressing part is abutted with an elastic return mechanism positioned below the pressing part.

8. The wireless kinetic energy switch of claim 7, wherein the elastic return mechanism comprises a fixed seat and a return spring, the fixed seat is installed at the bottom of the switch seat, the upper part of the fixed seat passes through a through hole on the wireless main control board and is exposed out of the upper surface of the wireless main control board, and two ends of the fixed seat are respectively provided with a spring fixing part;

And two ends of the return spring are respectively connected with the corresponding spring fixing parts, and a spring action part of the return spring is abutted with the pressing part.

9. The wireless kinetic energy switch of claim 1, wherein at least one luminous strip is embedded on the key sheet.

10. A method of controlling a wireless kinetic energy switch, applied to the wireless kinetic energy switch of any one of claims 1 to 9, the method comprising: when the key pad is provided as one key pad,

The key board is pressed, and the key board is used for driving the pressing transmission board in the transmission mechanism to overcome the elastic acting force of the elastic return mechanism and move in the opposite direction of the elastic acting force through the pressing silica gel pad;

When the pressing transmission plate moves, the connecting piece on the pressing moving plate drives the swinging piece of the power generation module to move, and the power generation module supplies power for the wireless main control board;

The wireless main control board directly sends out a wireless control signal to control the external equipment to work;

or when the number of key pads is at least two,

Pressing at least one key board, wherein the key board drives the pressing transmission board to overcome the elastic acting force of the elastic return mechanism to move in the opposite direction of the elastic acting force by pressing the silica gel pad, and presses the corresponding tact switch by pressing the convex part on the silica gel pad;

When the pressing transmission plate moves, the connecting piece on the pressing moving plate drives the swinging piece of the power generation module to move, the power generation module supplies power for the wireless main control board, and meanwhile, the corresponding tact switch is pressed and triggered;

And the wireless main control board sends out corresponding wireless control signals according to the trigger signals of the tact switch so as to control corresponding external equipment to work.