CN211350444U - Self-generating switch - Google Patents

Abstract

The utility model provides a from electricity generation switch, include: the circuit board is arranged in the bottom shell, the circuit board is electrically connected with a switch device, a generator and a light-emitting module, the switch device is electrically connected with a processing module, the bottom shell is directly or indirectly connected with the elastic component, the key body is positioned on one side of the circuit board, which is deviated from the bottom surface of the bottom shell, and the light-emitting module can directly or indirectly emit light through a light-emitting part. The utility model discloses in, because the circuit board is equipped with light emitting module, and light emitting module can be directly or indirectly through light-emitting part light-emitting, the user can learn the relevant information from the electricity generation switch with the help of the external light-emitting of light emitting module when using from the electricity generation switch, for example can learn whether the button is fully pressed down. It is visible, the utility model discloses a self-generating switch's external feedback provides the hardware basis.

Description

Self-generating switch

Technical Field

The utility model relates to a switch field especially relates to a from electricity generation switch.

Background

The installation of traditional wall switch needs the buried wiring, and the power consumptive wire rod of consuming time and manpower cost is with higher risk when being used for moist environment such as bathroom, open air moreover. With the development of the technology, switch products using batteries gradually appear in the market, however, the pollution of the waste batteries to the environment is inevitable, and the batteries are replaced regularly to bring inconvenience to users.

In order to avoid the defects of the wall switch and the battery switch, in the related art, a self-generating switch is provided, is a passive and wireless switch, and cannot cause the problems of wiring, battery pollution and the like. However, the existing self-generating switch lacks a structure for external feedback, and is not favorable for a user to timely and accurately learn the working condition of the self-generating switch, for example, whether the external feedback switch is sufficiently pressed or not is impossible, which is easy to bring inconvenience to the user.

SUMMERY OF THE UTILITY MODEL

The utility model provides a from electricity generation switch to solve the problem that lacks the structure of external feedback.

According to the utility model discloses an aspect provides a from electricity generation switch, include: a bottom shell, a circuit board, an elastic component and a key body,

the circuit board is electrically connected with the switch device, the generator and the light-emitting module, the circuit board is arranged in the bottom shell, and the bottom shell is directly or indirectly connected with the elastic component; the key body is positioned on one side of the circuit board, which is deviated from the bottom surface of the bottom shell, and the light-emitting module can directly or indirectly emit light through the light-emitting part;

when any one of the key bodies is pressed down, the transmission part can be directly or indirectly pushed to change from a first position state to a second position state, and when the transmission part changes from the first position state to the second position state, the switch device can be directly or indirectly triggered by the key body;

the elastic component can directly or indirectly provide the transmission component with a reset acting force for resetting the transmission component from the second position state to the first position state so as to reset the transmission component from the second position state to the first position state; the key body can change the position state along with the transmission component; the key body can change the position state along with the transmission component;

when the transmission component changes from the first position state to the second position state and/or changes from the second position state to the first position state, the generator can be triggered by the transmission component to generate electricity; the electric energy used by the light emitting module to emit light is provided by the electric energy generated by the generator.

Optionally, the generator has a power generation paddle for being triggered by the transmission component; the power generation shifting sheet of the generator is positioned on one side of the generator, which is close to the non-pressing end of the key body;

the first end of the transmission component is used for being directly or indirectly pressed down by the key body, and the second end of the transmission component is used for triggering the power generation poking sheet when the first end of the transmission component is pressed down and/or is reset under the driving of the reset acting force, so that the power generator generates power.

Optionally, a supporting portion is disposed on the bottom case, the supporting portion penetrates through the circuit board and extends to a side of the circuit board away from the bottom surface of the bottom case, and the supporting portion is supported by the transmission component; the transmission member is capable of swinging about the support portion as a fulcrum and changing between the first position state and the second position state by the swinging.

Optionally, an upper limiting buckle is further arranged on the bottom case, the limiting buckle penetrates through the circuit board and extends to one side of the circuit board, which is away from the bottom surface of the bottom case, and the limiting buckle is used for limiting the transmission component to move in the direction away from the circuit board.

The switch device and the power generation shifting piece are respectively positioned on two sides of the supporting portion along a first reference direction, and the first reference direction is the direction from the pressing end to the non-pressing end of the key body.

Optionally, the bottom shell is further provided with a first movable limiting rib, and the transmission part is provided with a movable limiting boss;

the first movement limiting rib penetrates through the circuit board and extends to one side, away from the bottom surface of the bottom shell, of the circuit board, the first movement limiting rib can limit the movement limiting boss and the transmission component to move along a first reference direction and/or a second reference direction, the first reference direction is the direction from the pressing end to the non-pressing end of the key body, and the second reference direction is the direction from the non-pressing end to the pressing end of the key body.

Optionally, a base is disposed on the bottom case, the base is provided with a first shaft portion, the base penetrates through the circuit board and extends to a side of the circuit board, which is away from the bottom surface of the bottom case, and the first shaft portion is located at the side of the circuit board, which is away from the bottom surface of the bottom case; the transmission component is connected to the first shaft part through a second shaft part;

the transmission component can rotate around the axes of the first shaft part and the second shaft part and is changed between the first position state and the second position state through the rotation;

if the first shaft part is a shaft hole, the second shaft part is a rotating shaft;

if the first shaft part is a rotating shaft, the second shaft part is a shaft hole.

Optionally, the generator has a power generation paddle for being triggered by the transmission component; the power generation shifting sheet of the generator is positioned on one side of the generator, which is close to the pressing end of the key body;

the middle part or the part close to the first end of the transmission part is used for being directly or indirectly pressed down by the key body, and the first end of the transmission part is used for triggering the power generation plectrum when the transmission part is pressed down and/or is driven by the reset acting force to reset so as to enable the power generator to generate power.

Optionally, a second upper limit buckle and a support are arranged at a position on the bottom case close to the pressing end, the second upper limit buckle penetrates through the circuit board and extends to a side of the circuit board, which is away from the bottom surface of the bottom case, a second end of the transmission component is inserted into the second upper limit buckle, the support is supported on the transmission component, and the transmission component can pivot by using the support as a fulcrum and change between the first position state and the second position state through the pivoting.

Optionally, the switch device and the power generation shifting piece are respectively located on two sides of the supporting portion along a first reference direction, and the first reference direction is a direction from the pressing end to the non-pressing end of the key body.

Optionally, a second movable limiting rib is further arranged on the bottom shell;

the second moving limiting rib penetrates through the circuit board and extends to one side, away from the bottom surface of the bottom shell, of the circuit board, the second moving limiting rib can limit the transmission component to move along a first reference direction and/or a second reference direction, the first reference direction is the direction from the pressing end to the non-pressing end of the key body, and the second reference direction is the direction from the non-pressing end to the pressing end of the key body.

Optionally, the elastic component and the transmission component are both connected to the power generation shifting piece, and the elastic component can directly or indirectly push the power generation shifting piece to reset and indirectly enable the transmission component to reset.

Optionally, a third movable limiting rib is arranged on the bottom case, the third movable limiting rib is used for limiting the transmission component to move along a third reference direction, and the third reference direction is perpendicular to the direction from the pressing end to the non-pressing end.

Optionally, if the number of the key bodies is at least two, the transmission part is butted with all the key bodies, so that: when any at least one key body is pressed down, the transmission part can be pushed to change the position state.

Optionally, the elastic component is at least one of: torsion spring, shell fragment, spring.

Optionally, if the elastic component is a torsion spring, then: be equipped with torsional spring base on the drain pan, torsional spring base passes the circuit board extend to the circuit board with the one side that the bottom surface of drain pan deviates from mutually, torsional spring base is equipped with torsional spring installation axle, the torsional spring install in torsional spring installation axle, the torsional spring is still direct or is located through the connecting rod contact the torsional spring connecting portion of drive disk assembly, with through torsional spring connecting portion will the effort of restoring to the throne acts on drive disk assembly.

Optionally, the light emitting portion is disposed on the key body.

Optionally, the self-generating switch further comprises a middle shell, the middle shell covers the bottom shell to form an inner space, the circuit board, the generator and the transmission component are both located in the inner space, and the key body is located on one side of the middle shell, which is away from the inner space.

Optionally, the self-generating switch further comprises a waterproof layer, and the waterproof layer is arranged between the middle shell and the circuit board.

Optionally, the waterproof layer is provided with a switch key matching portion, the switch key matching portion protrudes from one side of the waterproof layer, which is far away from the circuit board, the middle shell is provided with a key hole, the switch key matching portion penetrates through the key hole, the switch device extends into the switch key matching portion, and the switch key matching portion is along the direction in which the key body is pressed to be respectively butted with the key body and the switch device.

Optionally, the self-generating switch further includes a light guide member, the middle shell is provided with a middle shell light hole, the waterproof layer is provided with a waterproof layer light-transmitting portion, the key body is provided with the light emitting portion, the light guide member penetrates through the middle shell light hole, two ends of the light guide member respectively extend to the light emitting portion and the waterproof layer light-transmitting portion, and the positions of the light guide member, the middle shell light hole, the waterproof layer light-transmitting portion and the light emitting portion are matched with the position of the light emitting module.

Optionally, a protruding portion is arranged on one side of the middle shell, which is connected with the key body, and the key body can swing with the protruding portion as a fulcrum; the button body can swing when being pressed.

Optionally, the protruding portion is arranged at an edge of a non-pressing end of the middle shell, and a first buckle is arranged on the outer side of the protruding portion, which is far away from the pressing end; one side of the pressing end of the middle shell is provided with a second buckle; a third buckle is arranged at the non-pressing end of the key body, and a fourth buckle is arranged at the pressing end of the key body; the first buckle and the second buckle are connected to the middle shell or the bottom shell;

the first buckle is in butt joint with the third buckle so as to limit the movement of the non-pressing end of the key body towards the direction far away from the middle shell, and the second buckle is in butt joint with the fourth buckle so as to limit the movement of the pressing end of the key body towards the direction far away from the middle shell.

Optionally, the middle shell is provided with a runway-shaped screw receiving hole, and the bottom shell is provided with a runway-shaped screw mounting hole matched with the screw receiving hole.

Optionally, the periphery of the screw mounting hole is provided with a runway-shaped rib portion, and a connecting rib portion is arranged between the inner edge of the runway-shaped rib portion and the outer edge of the screw receiving hole.

Optionally, the bottom shell is provided with a waterproof wall, and the waterproof wall is annularly arranged on the outer side of the circuit board.

The utility model provides a from electrical switch, because the circuit board is equipped with light emitting module, and light emitting module can be directly or indirectly through light-emitting part light-emitting, and then, the user when using from electrical switch, can learn from electrical switch's relevant information with the help of the external light-emitting of light emitting module, for example can learn whether the button is fully pressed down. It is visible, the utility model discloses a self-generating switch's external feedback provides the hardware basis.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a first schematic diagram illustrating an explosion of a self-generating switch according to an embodiment of the present invention;

fig. 2a and 2b are schematic views illustrating the operation principle of the key pressing according to an embodiment of the present invention;

fig. 3 is a first schematic structural diagram of a bottom case according to an embodiment of the present invention;

fig. 4 is a first schematic view of a bottom case, a circuit board and a combination structure constructed thereon according to an embodiment of the present invention;

fig. 5 is a first schematic structural diagram of a transmission component according to an embodiment of the present invention;

fig. 6 is a schematic view of a bottom case, a circuit board and a combined structure constructed thereon according to an embodiment of the present invention;

fig. 7 is a second schematic structural diagram of the bottom case according to an embodiment of the present invention;

fig. 8 is a second schematic structural diagram of a transmission component according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a waterproof layer according to an embodiment of the present invention;

fig. 10 is a schematic view of a combination structure of the bottom shell, the middle shell and the waterproof layer according to an embodiment of the present invention;

fig. 11 is a first schematic structural diagram of a middle shell according to an embodiment of the present invention;

fig. 12 is a second schematic structural view of the middle shell according to an embodiment of the present invention;

fig. 13 is a schematic structural view of a bottom case and a key body according to an embodiment of the present invention;

fig. 14 is a first schematic structural diagram of a key body according to an embodiment of the present invention;

fig. 15 is an explosion schematic diagram of a self-generating switch according to an embodiment of the present invention;

fig. 16 is a third schematic structural view of the bottom case according to an embodiment of the present invention;

fig. 17 is a third schematic view of a bottom case, a circuit board and a combination structure constructed thereon according to an embodiment of the present invention;

fig. 18 is a third schematic structural view of a transmission member according to an embodiment of the present invention;

fig. 19 is a schematic structural view of a waterproof layer in an embodiment of the present invention;

fig. 20 is a third schematic structural view of the middle shell according to an embodiment of the present invention;

fig. 21 is a schematic view of a combination structure of the bottom shell and the middle shell according to an embodiment of the present invention;

fig. 22 is a second schematic structural diagram of the key body according to an embodiment of the present invention;

fig. 23 is a first schematic view illustrating a combination structure of the bottom case and the key body according to an embodiment of the present invention;

fig. 24 is a schematic view of a combined structure of the bottom case and the key body according to an embodiment of the present invention;

fig. 25 is a third schematic view of a combined structure of the bottom case and the key body according to an embodiment of the present invention.

Description of reference numerals:

1-a bottom shell;

101-a support;

102-a first movement limiting rib;

103-a first upper limit buckle;

104-torsion spring base;

1041-torsion spring mounting shaft;

1042-torsion spring limit part;

105-a waterproof wall;

106-a base;

1061-a first shaft portion;

107-generator mounting buckle;

108-a second movement limiting rib;

109-a second upper limit buckle;

110-support

111-third movement limiting ribs;

112-screw mounting holes;

113-racetrack-shaped ribs;

114-connecting ribs;

115-a first snap;

116-a second catch;

2-a circuit board;

201-a switching device;

3-waterproof layer;

301-switch key mating part;

302-a light-transmitting part of the waterproof layer;

303-mating key mating part;

304-press-fit;

4-mesochite;

401-key hole;

402-middle shell light hole;

403-pairing key holes;

404-a pressing part accommodating structure;

405-a boss;

406-a first catch;

407-a second buckle;

408-mounting holes;

409-screw receiving holes;

5-key body;

501-a fourth buckle;

502-third snap;

503-switch pressing part;

504-transmission pressing part;

505-a light emitting portion;

6-a transmission component;

601-branch point location;

602-a switch pressing portion;

603-moving a limit boss;

604-a limit snap-fit portion;

605-insert hole;

606-torsion spring connections;

607-generator drive;

608-a second shaft portion;

609-fixed end;

7-a generator;

701-a power generation plectrum;

8-an elastic member;

9-light guide.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The technical solution of the present invention will be described in detail with specific examples. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments.

Fig. 1 is a first schematic diagram illustrating an explosion of a self-generating switch according to an embodiment of the present invention; fig. 2a and 2b are schematic diagrams illustrating the operation principle of the key pressing according to an embodiment of the present invention.

Referring to fig. 1, fig. 2a and fig. 2b, the self-generating switch includes: the key comprises a bottom shell 1, a circuit board 2, an elastic component 8 and a key body 5, wherein the circuit board 2 is arranged in the bottom shell 1, and the key body 5 is positioned on one side of the circuit board 2, which is deviated from the bottom surface of the bottom shell 1.

The circuit board 2 can be electrically connected with the switching device 201, the generator 7 and the light emitting module (not shown), for example, the switching device 201, the generator 7 and the light emitting module can be disposed on the circuit board 2; the light emitting module may be, for example, a light emitting module for indicating that the corresponding key body is fully pressed (for example, any key can be fully pressed to emit light or flash, or the corresponding key can be fully pressed to emit light or flash), and this embodiment does not exclude the case where the corresponding key body is damaged, and the bottom case 1 is directly or indirectly connected to the elastic component 8.

The light emitting module can emit light directly or indirectly through the light emitting portion 505. The light emitting portion 505 may be a hole or a solid body that is transparent to light, and if the hole is a hole, the hole may be a hole only for transmitting light or a hole that allows the light guide member to be inserted. The light emitting portion 505 may be provided in the key main body 5 as shown in the drawing, or may be provided in a structure such as an upper case or a frame in another embodiment.

In one example, the switching device 201 and the light emitting module (not shown) are connected to a processing module (not shown). The light emitting module may include, for example, an LED, which may include a single LED, and further connect to an IO port of the processor directly or via a current limiting resistor, or may include a plurality of LEDs connected in series and/or in parallel, and the LEDs connected in series and/or in parallel may be connected to the IO port of the processor, and further, in an example, the processing module may send an electrical signal to a corresponding IO port according to a connection and disconnection condition of the switch device, so that the corresponding light emitting module emits light. The processing module can drive the light to emit light according to other events, and is not limited to the on-off condition.

In another example, when the switch device 201 is an LED, it may also be directly connected to a generator, for example, it may be connected to two ends of a coil of the generator in parallel, and then the generator is turned on to emit light when generating power.

The switching device may be, for example, a circuit device that can be changed to a conducting state by being activated, and may be, for example, a microswitch.

In the above solution, since the circuit board is provided with the light emitting module, and the light emitting module is connected to the processing module, a channel for providing feedback to the user by using the light emitting module is generated.

In this embodiment, when any one of the key bodies 5 is pressed down, the transmission member 6 can be directly or indirectly pushed to change from the first position state to the second position state, and when the transmission member 6 changes from the first position state to the second position state, the switch device 201 can be directly or indirectly triggered by the key body 5;

the elastic component 8 can directly or indirectly provide the transmission component 6 with a reset acting force for resetting the transmission component 6 from the second position state to the first position state, so that the transmission component is reset from the second position state to the first position state;

when the transmission component 6 changes from the first position state to the second position state and/or from the second position state to the first position state, the generator 7 can be triggered by the transmission component 6 to generate electricity;

the key body can change the position state along with the transmission component.

The electric energy used by the light-emitting module for emitting light is provided by the electric energy generated by the generator, for example, the light-emitting module can be directly connected in parallel with two ends of a coil of the generator so as to be powered, for example, the light-emitting module can be connected with an energy storage module (such as a capacitor), the energy storage module can obtain the electric energy of the generator and then directly or indirectly supply the electric energy to the light-emitting module, wherein the energy storage module can be connected to the generator through a rectifying module.

In one embodiment, the self-generating switch may further include a middle shell 4, the middle shell 4 covers the bottom shell 1 to form an internal space, the circuit board 2, the transmission part 6, the power generator, and the like may be located in the internal space, and the key body 5 is located on a side of the middle shell 4 away from the internal space. In other embodiments, the middle shell 4 may not be provided.

The middle shell 4 is a waterproof middle shell and can be selected or not according to the waterproof requirement; the middle shell 4 and further water barrier can be omitted if water barrier is not required.

Fig. 3 is a first schematic structural diagram of a bottom case according to an embodiment of the present invention; fig. 4 is a first schematic view of a bottom case, a circuit board and a combination structure constructed thereon according to an embodiment of the present invention; fig. 5 is a first schematic structural diagram of a transmission component according to an embodiment of the present invention; fig. 6 is a schematic view of a bottom case, a circuit board and a combined structure constructed thereon according to an embodiment of the present invention; fig. 7 is a second schematic structural diagram of the bottom case according to an embodiment of the present invention; fig. 8 is a schematic structural diagram of a transmission component according to an embodiment of the present invention.

Referring to fig. 3 to 8, the generator 7 has a generating pick 701 for being triggered by the transmission component, wherein the generating pick 701 can be understood as any structure that can be triggered to generate electric energy by using mechanical energy, and the generating pick 701 can be in a sheet shape, a rod shape, a ring shape, or any other shape.

Referring to fig. 3 to 5, the power generating pick 701 of the power generator 7 is located at a side of the power generator 7 close to the non-pressing end of the key body 5, that is: the power generation paddle 701 is located on the side of one end of the generator 7, and the switching device 201 is located on the side of the other end of the generator 7.

The first end of the transmission member 6 is used to be pressed by the key body 5 directly or indirectly, for example, it can be pressed by the switch pressing portion 602, wherein the switch pressing portion 602 can protrude from the surface of the transmission member 6.

The second end of the transmission member 6 is used for triggering the power generation shifting piece 701 when the first end of the transmission member is pressed down and/or driven by the reset acting force to reset so as to enable the power generator 7 to generate power.

The moving directions of the first end and the second end of the transmission component 6 may be the same or different, and in any way, as long as the above controlled pressing and the triggering of the power generation shifting piece are realized, the method does not depart from the description of the embodiment.

Wherein, the transmission component 6 can be provided with an insertion hole 605 for inserting the power generation shifting piece 701.

In one embodiment, the bottom case 1 is provided with a supporting portion 101, the supporting portion 101 passes through the circuit board 2 and extends to a side of the circuit board 2 away from the bottom surface of the bottom case 1, correspondingly, the circuit board 2 may be provided with a through hole for the circuit board to pass through, and the supporting portion 101 is supported on the transmission component 6, wherein the switch device 201 and the power generation toggle piece 701 may be respectively located at two sides of the supporting portion 101 along the reference direction, for example, in other examples, other sub-portions may also be adopted. The transmission member 6 is swingable about the support portion 101 as a fulcrum, and is changeable between the first position state and the second position state by the swing. Here, the number of the supporting portions 101 may be two or more, and they may be uniformly distributed on the lower side of the transmission member 6.

Taking fig. 4 as an example, the supporting portion 101 may abut against a fulcrum point 601 of the transmission member 6, the fulcrum point 601 may be provided with or without a structure for realizing abutment, the fulcrum point may be a single position or a variable position, and further, as the swing occurs, the contact position of the supporting portion 101 and the transmission member 6 may or may not change. The circuit board 2 (including a switch device) can be assembled in an inner space formed by the bottom shell 1, the generator 7 is connected with the circuit board 2, wherein the generator 7 can be installed on the bottom shell 1 by using a generator installation buckle 107, and the generator 7 can provide electric energy for the circuit board 2; the transmission component 6 is connected with the bottom shell 1 through two branch point positions on two sides of the bottom shell 1, specifically, a rocker structure is formed by a connection line of the two branch point positions, one side end of the transmission component 6 is connected with the power generation poking piece 71 extending out of the power generator 7, the elastic component 8 is installed on the bottom shell 1 and is connected with the other end of the transmission component 6 or a position close to the other end, the power generator 7 can reset through the transmission component 6, and the other side end of the transmission component 6 can be provided with the switch pressing part 602.

Compare fig. 2a and fig. 2b, and combine fig. 3 to fig. 8, press down button body 5 after, button body 5 triggers drive disk assembly 6 and makes the wane rotate, press the end downward movement promptly, the other end then upward movement, thereby drive the electricity generation plectrum 701 motion of generator 7, this kinetic energy of generator 7 converts into the electric energy, for circuit board 2 power supply, the button that presses simultaneously triggers the switching device in the process of pushing down, circuit board 2 then can discern this switching device, thereby the corresponding signal of transmission, every button all corresponds a switching device, press which button just triggers corresponding switching device. Meanwhile, the circuit board 2 is provided with light emitting modules (such as LEDs) with the same number as the keys, and the LEDs can flash once when the light emitting modules are pressed to emit signals each time.

After pressing, the transmission member 6 can return to the initial position under the action of the elastic member 8 of the torsion spring 4, for example, and thus the power generation paddle of the generator 7 can also return to the initial position. The key body 5 can also return to the initial position under the action of the transmission part 6.

Referring to fig. 3 and 5, the bottom case 1 is further provided with a first movement limiting rib 102, and the transmission member 6 is provided with a movement limiting boss 603.

The first movement limiting rib 102 penetrates through the circuit board 2 and extends to one side of the circuit board 2, which is far away from the bottom surface of the bottom case 1, correspondingly, the circuit board 2 may be provided with a through hole for the circuit board to penetrate through, the first movement limiting rib 102 may limit the movement limiting boss 603 and the transmission component 6 to move along a first reference direction and/or a second reference direction, for example, when moving, the first movement limiting rib 102 may block the movement limiting boss 603.

The first reference direction is a direction from a pressing end to a non-pressing end of the key body, and the second reference direction is a direction from the non-pressing end to the pressing end of the key body.

Through the cooperation of spacing boss and spacing muscle, can less processing degree of difficulty realize spacingly.

Referring to fig. 3, the bottom case 1 is further provided with a first upper limiting buckle 103, the first upper limiting buckle 103 passes through the circuit board 2 and extends to a side of the circuit board 2 that is away from the bottom surface of the bottom case 1, and the first upper limiting buckle 103 is used for limiting the transmission component 6 to move in a direction away from the circuit board 2. Correspondingly, the edge of the transmission component can be provided with a limit snap-fit part 604, and the first upper limit snap 103 can block the limit snap-fit part 604 when the transmission component swings, thereby playing a limiting role.

Taking fig. 3 to 5 as an example, since the power generating paddle 7 is close to the non-pressing end, the first upper limit catch 103 can limit the movement of the end of the transmission member 6 close to the non-pressing end away from the circuit board 2, and in the examples of fig. 15 to 22, since the power generating paddle 7 is close to the pressing end, the second upper limit catch 109 can limit the movement of the end of the transmission member 6 close to the pressing end away from the circuit board 2.

It can be seen that the limiting buckle, the first movement limiting rib 102, can facilitate the limitation of the movement position of the transmission component 6.

Referring to fig. 6 to 8, a base 106 is disposed on the bottom case 1, the base 106 is provided with a first shaft portion 1061, the base 106 passes through the circuit board 2 and extends to a side of the circuit board 2 away from the bottom surface of the bottom case 1, and the first shaft portion 1061 is located at the side of the circuit board 2 away from the bottom surface of the bottom case 1, correspondingly, the circuit board 2 may be provided with a corresponding through hole, and the transmission member 6 is connected to the first shaft portion 1061 through a second shaft portion 608.

The transmission member 6 can rotate around the axes of the first shaft portion 1061 and the second shaft portion 608, and can change between the first position state and the second position state by the rotation.

Taking fig. 6 to 8 as an example, the first shaft portion 1061 may be a rotating shaft, and correspondingly, the second shaft portion 608 is a shaft hole. In another example, the first shaft portion 1061 may be a shaft hole, and correspondingly, the second shaft portion 608 may be a rotating shaft.

The transmission component 6 can be used as a rocker, and the scheme of swinging by using the supporting part has the advantages of easy processing, easy control of part size and the like; the scheme of utilizing the shaft part to rotate can have the advantages of high stability, easy installation and disassembly and the like.

In a specific implementation process, if the number of the key bodies 5 is at least two, for example, three as shown in the figure, then: the transmission member 6 abuts all the key bodies 5 so that: when any at least one key body 5 is pressed down, the transmission part 6 can be pushed to change the position state.

In one embodiment, the elastic member 8 may be at least one of: torsion spring, shell fragment, spring.

If the elastic component 8 is a torsion spring, then: be equipped with torsional spring base 104 on drain pan 1, torsional spring base 104 passes circuit board 2 extend to circuit board 2 with the one side that the bottom surface of drain pan 1 deviates from mutually, torsional spring base 104 is equipped with torsional spring installation axle 1041, the torsional spring install in torsional spring installation axle 1041, the torsional spring still locates through the connecting rod contact the torsional spring connecting portion 606 of drive disk assembly 6, in order to pass through the connecting rod with torsional spring connecting portion 606 will the effort of reseing acts on drive disk assembly 6.

In a specific implementation, the torsion spring base 104 may further include a torsion spring limiting portion 1042 for limiting a rotational position of the torsion spring.

In one embodiment, please refer to fig. 3, the bottom casing is provided with a waterproof wall 105, and the waterproof wall 105 is disposed around the outer side of the circuit board 2.

Fig. 9 is a schematic structural diagram of a waterproof layer according to an embodiment of the present invention; fig. 10 is a schematic view of a combination structure of the bottom shell, the middle shell and the waterproof layer according to an embodiment of the present invention.

Referring to fig. 9 and 10 in combination with fig. 1, 2a and 2b, the self-generating switch further includes a waterproof layer 3, and the waterproof layer 3 is disposed between the middle case 4 and the circuit board 2. The waterproof layer 3 may be attached to the middle shell 4 at a surface thereof opposite to the middle shell 4.

Specifically, the waterproof layer 3 can be provided with a switch key matching portion 301, the switch key matching portion 301 protrudes from one side of the waterproof layer 3, which is deviated from the circuit board 2, the middle shell 4 is provided with a key hole 401, the switch key matching portion 301 penetrates through the key hole 401, the switch device 201 extends into the switch key matching portion 301, and the switch key matching portion 301 is abutted to the key body 5 and the switch device 201 along the direction in which the key body 5 is pressed. Further, when the key body 5 is pressed down, the switch device 201 can be clicked through the key fitting portion 301, thereby triggering the switch device 201.

In addition, the waterproof layer 3 may further include a pairing key matching portion 303, where the position of the pairing key matching portion 303 may be matched with the position of the pairing key, and meanwhile, may be matched with a pairing switch device of a pairing circuit on the circuit board 2, and by pressing down the pairing key, the pairing switch device passing through the pairing key hole 403 may be triggered by the key matching portion 303, where the structural relationship among the pairing switch device, the pairing key hole, the pairing key matching portion, and the pairing key may be understood with reference to the structural relationship among the switch device 201, the key hole 401, the switch key matching portion 301, and the key body 5.

The waterproof layer 3 may further have a press-fit portion 304, the position of which can be matched with the press-fit portion receiving structure 404 of the middle shell 4. The pressing portion accommodating structure 404 can be understood as a structure for accommodating the switch pressing portion 602 when the switch pressing portion 602 is lifted, and the mating key hole 403 can be disposed in the switch pressing portion 602.

In the specific implementation process, the waterproof layer 3 can be made of waterproof silica gel.

Fig. 11 is a first schematic structural diagram of a middle shell according to an embodiment of the present invention; fig. 12 is a schematic structural diagram of a middle shell according to an embodiment of the present invention.

In one embodiment, referring to fig. 1, 9 and 11, the self-generating switch further includes a light guide member 9, the middle housing 4 has a middle housing light hole 402, the waterproof layer 3 has a waterproof layer light hole 302, the key body 5 has the light emitting portion 505, the light guide member 9 passes through the middle housing light hole 402, two ends of the light guide member 9 respectively extend to the light emitting portion 505 and the waterproof layer light hole 302, the positions of the light guide member 9, the middle housing light hole 402, the waterproof layer light hole 302 and the light emitting portion 505 are matched with the position of the light emitting module, which may be any matching manner with adjacent positions, meanwhile, the positions and the numbers of the waterproof layer light hole 302, the light emitting portion 505 and the light guide member 9 are the same, the number of the middle housing light holes 402 may be the same as or different from the same, and the middle housing light holes 402 and the light emitting modules may be in one-to-one correspondence, or many-to-one or one-to-many.

The above structure capable of realizing light transmission and light guiding is not deviated from the description of the embodiment. Specifically, the number and the position of the light guide member 9 and the light emitting portion may correspond to the key body one by one, and then the external feedback is performed one by one.

Fig. 13 is a schematic structural view of a bottom case and a key body according to an embodiment of the present invention; fig. 14 is a first schematic structural diagram of a key body according to an embodiment of the present invention.

Referring to fig. 13 and 14, a protrusion 405 is disposed on one side of the middle shell 4 connected to the key body 5, and the key body 5 can swing with the protrusion 405 as a fulcrum; the key body 5 can swing when pressed down, thereby triggering the corresponding switch device. When the pressing action force disappears, the switch device resets and the elastic component acts to drive the key body 5 to reset.

Utilize the bellying can satisfy required swing, avoided using the mode of pivot to realize, comparatively, can play the effect of simplifying the structure, the dismouting of being convenient for. Meanwhile, the embodiment which is realized by adopting a rotating shaft is not excluded.

A limitation therein is to be understood as meaning that when it is not exceeded, movement away from the middle shell can take place, but is blocked from moving away to an exceeded position.

In a specific implementation process, the protruding portion 405 is disposed at an edge position of a non-pressing end of the middle shell, which may be, for example, an upper edge shown in fig. 11, and an outer side of the protruding portion 405 away from the pressing end is provided with a first snap 406; a second buckle 407 is arranged on one side of the pressing end of the middle shell 4; a third buckle 502 is arranged at the non-pressing end of the key body 5, and a fourth buckle 501 is arranged at the pressing end of the key body 5; the first buckle 406 and the second buckle 407 are connected to the middle shell 4 or the bottom shell 1; in the figures, it is shown as being provided in the central shell 4, and in other examples, it may be provided in the bottom shell 1, but its position with respect to the central shell 4 is still as previously shown.

The first latch 406 is abutted with the third latch 502 to limit the non-pressing end of the key body 5 from moving in the direction away from the middle shell 4, and the second latch 407 is abutted with the fourth latch 501 to limit the pressing end of the key body 5 from moving in the direction away from the middle shell 4.

In order to ensure that the above restriction can be achieved simultaneously, the distance between the ends of the third buckle 502 and the fourth buckle 501, i.e. the minimum distance between the ends of the third buckle and the fourth buckle, needs to be smaller than the distance between the ends of the first buckle 406 and the second buckle 407, i.e. the maximum distance between the ends of the first buckle and the second buckle.

Certain gaps can be reserved between the butted buckles along the reference direction, and each buckle can be provided with a certain chamfer so as to ensure that the swinging implementation and the butting between the buckles can be realized.

It can be seen that the cooperation of whole button body 5 and bellying can be equivalent to forming a lever structure, under this lever structure's effect, because the bellying is located the end of not pressing, the stroke of the end of pressing of button body 5 further increases, and then can be close mechanical switch's stroke, provides the preferred and controls and feel, adjusts the final stroke of button body 5.

In a specific implementation process, the number of the first buckle 406, the second buckle 407, the third buckle 502, and the fourth buckle 501 may be any, taking fig. 11 to fig. 14 as an example, when the number of the key bodies 5 is three, the number of the first buckle 406 and the third buckle 502 may be six, and then two may be configured for each key body 5, and meanwhile, the number of the second buckle 407 and the fourth buckle 501 may be three, and then one may be configured for each key body 5.

In the above solution, the number of the first buckles is the same as that of the third buckles, the number of the second buckles is the same as that of the fourth buckles, and in other examples, the numbers may also be different, for example: the quantity of second buckle can be for being one of rectangular shape, and then, through this one second buckle, can realize the butt joint with all fourth buckles.

In a specific implementation process, referring to fig. 14, a switch pressing portion 503 may be further disposed on a side surface of the key body 5 opposite to the middle shell 4, and each switch pressing portion 503 is used for pressing corresponding to one switch device 201.

In other optional embodiments, a transmission pressing portion 504 may be further disposed on a side surface of the key body 5 opposite to the middle shell 4, and the transmission pressing portion 504, the press-fit portion 304 and the transmission pressing portion 504 are sequentially activated.

In a specific example, the waterproof layer 6 of the silica gel is connected with the bottom case 1, and the middle case 4 is connected between the outer side of the waterproof layer 6 and the bottom case 1, so as to compress the waterproof layer 6 (wherein, the waterproof layer 6 of the silica gel and the waterproof wall 105 on the bottom case 1 can adopt interference fit in structure), realize that the internal structure is completely sealed and waterproof, and finally assemble the key body 5, the key body 5 can be assembled on the bottom case 1, and also can be assembled on the middle case 4. The key body 5 has one end as a pivot, which is a fixed end, and the other end capable of performing a pivotal reciprocating motion (pressing and resetting), that is, a pressing end of the switch.

In addition, the spontaneous electrical switch that this embodiment is related to both can directly adopt double faced adhesive tape to paste in wall or other places, also can adopt the screw to install in traditional switch end box.

Referring to fig. 7 and 11, the middle case 4 is provided with a racetrack-shaped screw receiving hole 409, and the bottom case 1 is provided with a racetrack-shaped screw mounting hole 112 matching the screw receiving hole 409.

The switch can be mounted by the screw receiving hole 409 and the screw mounting hole 112. Through the runway-shaped mounting hole, the level and the horizontal position of the switch after being mounted can be finely adjusted, and the accumulated deviation in the mounting process of the switch is made up.

The periphery of the screw mounting hole 112 is provided with a runway-shaped rib 113, and a connecting rib 114 is arranged between the inner edge of the runway-shaped rib 113 and the outer edge of the screw mounting hole 112.

Through the runway-shaped rib parts 113 and the connecting rib parts 114, the strength of the shell around the mounting hole on the bottom shell can be enhanced, and the obvious shell deformation after the screw is mounted is prevented; meanwhile, the contact area with the bottom surface of the nut of the mounting screw can be reduced, so that the friction force between the screw and the shell is increased, and the effect of preventing the screw from loosening is achieved.

Fig. 15 is an explosion schematic diagram of a self-generating switch according to an embodiment of the present invention; fig. 16 is a third schematic structural view of the bottom case according to an embodiment of the present invention; fig. 17 is a third schematic view of a bottom case, a circuit board and a combination structure constructed thereon according to an embodiment of the present invention; fig. 18 is a third schematic structural view of a transmission member according to an embodiment of the present invention; fig. 19 is a schematic structural view of a waterproof layer in an embodiment of the present invention; fig. 20 is a third schematic structural diagram of the middle shell in an embodiment of the present invention.

Referring to fig. 15 to 20, in another embodiment, the power generating shifting piece 701 of the power generator 7 may also be located on a side of the power generator 7 close to the pressing end of the key body.

The middle portion or the portion close to the first end of the transmission member 6 is used for being directly or indirectly pressed by the key body 5, specifically, the transmission member can be pressed by a switch pressing portion 602 disposed at the middle portion or the portion close to the first end, and the first end of the transmission member 6 is used for triggering the power generation shifting piece 701 when the transmission member is pressed and/or when the transmission member is reset under the driving of the reset acting force, so as to enable the power generator 7 to generate power. The first end may be, for example, an end away from the pressing end, and specifically, the power generation paddle 701 may be touched by the power generator driving portion 607 as shown in the figure.

Referring to fig. 16, the bottom case 1 is further provided with a second movable limiting rib 108;

the second movement limiting rib 108 penetrates through the circuit board 2 and extends to one side of the circuit board 2, which is far away from the bottom surface of the bottom shell, the second movement limiting rib 108 can limit the transmission component 6 to move along a first reference direction and/or a second reference direction, the first reference direction is the direction from the pressing end to the non-pressing end of the key body, and the second reference direction is the direction from the non-pressing end to the pressing end of the key body.

Meanwhile, a second upper limit buckle 109 and a support 110 are disposed on the bottom case 1 near the pressing end, the second upper limit buckle 109 passes through the circuit board 2 and extends to a side of the circuit board 2 facing away from the bottom surface of the bottom case 1, the switch device 201 and the power generation pick 701 may be located on the same side of the second upper limit buckle along the first reference direction, in other examples, the distribution manner is not limited thereto, the second end of the transmission member is inserted into the second upper limit buckle 109, the support 110 is supported by the transmission member and can pivot about the support 110, and the support 110 can be changed between the first position state and the second position state by the pivoting.

In a specific implementation process, referring to fig. 17, the bottom case 1 may further be provided with a third movable limiting rib 111; the third movement limiting rib 111 is used for limiting the transmission component to move along a third reference direction, and the third reference direction is perpendicular to the direction from the pressing end to the non-pressing end.

Wherein the elastic member 8, such as a torsion spring, may be first loaded into the bottom case 1; the generator 7 and the circuit board 2 are firstly connected together by welding, then are simultaneously installed in the bottom case 1, the generator 7 is fixed by the bottom case 1 through the generator installation buckle 107, the power generation shifting piece 701 of the generator 7 can be arranged above the torsion spring, and the reset torsion spring can help the generator to drive the shifting piece to reset.

One end of the transmission component 6 can be inserted into the corresponding second upper limit buckle 109 on the bottom case, and meanwhile, the transmission component is placed on the support body 110, and meanwhile, the transmission component 6 can be limited on the left and right by the second movable limit rib 108.

The fixed end 609 of the transmission component is used as a shaft to perform pivoting movement, the switch pressing part of the transmission component 6 can be a convex structure, so that the transmission component 6 can be conveniently acted with the transmission pressing part 504 of the external key 5, and the transmission component 6 is pressed to drive the generator 7 to generate electricity.

In addition, the bottom shell 1 may further be provided with a torsion spring base 104, a generator mounting buckle 107, and the like, as well as the waterproof layer 3, the middle shell 4, the key body 5 and their related structures (including the pivotal connection of the buckle, and the like) shown in fig. 19 and 20, which can be understood with reference to the foregoing description of the embodiment shown in fig. 1 to 14, and repeated technical features and technical effects will not be described herein again.

Fig. 21 is a schematic view of a combination structure of the bottom shell and the middle shell according to an embodiment of the present invention; fig. 22 is a schematic structural diagram of a key body according to an embodiment of the present invention.

Referring to fig. 21, in one embodiment, the middle shell 4 and the bottom shell 1 can be locked by screws, and correspondingly, the middle shell 4 can be provided with mounting holes 408 for abutting against the screws, specifically, the waterproof layer 3, such as waterproof silica gel, can be disposed between the bottom shell 1 and the middle shell 4, and the waterproof layer 3 and the waterproof wall on the bottom shell 1 are in interference fit, so as to achieve the waterproof purpose.

In one embodiment, referring to fig. 17, the elastic component 9 and the transmission component 6 are both connected to the power generation shifting piece 701, and the elastic component 9 can indirectly reset the transmission component 6 by pushing the power generation shifting piece 701 to reset. The elastic member 9 may be, for example, a torsion spring, wherein the torsion spring may be connected to the power generation paddle 701 through a link. For example, the transmission member 6 may be connected to one side of the power generation paddle 701, and the elastic member 9 may act on the other side of the power generation paddle 701, thereby driving the power generation paddle 701 to move in two directions, respectively.

It can be seen that in the embodiment of fig. 1 to 14, the transmission member 6 is connected to the generator 7 and the torsion spring, respectively, but the torsion spring does not act directly on the generator, and in the solution of fig. 15 to 22, the torsion spring may act directly on the generator to reset the generator and the transmission member 6.

Fig. 23 is a first schematic view illustrating a combination structure of the bottom case and the key body according to an embodiment of the present invention;

fig. 24 is a schematic view of a combined structure of the bottom case and the key body according to an embodiment of the present invention; fig. 25 is a third schematic view of a combined structure of the bottom case and the key body according to an embodiment of the present invention.

In the embodiment shown in fig. 12 and 13, the middle case and the key body are connected by a snap, and in the embodiment shown in fig. 23 to 25, the key body 5 can also be connected with the bottom case 1.

Here, the non-pressing end of the bottom case 1 is provided with a first catch 115, which is also located outside the rotation shaft 405, and the function of the first catch 115 can be understood by referring to the first catch 406 on the middle case 4, and the pressing end of the bottom case 1 is provided with a second catch 116, the function of which can also be understood by referring to the second catch 407 on the middle case 4.

In a specific example, when the key body 5 is connected to the bottom case 1, the first latch 115 and the second latch 116 on the bottom case 1 may be located outside the third latch 502 and the fourth latch 501, and when the key body 5 is connected to the middle case 4, the first latch 406 and the second latch 407 of the middle case 4 may also be located inside the third latch 502 and the fourth latch 501.

In summary, the self-generating switch provided by this embodiment, because the circuit board is equipped with light emitting module, and light emitting module can directly or indirectly through the light-emitting portion light-emitting on the button body, and then, the user can learn the relevant information from the self-generating switch with the help of the external light-emitting of light emitting module when using the self-generating switch, for example, can learn whether the button is fully pressed. It can be seen that the present embodiment provides a hardware basis for the external feedback of the self-generating switch.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (26)

1. A self-generating switch, comprising: the circuit board is arranged in the bottom shell, the circuit board is electrically connected with the switching device, the generator and the light-emitting module, and the bottom shell is directly or indirectly connected with the elastic component; the switch device is electrically connected with the processing module; the key body is positioned on one side of the circuit board, which is deviated from the bottom surface of the bottom shell, and the light-emitting module can directly or indirectly emit light through the light-emitting part;

when any one of the key bodies is pressed down, the transmission part can be directly or indirectly pushed to change from a first position state to a second position state, and when the transmission part changes from the first position state to the second position state, the switch device can be directly or indirectly triggered by the key body;

the elastic component can directly or indirectly provide the transmission component with a reset acting force for resetting the transmission component from the second position state to the first position state so as to reset the transmission component from the second position state to the first position state; the key body can change the position state along with the transmission component;

when the transmission component changes from the first position state to the second position state and/or changes from the second position state to the first position state, the generator can be triggered by the transmission component to generate electricity; the electric energy used by the light emitting module to emit light is provided by the electric energy generated by the generator.

2. The self-generating switch according to claim 1, wherein the generator has a generating paddle for being triggered by the transmission member; the power generation shifting sheet of the generator is positioned on one side of the generator, which is close to the non-pressing end of the key body;

the first end of the transmission component is used for being directly or indirectly pressed down by the key body, and the second end of the transmission component is used for triggering the power generation poking sheet when the first end of the transmission component is pressed down and/or is reset under the driving of the reset acting force, so that the power generator generates power.

3. The self-generating switch according to claim 2, wherein a supporting portion is provided on the bottom case,

the supporting part penetrates through the circuit board and extends to one side of the circuit board, which is far away from the bottom surface of the bottom shell, and the supporting part is supported on the transmission component;

the transmission member is capable of swinging about the support portion as a fulcrum and changing between the first position state and the second position state by the swinging.

4. The self-generating switch according to claim 3, wherein the switch device and the generating paddle are respectively located on two sides of the supporting portion along a first reference direction, and the first reference direction is a direction from a pressing end to a non-pressing end of the key body.

5. The self-generating switch according to claim 3, wherein the bottom case is further provided with a first movement limiting rib, and the transmission component is provided with a movement limiting boss;

the first movement limiting rib penetrates through the circuit board and extends to one side, away from the bottom surface of the bottom shell, of the circuit board, the first movement limiting rib can limit the movement limiting boss and the transmission component to move along a first reference direction and/or a second reference direction, the first reference direction is the direction from the pressing end to the non-pressing end of the key body, and the second reference direction is the direction from the non-pressing end to the pressing end of the key body.

6. The self-generating switch according to claim 2, wherein a base is provided on the bottom case, the base is provided with a first shaft portion, the base extends through the circuit board to a side of the circuit board facing away from the bottom surface of the bottom case, and the first shaft portion is located on the side of the circuit board facing away from the bottom surface of the bottom case; the transmission component is connected to the first shaft part through a second shaft part;

the transmission component can rotate around the axes of the first shaft part and the second shaft part and is changed between the first position state and the second position state through the rotation;

if the first shaft part is a shaft hole, the second shaft part is a rotating shaft;

if the first shaft part is a rotating shaft, the second shaft part is a shaft hole.

7. The self-generating switch according to claim 2, wherein a first upper limiting buckle is further arranged on the bottom case, the first upper limiting buckle penetrates through the circuit board and extends to one side of the circuit board, which is far away from the bottom surface of the bottom case, and the first upper limiting buckle is used for limiting the transmission component to move towards a direction far away from the circuit board.

8. The self-generating switch according to claim 1, wherein the generator has a generating paddle for being triggered by the transmission member; the power generation shifting sheet of the generator is positioned on one side of the generator, which is close to the pressing end of the key body;

the middle part or the part close to the first end of the transmission part is used for being directly or indirectly pressed down by the key body, and the first end of the transmission part is used for triggering the power generation plectrum when the transmission part is pressed down and/or is driven by the reset acting force to reset so as to enable the power generator to generate power.

9. The self-generating switch according to claim 8, wherein a second upper limit buckle and a support are disposed on the bottom case at a position close to the pressing end, the second upper limit buckle passes through the circuit board and extends to a side of the circuit board away from the bottom surface of the bottom case, the transmission member is inserted into the second upper limit buckle, the support is supported by the transmission member, and the transmission member can pivot about the support and change between the first position state and the second position state through the pivoting.

10. The self-generating switch according to claim 9, wherein the switch device and the power generation paddle are located on the same side of the second upper limiting buckle along the first reference direction.

11. The self-generating switch according to claim 8, wherein said bottom case is further provided with a second movement limiting rib;

the second moving limiting rib penetrates through the circuit board and extends to one side, away from the bottom surface of the bottom shell, of the circuit board, the second moving limiting rib can limit the transmission component to move along a first reference direction and/or a second reference direction, the first reference direction is the direction from the pressing end to the non-pressing end of the key body, and the second reference direction is the direction from the non-pressing end to the pressing end of the key body.

12. The self-generating switch according to claim 8, wherein said elastic member and said transmission member are both connected to said generating paddle, said elastic member being capable of directly or indirectly urging the resetting of said generating paddle and indirectly resetting said transmission member.

13. The self-generating switch according to any one of claims 1 to 12, wherein a third movement limiting rib is provided on the bottom case, the third movement limiting rib is used for limiting the movement of the transmission member along a third reference direction, and the third reference direction is perpendicular to the direction from the pressing end to the non-pressing end.

14. The self-generating switch according to any one of claims 1 to 12, wherein if the number of said key bodies is at least two, said transmission member abuts all key bodies so that: when any at least one key body is pressed down, the transmission part can be pushed to change the position state.

15. The self-generating switch according to any one of claims 1 to 12, wherein said elastic member is at least one of: torsion spring, shell fragment, spring.

16. The self-generating switch according to claim 15, wherein if the elastic member is a torsion spring, then: be equipped with torsional spring base on the drain pan, torsional spring base passes the circuit board extend to the circuit board with the one side that the bottom surface of drain pan deviates from mutually, torsional spring base is equipped with torsional spring installation axle, the torsional spring install in torsional spring installation axle, the torsional spring is still direct or is located through the connecting rod contact the torsional spring connecting portion of drive disk assembly, with through torsional spring connecting portion will the effort of restoring to the throne acts on drive disk assembly.

17. The self-generating switch according to any one of claims 1 to 12, wherein said light-emitting portion is provided in said key body.

18. The self-generating switch according to any one of claims 1 to 12, further comprising a middle case covering said bottom case to form an inner space, wherein said circuit board, said generator and said transmission member are all located in said inner space, and said key body is located on a side of said middle case facing away from said inner space.

19. The self-generating switch according to claim 18, further comprising a waterproof layer disposed between the middle case and the circuit board.

20. The self-generating switch according to claim 19, wherein the waterproof layer is provided with a switch key fitting portion protruding from a side of the waterproof layer away from the circuit board, the middle shell is provided with a key hole, the switch key fitting portion penetrates through the key hole, the switch device extends into the switch key fitting portion, and the switch key fitting portion is respectively abutted to the key body and the switch device along a direction in which the key body is pressed.

21. The self-generating switch according to claim 19, further comprising a light guide member, wherein the middle case is provided with a middle case light-transmitting hole, the waterproof layer is provided with a waterproof layer light-transmitting portion, the key body is provided with the light-emitting portion, the light guide member is inserted into the middle case light-transmitting hole, two ends of the light guide member respectively extend to the light-emitting portion and the waterproof layer light-transmitting portion, and positions of the light guide member, the middle case light-transmitting hole, the waterproof layer light-transmitting portion and the light-emitting portion are matched with a position of the light-emitting module.

22. The self-generating switch according to claim 18, wherein a protruding portion is provided on one side of the middle case, which is connected to the key body, and the key body can swing with the protruding portion as a fulcrum; the button body can swing when being pressed.

23. The self-generating switch according to claim 22, wherein the protruding portion is provided at an edge of a non-pressing end of the middle shell, and a first buckle is provided on an outer side of the protruding portion away from the pressing end; one side of the pressing end of the middle shell is provided with a second buckle; a third buckle is arranged at the non-pressing end of the key body, and a fourth buckle is arranged at the pressing end of the key body; the first buckle and the second buckle are connected to the middle shell or the bottom shell;

the first buckle is in butt joint with the third buckle so as to limit the movement of the non-pressing end of the key body towards the direction far away from the middle shell, and the second buckle is in butt joint with the fourth buckle so as to limit the movement of the pressing end of the key body towards the direction far away from the middle shell.

24. The self-generating switch according to claim 18, wherein the middle case is provided with a screw receiving hole having a racetrack shape, and the bottom case is provided with a screw mounting hole having a racetrack shape matching the screw receiving hole.

25. The self-generating switch according to claim 24, wherein said screw receiving hole is peripherally provided with a racetrack shaped rib, and a connecting rib is provided between an inner edge of said racetrack shaped rib and an outer edge of said screw receiving hole.

26. The self-generating switch according to any one of claims 1 to 12, wherein said bottom case is provided with a waterproof wall surrounding said circuit board.

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