CN110828211A - Wireless self-generating switch with reset function - Google Patents

Abstract

The invention discloses a wireless self-generating switch with a reset function, which comprises a base, a pressing cover, a self-generating module and a metal pressing plate, wherein the pressing cover is arranged on the base; the base is internally provided with a limiting seat, a torsion spring part, a first rotating shaft and a rotating supporting seat; the torsion spring piece is positioned above the metal elastic piece and generates downward restoring force to the metal elastic piece; the metal pressing plate comprises a rotating part, an indirect pressing part and a direct pressing part, and the direct pressing part is abutted with the pressing cover; the indirect pressing part comprises a first hook-shaped structure and two second hook-shaped structures, and the two second hook-shaped structures are higher than the first hook-shaped structure; the two second hook-shaped structures are correspondingly clamped with the torsion spring connecting rod; the first hook-shaped structure is positioned below the metal elastic sheet, and the first hook-shaped structure is contacted with the metal elastic sheet along with the downward pressing of the indirect pressing part and pushes the metal elastic sheet upwards. The invention adopts the design of three hook-shaped structures with height difference and length difference in the metal pressing plate, can stably generate enough working voltage, and has high and stable generating voltage.

Description

Wireless self-generating switch with reset function

Technical Field

The invention relates to the technical field of wireless remote control and switches, in particular to a wireless self-generating switch with a reset function.

Background

The wireless switch is an emerging technology in recent years, is mainly used for solving the problem of unreasonable switch design and installation caused by incomplete detailed consideration during decoration, and can realize functions of remote control, multi-control, mutual control and the like by avoiding processes of wall drilling, wiring, cassette installation and the like. The original battery scheme has the defects in energy conservation, environmental protection and service life and is gradually replaced by a new technical scheme for collecting kinetic energy. The kinetic energy acquisition scheme mainly uses a self-generating module, changes the magnetic flux inside the self-generating module in a pressing mode, and generates electric energy due to the change of the magnetic flux. For a wireless self-generating switch with a reset function, mechanical energy is converted into electric energy by using habitual actions of fingers of people when the fingers press the switch, and a radio frequency control signal is emitted without a battery energy storage device. However, such switches generally have some objective problems, such as: the self-resetting power generation device in the switch is unstable in power generation amount, short in service life and high in requirement on installation space due to matching of various parts, and great limitation is brought to the design of the structure. And the reset mode that resets from bottom to top after the self-reset electricity generation switch on the market adopted direct pressing, and the support pivot that its adopted only makes things convenient for the supporting surface lid to the pressing effect of metal shrapnel, and the front contact stress point, user use needs great dynamics, has greatly influenced user's experience and has felt.

In order to reduce the assembly difficulty of the self-reset power generation switch, reduce the limitation of the self-power generation module on the internal structure, improve the pressing force degree when a user uses the self-power generation switch and improve the experience feeling of the user, the self-power generation switch with the wireless reset function, which is stable in power generation and can flexibly adjust the pressing force degree, needs to be developed.

Disclosure of Invention

In view of the above problems, an object of the present invention is to provide a wireless self-generating switch with stable power generation, flexible adjustment of the pressing force, long service life, and reset function. The metal pressing plate pushes up from bottom to top after being pressed, the second hook-shaped structure pushes the spring connecting rod up, the self-generating module metal elastic sheet is placed in a state without external resistance, and then the first hook-shaped structure pushes the metal elastic sheet to an upper limiting state from a lower limiting state. Since the power generation amount of the self-generating module is time-dependent, the shorter the time is, the higher the power generation amount is within a certain range. When the self-generating module is in a state without external resistance, the metal elastic sheet of the self-generating module can rapidly move from one end of the polarity to the other end of the polarity, the self-generating module can generate stable electric quantity, and the output voltage is high and stable.

In order to achieve the purpose, the invention adopts the following technical scheme:

a wireless self-generating switch with a reset function comprises a base, a pressing cover buckled on the base, a self-generating module with a metal elastic sheet and a metal pressing plate; the base is internally provided with a limiting seat for fixing the self-generating module, a torsion spring part, a first rotating shaft for fixing the torsion spring part and a rotary supporting seat for fixing the metal pressing plate; the torsion spring part comprises a torsion spring connecting rod, two rotating shaft force arms respectively connected with two ends of the torsion spring connecting rod, and two torsion springs respectively arranged at the end parts of the two rotating shaft force arms, the two torsion springs are sleeved on the first rotating shaft, and the torsion spring connecting rod is positioned above the metal elastic piece and generates downward restoring force to the metal elastic piece; the metal pressing plate comprises a rotating part which is rotatably fixed on the rotating support seat, an indirect pressing part and a direct pressing part which are arranged at two ends of the rotating part, and the direct pressing part is abutted against the pressing cover; the indirect pressing part comprises a first hook-shaped structure positioned in the middle and two second hook-shaped structures positioned on two sides of the first hook-shaped structure, and the two second hook-shaped structures are higher than the first hook-shaped structure; the two second hook-shaped structures are correspondingly clamped with the torsion spring connecting rod; the first hook-shaped structure is positioned below the metal elastic sheet, and the first hook-shaped structure is contacted with the metal elastic sheet along with the downward pressing of the indirect pressing part and pushes the metal elastic sheet upwards.

Preferably, the first hook-shaped structure is in contact with an end of the metal elastic sheet.

In the invention, the first hook-shaped structure and the second hook-shaped structure have a height difference, and the functions are as follows: when the metal pressing plate is pressed down, the second hook structures on the left side and the right side can be firstly contacted with the torsion spring piece and push the torsion spring piece upwards. Preferably, the two second hook formations are 2-5mm higher than the first hook formations.

Preferably, the torsion spring member is of a U-shaped configuration.

Preferably, the first rotating shaft is two cylindrical mounting shafts fixed on two sides of the limiting seat.

Preferably, the two sides of the limiting seat are respectively provided with a torsional spring limiting buckle, and the torsional spring limiting buckle comprises a notch for accommodating the torsional spring connecting rod, an upper limiting groove and a lower limiting groove.

Preferably, the two rotating shaft force arms are respectively arranged in the torsion spring limiting buckles at two sides of the limiting seat.

Preferably, the rotating part is rotatably mounted on the rotary support base through a cylindrical roller. The cylindrical roller is preferably a metal cylindrical roller. The motion mode between metal pressing plate and the cylindrical roller is rolling friction, and both are metal, and the motion frictional resistance between the two is little, and the degree of wear is low, long service life.

Preferably, the position of the rotating portion on the metal pressing plate is adjustable. The metal pressing plate adopts a lever structure, the position of the rotating part can be flexibly adjusted, and the effect of flexibly adjusting the pressing pressure and saving labor can be achieved by adjusting the distance from the two ends of the lever to the supporting point (the rotating part).

Preferably, the rotary supporting seat is two clamping seats which are symmetrically arranged and used for clamping the cylindrical roller. More preferably, the two ends of the clamping seat are closed at the outer end faces with the same height as the cylindrical roller so as to prevent the cylindrical roller from sliding outwards.

Preferably, the two second hook structures have a length longer than the length of the first hook structure. In the invention, the first hook-shaped structure and the second hook-shaped structure have a length difference, and the functions are as follows: in the pressing process, the second hook-shaped structures on the two sides are longer than the first hook-shaped structures, so that the torsion spring piece can be effectively prevented from sliding outwards in the movement process; the middle first hook-shaped structure is shorter than the second hook-shaped structure, the middle first hook-shaped structure can be directly propped against the tail end of the metal elastic sheet of the self-generating module, the metal elastic sheet is slightly deformed in the pressing process, certain energy can be generated, and the generating capacity can be effectively increased. Preferably, the length of the first hook structure is 1/4-3/4 of the length of the second hook structure.

Preferably, the metal pressing plate is provided with an imprint. The shape of impression can set up at will, and the impression can play the intensity of strengthening the metal and pressing the board and the effect of deformability, increases life.

Preferably, the number of the pressing caps is 1-3.

Preferably, the base is internally sleeved with a waterproof protective film.

The working principle of the invention is as follows:

(1) initial state: the torsion spring part is extruded to a certain degree and has a certain rotating force (restoring force) to restore deformation, so that the torsion spring part generates a downward movement trend to enable the metal elastic sheet of the self-generating module to move to a lower limiting initial state. At the moment, the rotating force arm of the torsion spring part is clamped into the lower limiting groove and is limited by the lower limiting groove.

(2) The working state is as follows: the user presses down the press cover, makes press the press cover downstream, presses the press cover and directly presses the splenium butt to make directly pressing the splenium downstream, press splenium upward movement indirectly simultaneously, the metal presses the pressing plate to pass through lever structure's effect, makes the indirect second hook-like structure and the first hook-like structure upward movement who presses the splenium, thereby promotes in proper order and twists reverse the spring part and the metal shrapnel upward movement who generates electricity the module comes to the upper limit. At the moment, the metal elastic sheet of the self-generating module is limited upwards, and can generate electric quantity to provide a working signal for sending.

(3) And (3) recovering the state: the torsion spring part is fully compressed in the working state, and when a user releases the pressing cover, the restoring force of the torsion spring part restores the metal elastic sheet to the lower limit initial state.

Compared with the prior art, the invention has the following beneficial effects:

the invention adopts the design of three hook-shaped structures with height difference and length difference in the metal pressing plate, can stably generate enough working voltage, and has high and stable generating voltage.

The invention has simple structure, small occupied space and capability of reducing the design difficulty and the limit of the internal structure in a limited way, and each part can be designed in a module combination way.

The metal pressing plate adopts a lever structure to adjust the distance between the force arms at the left side and the right side, so that the effects of flexibly adjusting force and saving labor can be achieved, and the pressing force of a user using a switch is reduced. The process of generating electricity by pressing in the lever pressing structure adopts two metal parts of a metal pressing plate and a cylindrical rolling shaft to rotate, the friction mode of motion is rolling friction, the resistance is small, and the service life is long.

The wireless self-generating device has a simple structure and strong practicability, can provide reference significance for devices and devices similar to wireless self-generating work, and is easy to popularize and convert into economic value.

Drawings

FIG. 1 is a schematic diagram of a wireless self-generating switch (cover-lifting state) according to the present invention;

FIG. 2 is a schematic structural view of the base of the present invention;

FIG. 3 is a schematic cross-sectional view of a wireless self-generating switch (flip-open state) according to the present invention;

fig. 4 is a schematic cross-sectional structure of the wireless self-generating switch of the present invention;

fig. 5 is a schematic diagram of the overall structure of the wireless self-generating switch of the invention;

FIG. 6 is a schematic structural diagram of the working state of the present invention;

FIG. 7 is a schematic view of the torsion spring member of the present invention;

fig. 8 is a schematic structural view of a metal pressing plate according to the present invention.

Detailed Description

The present invention will be further described with reference to the following examples.

See fig. 1-8: the utility model provides a take wireless self-generating switch of reset function, includes base 1, lock press cover 2 on base 1, take metal shrapnel 3 from generating electricity module 4, metal pressing plate 5. The base 1 is internally provided with a limiting seat 6 for fixing the self-generating module 4, a torsion spring part 7, a first rotating shaft 8 for fixing the torsion spring part 7 and a rotary supporting seat 9 for fixing the metal pressing plate 5. The torsion spring part 7 comprises a torsion spring connecting rod 10, two rotating shaft force arms 11 respectively connected with two ends of the torsion spring connecting rod 10, and two torsion springs 12 respectively arranged at the end parts of the two rotating shaft force arms 11. The two torsion springs 12 are sleeved on the first rotating shaft 8, and the torsion spring connecting rod 10 is positioned above the metal elastic sheet 3 and generates downward restoring force to the metal elastic sheet 3. The metal pressing plate 5 includes a rotating portion 13 rotatably fixed to the rotary support base, and an indirect pressing portion 14 and a direct pressing portion 15 provided at both ends of the rotating portion 13. The direct pressing portion 15 abuts against the pressing cap 2. The indirect pressing part 14 comprises a first hook-like formation 16 in the middle and two second hook-like formations 17 on either side of the first hook-like formation 16. The two second hook formations 17 are higher than the first hook formations 16. The two second hook structures 17 are used for correspondingly clamping the torsion spring connecting rod 10. The first hook-shaped structure 16 is located below the metal elastic sheet 3, and the first hook-shaped structure 16 contacts the metal elastic sheet 3 and pushes the metal elastic sheet upwards along with the downward pressing of the indirect pressing part 14.

In the present invention, the first hook-shaped structure 16 and the second hook-shaped structure 17 have a height difference (the height here refers to the height of the upper end surface of the first hook-shaped structure 16 and the second hook-shaped structure 17), which functions as: when the metal pressing plate 5 is pressed, the second hook-shaped structures 16 on the left and right sides can first contact the torsion spring element 7 and push the torsion spring element 7 up. In this embodiment the two second hook formations 17 are 2-5mm higher than the first hook formations 16.

In the present invention, the length of the two second hook structures 17 is longer than the length of the first hook structure 16 (the length here refers to the length of the first and second hook structures 16, 17 protruding outward at the end of the indirect pressing part). In the invention, the first hook-shaped structure and the second hook-shaped structure have a length difference, and the functions are as follows: in the pressing process, the second hook-shaped structures on the two sides are longer than the first hook-shaped structures, so that the torsion spring piece can be effectively prevented from sliding outwards in the movement process; the middle first hook-shaped structure is shorter than the second hook-shaped structure, the middle first hook-shaped structure can be directly propped against the tail end of the metal elastic sheet of the self-generating module, the metal elastic sheet is slightly deformed in the pressing process, certain energy can be generated, and the generating capacity can be effectively increased. In this embodiment, the length of the first hook structure is 1/4-3/4 of the length of the second hook structure.

The metal pressing plate pushes up from bottom to top after being pressed, the second hook-shaped structure pushes the spring connecting rod up, the self-generating module metal elastic sheet is placed in a state without external resistance, and then the first hook-shaped structure pushes the metal elastic sheet to an upper limiting state from a lower limiting state. Since the power generation amount of the self-generating module is time-dependent, the shorter the time is, the higher the power generation amount is within a certain range. When the self-generating module is in a state without external resistance, the metal elastic sheet of the self-generating module can rapidly move from one end of the polarity to the other end of the polarity, the self-generating module can generate stable electric quantity, and the output voltage is high and stable.

The torsion spring member is preferably of a U-shaped configuration.

The first rotating shaft 8 is two cylindrical mounting shafts fixed on two sides of the limiting seat 6.

The two sides of the limiting seat 6 are respectively provided with a torsion spring limiting buckle 18, and the torsion spring limiting buckle 18 comprises a notch 19 for accommodating the rotating shaft force arm 11, an upper limiting groove 20 and a lower limiting groove 21. The two rotating shaft force arms 11 are respectively arranged in the torsion spring limit buckles 18 at the two sides of the limit seat 6.

The rotating portion 13 is rotatably mounted on the rotary support base 9 by a cylindrical roller 22. The cylindrical roller 22 is preferably a metal cylindrical roller. The metal pressing plate 5 and the cylindrical roller 22 move in a rolling friction manner, are both made of metal, and have small movement friction resistance, low abrasion degree and long service life.

The position of the rotating portion 13 on the metal pressing plate 5 is adjustable. The metal pressing plate 5 adopts a lever structure, the position of the rotating part 13 can be flexibly adjusted, and the effect of flexibly adjusting the pressing pressure and saving labor can be achieved by adjusting the distance from the two ends of the lever to the supporting point (rotating part).

The rotary supporting seat 9 is provided with two clamping seats 23 which are symmetrically arranged and used for clamping the cylindrical roller. More preferably, the two ends of the clamping seat 23 are closed at the same height of the outer end surface of the cylindrical roller, so as to prevent the cylindrical roller from sliding outwards.

The metal pressing plate 5 is provided with an imprint 24. The shape of impression 24 can set up at will, and impression 24 can play the effect of strengthening the intensity and the deformability of metal pressing plate, increases life.

The number of the press covers 2 is 1-3.

The inside cover of base 1 is equipped with waterproof protection film 25, is equipped with clamp plate lid 26 on the waterproof protection film 25.

The working principle of the invention is as follows:

(1) initial state: the torsion spring part is extruded to a certain degree and has a certain rotating force (restoring force) to restore deformation, so that the torsion spring part generates a downward movement trend to enable the metal elastic sheet of the self-generating module to move to a lower limiting initial state. At the moment, the rotating force arm of the torsion spring part is clamped into the lower limiting groove and is limited by the lower limiting groove.

(2) The working state is as follows: the user presses down the press cover, makes press the press cover downstream, presses the press cover and directly presses the splenium butt to make directly pressing the splenium downstream, press splenium upward movement indirectly simultaneously, the metal presses the pressing plate to pass through lever structure's effect, makes the indirect second hook-like structure and the first hook-like structure upward movement who presses the splenium, thereby promotes in proper order and twists reverse the spring part and the metal shrapnel upward movement who generates electricity the module comes to the upper limit. At the moment, the metal elastic sheet of the self-generating module is limited upwards, and can generate electric quantity to provide a working signal for sending.

(3) And (3) recovering the state: the torsion spring part is fully compressed in the working state, and when a user releases the pressing cover, the restoring force of the torsion spring part restores the metal elastic sheet to the lower limit initial state.

Compared with the prior art, the invention has the following beneficial effects:

the invention adopts the design of three hook-shaped structures with height difference and length difference in the metal pressing plate, can stably generate enough working voltage, and has high and stable generating voltage.

The invention has simple structure, small occupied space and capability of reducing the design difficulty and the limit of the internal structure in a limited way, and each part can be designed in a module combination way.

The metal pressing plate adopts a lever structure to adjust the distance between the force arms at the left side and the right side, so that the effects of flexibly adjusting force and saving labor can be achieved, and the pressing force of a user using a switch is reduced. The process of generating electricity by pressing in the lever pressing structure adopts two metal parts of a metal pressing plate and a cylindrical rolling shaft to rotate, the friction mode of motion is rolling friction, the resistance is small, and the service life is long.

The wireless self-generating device has a simple structure and strong practicability, can provide reference significance for devices and devices similar to wireless self-generating work, and is easy to popularize and convert into economic value.

The technical solutions provided by the embodiments of the present invention are described in detail above, and the principles and embodiments of the present invention are explained herein by using specific examples, and the descriptions of the embodiments are only used to help understanding the principles of the embodiments of the present invention; meanwhile, for a person skilled in the art, according to the embodiments of the present invention, there may be variations in the specific implementation manners and application ranges, and in summary, the content of the present description should not be construed as a limitation to the present invention.

Claims (10)

1. A wireless self-generating switch with a reset function comprises a base, a pressing cover buckled on the base, a self-generating module with a metal elastic sheet and a metal pressing plate; the base is internally provided with a limiting seat for fixing the self-generating module, a torsion spring part, a first rotating shaft for fixing the torsion spring part and a rotary supporting seat for fixing the metal pressing plate; the torsion spring part comprises a torsion spring connecting rod, two rotating shaft force arms respectively connected with two ends of the torsion spring connecting rod, and two torsion springs respectively arranged at the end parts of the two rotating shaft force arms, the two torsion springs are sleeved on the first rotating shaft, and the torsion spring connecting rod is positioned above the metal elastic piece and generates downward restoring force to the metal elastic piece; the metal pressing plate comprises a rotating part which is rotatably fixed on the rotating support seat, an indirect pressing part and a direct pressing part which are arranged at two ends of the rotating part, and the direct pressing part is abutted against the pressing cover; the indirect pressing part is characterized by comprising a first hook-shaped structure positioned in the middle and two second hook-shaped structures positioned on two sides of the first hook-shaped structure, wherein the two second hook-shaped structures are higher than the first hook-shaped structure; the two second hook-shaped structures are correspondingly clamped with the torsion spring connecting rod; the first hook-shaped structure is positioned below the metal elastic sheet, and the first hook-shaped structure is contacted with the metal elastic sheet along with the downward pressing of the indirect pressing part and pushes the metal elastic sheet upwards.

2. The wireless self-generating switch with the reset function as claimed in claim 1, wherein the torsion spring member is of a U-shaped structure.

3. The wireless self-generating switch with the reset function according to claim 1, wherein the first rotating shaft is two cylindrical mounting shafts fixed on two sides of the limiting seat.

4. The wireless self-generating switch with the reset function according to claim 1, wherein two sides of the limit seat are respectively provided with a torsion spring limit buckle, and the torsion spring limit buckle comprises a notch for accommodating the entry of a torsion spring connecting rod, an upper limit groove and a lower limit groove.

5. The wireless self-generating switch with the reset function according to claim 4, wherein the two rotating shaft force arms are respectively arranged in the torsion spring limit buckles at two sides of the limit seat.

6. The wireless self-generating switch with the reset function according to claim 1, wherein the rotating part is rotatably mounted on the rotary support base through a cylindrical roller.

7. The wireless self-generating switch with the reset function according to claim 1, wherein the position of the rotating part on the metal pressing plate is adjustable.

8. The wireless self-generating switch with reset function as claimed in claim 1, wherein the two second hook-like structures have a length longer than that of the first hook-like structure.

9. The wireless self-generating switch with the reset function according to claim 1, wherein the metal pressing plate is provided with a stamp.

10. The wireless self-generating switch with the reset function according to claim 1, wherein the number of the pressing covers is 1-3.

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