CN213752492U - Two-way push kinetic energy switch - Google Patents

Abstract

The utility model relates to the technical field of switches, and discloses a two-way pressing kinetic energy switch, which comprises a base plate, wherein the base plate is provided with a circuit board and two kinetic energy coils, and each kinetic energy coil is provided with a kinetic energy sheet; a movable plate moving up and down and a key frame are arranged above the base plate, a key slot is formed in the top of the key frame, a key is arranged in the key slot, and the middle of the key is hinged with the key frame; the two ends of the key form pressing ends, the bottom of each pressing end is connected with a pressing block, the middle of each pressing block is hinged with the key end, one end of each pressing block is provided with a pressing end which presses the movable plate downwards and presses the kinetic energy piece downwards, and the bottom of each pressing key groove is provided with a through hole for the pressing end to pass through; the user presses the pressing end of the key downwards, the pressing block moves downwards along with the pressing end, the pressing end of the pressing block presses the moving plate to move downwards, the moving plate presses the kinetic energy sheet of the kinetic energy coil, the kinetic energy coil generates electricity instantly, and the key is provided with two pressing ends, so that the user can press the key in two directions.

Description

Two-way push kinetic energy switch

Technical Field

The patent of the utility model relates to a technical field of switch particularly, relates to kinetic energy switch of two-way pressing.

Background

When the switch is switched on, the common electrical elements in the life can control the electrical appliance to be powered on or powered off through the switch, so that the effect of controlling the working state of the electrical appliance is realized.

At present, when the switch is required to be arranged, operations such as buried wire arrangement and the like are required, and the switch is connected with power supply wiring, so that not only is construction troublesome, but also inconvenience is caused to follow-up rearrangement, maintenance and the like of the buried wire. Therefore, a kinetic energy switch appears in the market at present, and can be pressed by swinging the button 900 to convert instantaneous kinetic energy into electric energy, so that the electric energy is utilized to excite a control signal, and a controller on an electric appliance is driven by the control signal to control the working state of the electric appliance.

In the prior art, the kinetic energy switch can only be pressed in a single direction, so that the control state of the kinetic energy switch cannot be distinguished from the appearance of the kinetic energy switch, namely whether the kinetic energy switch is in a starting state or not, and therefore the current electric energy switch is small in application range and cannot meet requirements.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a kinetic energy switch of two-way pressing aims at solving prior art, and kinetic energy switch can only realize the problem of one-way pressing.

The utility model discloses a realize like this, two-way kinetic energy switch of pressing, including the bed plate, be provided with the circuit board on the bed plate and two kinetic energy coils that convert kinetic energy into electric energy, kinetic energy coil has the kinetic energy piece, two kinetic energy pieces of kinetic energy coil deviate from each other and arrange; a movable plate moving up and down and a key frame are arranged above the base plate, a key slot is formed in the top of the key frame, keys with two ends swinging up and down are arranged in the key slot, and the middle of each key is hinged with the key frame; the two ends of the key form pressing ends, the bottom of each pressing end is connected with a pressing block, the middle of each pressing block is hinged to the corresponding key end, one end of each pressing block is provided with a pressing end, downwards, of a downwards pressing moving plate, of each kinetic energy piece, and the bottom of each pressing key groove is provided with a through hole, through which the pressing end penetrates.

Further, the driving end of the other end of the pressing block is located in the key pressing groove and is arranged in a mode of deviating from the through hole; when the driving end is pressed against the bottom of the key pressing groove downwards, the pressing block rotates, the pressing end swings upwards, and the pressing end is separated from the abutting connection with the moving plate.

Further, be provided with the torsional spring on the bed plate, the bottom fixed arrangement of torsional spring, the top butt of torsional spring is in the bottom of movable plate.

Further, the articulated section of arranging in middle part of torsional spring, extend section and lower extension on the torsional spring, it arranges with lower extension syntropy bending to extend the section, the bottom fixed arrangement of lower extension, the top butt that extends the section is in the bottom of movable plate.

Furthermore, the middle part of the moving plate is hinged, the moving plate is provided with an inner side part which faces the kinetic energy coil and is provided with a pressing end for pressing and downwards moving and pressing the kinetic energy sheet, and the inner side part is positioned above the kinetic energy sheet of the kinetic energy coil.

Further, the circuit board is fixed on the base plate, the base plate is provided with a fixed seat, the kinetic energy coil is fixed in the fixed seat, a hollow area is arranged in the circuit board, and the kinetic energy coil penetrates through the hollow area and is exposed above the circuit board.

Furthermore, a concave cavity with an opening at the lower part is arranged at the bottom of the key frame, the circuit board, the moving plate and the kinetic energy coil are arranged in the concave cavity,

further, the middle part of button bottom is provided with the butt post that extends down and arrange, be equipped with the crooked board on the bed plate, the middle part of crooked board is articulated to be arranged, the both sides of crooked board stick up, form the side wane, the bottom butt of butt post is in the middle part of crooked board.

Furthermore, the middle part of button bottom is provided with a butt section of thick bamboo, be provided with the middle part spring in the butt section of thick bamboo, the top and the middle part spring fixed connection of butt post.

Furthermore, the pressing block is provided with a convex column extending upwards, and the convex column deviates from the middle part of the pressing block and is arranged close to the pressing end; the convex column is connected with an inclined spring, the top of the inclined spring is connected to the bottom of the pressing end, and the convex column is obliquely arranged towards the middle of the pressing block along the direction from bottom to top.

Compared with the prior art, the utility model provides a kinetic energy switch, user are through pressing down the end of pressing down of button, and the briquetting moves down thereupon, and the end of pressing down of briquetting supports and presses the movable plate and move down for the movable plate supports the kinetic energy piece of pressing the kinetic energy coil, thereby the kinetic energy coil realizes generating electricity in the twinkling of an eye, because the button has two ends of pressing down, and the user can realize pressing down to the two-way of button.

Drawings

Fig. 1 is a schematic perspective exploded view of a kinetic energy switch provided by the present invention;

fig. 2 is a partial perspective view of the kinetic energy switch provided by the present invention;

fig. 3 is a schematic diagram of the cutting of the kinetic energy switch provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

Referring to fig. 1-3, the preferred embodiment of the present invention is shown.

The two-way pressing kinetic energy switch comprises a base plate 100, wherein a circuit board 300 and two kinetic energy coils 400 for converting kinetic energy into electric energy are arranged on the base plate 100, each kinetic energy coil 400 is provided with kinetic energy sheets 401, and the kinetic energy sheets 401 of the two kinetic energy coils 400 are arranged oppositely; the circuit board 300 serves as a control center of the power switch, the kinetic energy coil 400 is a conventional device in the prior art, and the kinetic energy coil 400 converts the kinetic energy of the kinetic energy piece 401 into electric energy by pressing the kinetic energy piece 401.

The movable plate 500 and the key frame 600 which move up and down are arranged above the base plate 100, the top of the key frame 600 is provided with a key slot, the key slot is internally provided with a key 900 with two ends swinging up and down, the middle part of the key 900 is hinged with the key frame 600, and thus, the two ends of the key 900 swing up and down by taking the middle part as a swinging center.

The both ends of button 900 form the end of pressing, and the bottom of pressing the end is connected with suppression piece 700, and the middle part and the button 900 end of suppression piece 700 are articulated, and the one end of suppression piece 700 is provided with the end 701 that supports down to press movable plate 500 to support down to press kinetic energy piece 401, presses the bottom of keyway to be provided with the confession and supports passing of pressing end 701 and pass the hole.

According to the bidirectional-pressing kinetic energy switch, a user presses the pressing end of the key 900 downwards, the pressing block 700 moves downwards along with the pressing end, the pressing end 701 of the pressing block 700 presses the moving plate 500 to move downwards, the moving plate 500 presses the kinetic energy sheet 401 of the kinetic energy coil 400, and therefore the kinetic energy coil 400 generates electricity instantly, and the key 900 is provided with two pressing ends, so that the user can press the key 900 bidirectionally.

The other end of the pressing block 700 is provided with a driving end 702, and the driving end 702 is positioned in the key slot and is arranged in a way of deviating from the through hole; when the driving end 702 presses downward against the bottom of the key slot, the pressing block 700 rotates, the pressing end 701 swings upward, and the pressing end 701 is separated from the abutment against the moving plate 500.

Thus, when the user presses the pressing end of the key 900 to move downward, the pressing end 701 of the pressing block 700 abuts against the moving plate 500 to move downward until the driving end 702 of the pressing block 700 abuts against the bottom of the key slot, and due to the limitation of the bottom of the key slot, when the pressing end continues to be pressed downward, the driving end 702 drives the pressing block 700 to swing, and the pressing end 701 of the pressing block 700 swings upward to separate from the abutting against the moving plate 500.

The base plate 100 is provided with a torsion spring 200, the bottom of the torsion spring 200 is fixedly arranged, and the top of the torsion spring 200 abuts against the bottom of the moving plate 500. When the moving plate 500 moves downward, the moving plate 500 presses the torsion spring 200 to deform, and when the pressing end 701 of the pressing block 700 is disengaged from the pressing end of the moving plate 500, the torsion spring 200 drives the moving plate 500 to move upward to reset.

The middle part of the moving plate 500 is hinged, the moving plate 500 has an inner side part facing the kinetic energy coil 400 and used for the pressing end 701 to press the kinetic energy sheet 401 moving downwards, and the inner side part is located above the kinetic energy sheet 401 of the kinetic energy coil 400.

The middle part of torsional spring 200 is articulated to be arranged, and extension and lower extension are gone up to torsional spring 200, and the extension is arranged with lower extension syntropy bending, and the bottom of lower extension is fixed to be arranged, and the top butt of the extension is in the bottom of movable plate 500. The bending deformation and the restoration of the torsion spring 200 can be facilitated by providing the upper extension section and the lower extension section which are arranged in a same-direction bending manner.

The circuit board 300 is fixed on the base plate 100, the fixing seat 101 is disposed on the base plate 100, the kinetic energy coil 400 is fixed in the fixing seat 101, a hollow area is disposed in the circuit board 300, and the kinetic energy coil 400 passes through the hollow area and is exposed above the circuit board 300. In this way, the arrangement of the kinetic coil 400 and the circuit board 300 is facilitated, and the volume of the kinetic switch is saved.

The bottom of the key frame 600 is provided with a cavity 601 opened at the lower portion, the circuit board 300, the moving plate 500 and the kinetic energy coil 400 are placed in the cavity 601,

the middle part of button 900 bottom is provided with the butt post 802 that extends the arrangement downwards, is equipped with crooked board 801 on the bed plate 100, and the middle part of crooked board 801 articulates and arranges, and the both sides of crooked board 801 are upwarped upwards, forms the side wane, and the bottom butt of butt post 802 is in the middle part of crooked board 801.

Thus, when the pressing end of the key 900 swings up and down, the bottom of the abutting column 802 swings along with the pressing end, and the bottom of the abutting portion directly moves on the two side warping plates along with the bottom of the abutting portion, so that the pressing swing of the key 900 is facilitated by the bending plate 801.

The middle part of the bottom of the key 900 is provided with a butting cylinder 803, a middle spring 804 is arranged in the butting cylinder 803, and the top of the butting column 802 is fixedly connected with the middle spring 804. Like this, the butt post 802 can reciprocate for a butt section of thick bamboo 803, realizes the concertina action, and like this, button 900 is at the wobbling in-process, and the transition is more steady, and the end of pressing of button 900 presses down the back, is convenient for press the firm of state.

The pressing block 700 is provided with a convex column 703 extending upwards, the convex column 703 deviates from the middle of the pressing block 700 and is arranged close to the pressing end 701, the convex column 703 is connected with an inclined spring 704, and the top of the inclined spring 704 is connected to the bottom of the pressing end, so that by the arrangement of the convex column 703 and the inclined spring 704, when the driving end 702 of the pressing block 700 abuts against the bottom of the pressing key groove, the pressing block 700 is driven to rotate conveniently, and the pressing end 701 of the pressing block 700 is separated from abutting against the moving plate 500.

In this embodiment, along the direction from bottom to top, the protruding pillar 703 is obliquely disposed toward the middle of the pressing block 700, and meanwhile, the inclined spring 704 is obliquely disposed in the same direction as the protruding pillar 703, so that the inclined spring 704 drives the pressing block 700 to rotate more conveniently, and after the pressing end of the key 900 moves upward, the inclined spring 704 drives the pressing block 700 to rotate reversely and reset.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The two-way pressing kinetic energy switch is characterized by comprising a base plate, wherein a circuit board and two kinetic energy coils for converting kinetic energy into electric energy are arranged on the base plate, each kinetic energy coil is provided with a kinetic energy sheet, and the kinetic energy sheets of the two kinetic energy coils are arranged in a deviating manner; a movable plate moving up and down and a key frame are arranged above the base plate, a key slot is formed in the top of the key frame, keys with two ends swinging up and down are arranged in the key slot, and the middle of each key is hinged with the key frame; the two ends of the key form pressing ends, the bottom of each pressing end is connected with a pressing block, the middle of each pressing block is hinged to the corresponding pressing end, one end of each pressing block is provided with a downward pressing moving plate to enable the moving plate to downward press the pressing end of the kinetic energy sheet, and the bottom of each pressing key groove is provided with a through hole for the pressing end to penetrate through.

2. A bi-directionally depressible kinetic switch as claimed in claim 1, wherein said other end of said pressing block is provided with a driving end, said driving end being located in said key slot and disposed offset from said through hole; when the driving end is pressed against the bottom of the key pressing groove downwards, the pressing block rotates, the pressing end swings upwards, and the pressing end is separated from the abutting connection with the moving plate.

3. A bi-directionally compressible kinetic energy switch as claimed in claim 1, wherein a torsion spring is disposed on said base plate, a bottom portion of said torsion spring is fixedly disposed, and a top portion of said torsion spring abuts against a bottom portion of said moving plate.

4. A bi-directional pressure kinetic switch as set forth in claim 3 wherein the middle portion of the torsion spring is hingedly disposed, the torsion spring has an upper extension and a lower extension, the upper extension is co-directionally bent with the lower extension, the bottom of the lower extension is fixedly disposed, and the top of the upper extension abuts against the bottom of the moving plate.

5. A bidirectionally-depressible kinetic switch of any of claims 1 to 4, wherein said moving plate is hingedly disposed at a middle portion thereof, said moving plate having an inner side portion disposed toward said kinetic coil and biased by said biasing end to move downward to bias said kinetic energy piece, said inner side portion being located above said kinetic energy piece of said kinetic coil.

6. A bi-directional pressure kinetic switch as claimed in any of claims 1 to 4 wherein the circuit board is fixed on a base plate, the base plate is provided with a fixing seat, the kinetic coil is fixed in the fixing seat, the circuit board is provided with a hollow area, and the kinetic coil passes through the hollow area and is exposed above the circuit board.

7. A bidirectionally-depressible kinetic switch of any of claims 1 to 4, wherein the bottom of said button frame is provided with a cavity open at the lower part, said circuit board, moving plate and kinetic coil being disposed in said cavity.

8. A bi-directional pressing kinetic energy switch as claimed in any one of claims 1 to 4, wherein the middle of the bottom of the button is provided with a downward extending abutment column, the base plate is provided with a bending plate, the middle of the bending plate is hinged, two sides of the bending plate are tilted upward to form a side tilting plate, and the bottom of the abutment column abuts against the middle of the bending plate.

9. A bi-directional pressure kinetic switch as recited in claim 8 wherein said push button has a middle portion with a middle spring, and a bottom portion of said push button has a middle portion with a middle spring, and the top portion of said contact post is fixedly connected to said middle spring.

10. A bi-directionally depressible kinetic switch as claimed in claim 9, wherein said pressing block is provided with an upwardly extending boss, said boss being offset from a middle portion of said pressing block and disposed proximate to said pressing end; the convex column is connected with an inclined spring, the top of the inclined spring is connected to the bottom of the pressing end, and the convex column is obliquely arranged towards the middle of the pressing block along the direction from bottom to top.

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