CN218730552U - Vibration feedback switch and battery - Google Patents

Abstract

The utility model provides a vibrations feedback switch and battery, it including: a structural member; the touch plate is made of hard materials and is arranged on the structural member; the first end of the spring is abutted against the touch plate, and the second end of the spring is arranged on the structural part; a sensor; the sensor can sense the vibration of the spring and transmit a signal to the vibration assembly so as to control the vibration assembly to output vibration. The touch panel made of hard materials has the functions of a button and a lamp sticker of a traditional vibration switch, can avoid damage possibly caused by long-term pressing or sharp objects, so that waterproof failure caused by damage of the touch panel is prevented, the touch panel is better in durability, the service life of a product can be effectively prolonged, and the touch panel can be used as the button to transmit a touch signal of a user; after a user touches the touch movable plate, the sensor senses the vibration of the spring and transmits a signal to control the vibration assembly to vibrate, and the device is high in response sensitivity and accuracy.

Description

Vibration feedback switch and battery

Technical Field

The utility model relates to a vibrations feedback switch and battery.

Background

The switch button structure is used as an important component for controlling the on-off of current and has extremely wide application on a lithium battery of a bicycle. Chinese patent publication No. CN213070956U discloses a battery power display and switch integrated module, in which a switch button structure uses a mechanical switch as a control element, and a soft PC sticker is covered on the surface of the switch button structure to realize a waterproof function, the mechanical switch is limited by the mechanical structure and is easily damaged in long-term use, and the sticker on the surface is easily damaged, so that the battery control function and the waterproof function are completely disabled, which results in poor product experience and even safety accidents; chinese patent application (publication No. CN 114379477A) discloses a touch vibration switch, which has a complex structure, a small pressing contact area, and low pressing accuracy.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a vibrations feedback switch and battery in order to overcome the defect that the switch is waterproof easily became invalid among the prior art.

The utility model discloses an above-mentioned technical problem is solved through following technical scheme: a vibrating feedback switch, comprising:

a structural member;

the touch plate is made of hard materials and is arranged on the structural member;

one end of the spring is abutted against the touch plate, and the other end of the spring is installed on the structural part;

a sensor;

the sensor can sense the vibration of the spring and transmit a signal to the vibration assembly so as to control the vibration assembly to output vibration.

In the scheme, the touch panel made of hard materials is adopted, has the functions of a button and a lamp sticker of a traditional vibration switch, can avoid damage possibly caused by long-term pressing or sharp objects, so that waterproof failure caused by damage of the touch panel is prevented, the touch panel is better in durability, the service life of a product can be effectively prolonged, and the touch panel can be used as the button to transmit a touch signal of a user; after a user touches the touch movable plate, the sensor senses the vibration of the spring and transmits a signal to control the vibration assembly to vibrate, the reaction sensitivity is higher, the accuracy is high, the vibration assembly vibrates to simulate the pressing hand feeling of the mechanical switch, the virtual pressing is avoided, and the structure is simpler.

Preferably, the diameter of the first end of the spring to the second end of the spring is gradually reduced.

In this scheme, this structure setting, the diameter of spring sets up to the convergent, has increased the area of contact of touch board and spring, presses down the touch board back at the user, and the spring can transmit the vibration better, and the vibration is stronger for the less second end of spring diameter, and the sensor is the perception vibration more easily, improvement sensitivity.

Preferably, the touch plate is provided with a touch mark, the touch mark is positioned on the end face of the touch plate away from the spring, and the position of the touch mark on the touch plate corresponds to the position of the spring.

In this scheme, this structural setting, the user of being convenient for accurately touches corresponding position, improves the vibration of spring to improve the sensitivity of switch.

Preferably, the structural member is provided with a mounting hole, the inner diameter of the mounting hole is matched with the outer diameter of the spring, and the spring passes through the mounting hole.

In this scheme, this structural setting, with spring mounting in the mounting hole, the degree of freedom of spring along circumference has been restricted to the mounting hole, prevents that the switch from leading to the position of spring to take place the skew after vibrations many times, guarantees that the position of spring is corresponding with the position of touching the mark.

Preferably, the vibration feedback switch further comprises a lamp panel, the touch plate and the lamp panel are respectively located on two sides of the structural member, the spring is fixed on the lamp panel, and the lamp panel is installed on the structural member.

In this scheme, this structural setting, the space of make full use of structure both sides, the structure is simpler, and is whole compacter, and the uniformity is good.

Preferably, the structural member has a clamping groove, and the lamp panel is clamped in the clamping groove and seals the mounting hole.

In the scheme, the lamp panel and the clamping groove have a second-layer waterproof effect, so that water or dust and the like cannot enter from the mounting hole due to the sealing connection of the lamp panel and the clamping groove even if the touch pad is damaged, and the waterproof and dustproof effects are further improved; in addition, through the mode of card establishing, be convenient for install the lamp plate on the structure, because the limiting displacement of draw-in groove is convenient for install the lamp plate to corresponding the position, make spring and mounting hole align, improve installation and dismantlement efficiency.

Preferably, the clamping groove of the structural member is formed at a side of the structural member close to the touch plate.

In this scheme, this structure setting, the lamp plate is installed and is more close to the touch panel behind the draw-in groove, can shorten the length of spring, and the user is when the touch panel, and the vibration of spring is detected by the sensor more easily, and the reaction sensitivity of switch is higher, because spring length shortens moreover, and its position is fixed more easily for whole compacter.

Preferably, the lamp panel is provided with an indicator light, the structural member is provided with a through hole, the touch plate is provided with a transparent area, and the through hole and the transparent area correspond to the indicator light in position.

In this scheme, this structural setting, the pilot lamp can be through the light indication electric quantity signal that through-hole and transparent district output correspond to give the feedback when touching the touch panel, the reaction is more sensitive, and pilot lamp and through-hole surface are covered by the touch panel, and the touch panel can play the guard action to the pilot lamp, improves the durability.

Preferably, the vibration assembly is installed on the lamp panel.

In this scheme, this structural setting, the vibrations of vibrations subassembly output can transmit to touching the board and transmit to touching the board through the structure through the spring simultaneously, improves vibrations output effect, makes the user can experience stronger vibrations and feels, improves the reliability.

Preferably, the touch plate is made of acrylic or polycarbonate.

The utility model also discloses a battery, it includes foretell vibrations feedback switch, vibrations feedback switch is located the side of battery, touch the board expose in the battery.

In this scheme, this structural setting, the user touch switch of being convenient for makes the operation more convenient, and the side department does not generally regard as atress department, avoids the mistake touching.

The utility model discloses an actively advance the effect and lie in: the touch plate made of hard materials is adopted, so that the damage possibly caused by long-term pressing or sharp objects is avoided, the waterproof failure caused by the damage of the touch plate is avoided, the durability is better, and the service life of the product can be effectively prolonged; after a user touches the touch movable plate, the sensor senses the vibration of the spring and transmits a signal to control the vibration component to vibrate, the response sensitivity is higher, the accuracy is high, the vibration of the vibration component is utilized to simulate the pressing hand feeling of the mechanical switch, the virtual pressing is avoided, and the structure is simpler; the indicating lamp can output corresponding light through the through hole and the transparent area to indicate an electric quantity signal and give feedback when the touch control panel is touched, the response is more sensitive, the surfaces of the indicating lamp and the through hole are both covered by the touch control panel, and the touch control panel can protect the indicating lamp and improve the durability; the touch board only sets up corresponding hole in spring and pilot lamp department, and the lamp plate card is established in the recess and is close to the touch-control board, and lamp plate and draw-in groove have second floor water-proof effects, even the touch pad damages, because the sealing connection of lamp plate and draw-in groove, water or dust etc. can't get into from the mounting hole, can further improve waterproof and dustproof effect.

Drawings

Fig. 1 is a perspective assembly view of a vibration feedback switch according to embodiment 1 of the present invention.

Fig. 2 is a schematic structural view of a structural member and a touch plate of a vibration feedback switch according to embodiment 1 of the present invention.

Fig. 3 the utility model discloses the three-dimensional assembly drawing of vibration feedback switch's lamp plate.

Fig. 4 the utility model discloses the structure of vibration feedback switch's structure and lamp plate is schematically illustrated.

Fig. 5 is a schematic structural diagram of a battery and a vibration feedback switch according to embodiment 2 of the present invention.

Fig. 6 is a schematic view of an internal partial structure of a battery according to embodiment 2 of the present invention.

Description of the reference numerals

Structural component 1

Mounting hole 11

Through-hole 12

Card slot 13

Mounting area 14

Touch plate 2

Touch mark 21

Transparent region 22

Lamp panel 3

Indicator light 31

Spring 4

Vibrating assembly 5

Battery 6

Fixing rib 61

Detailed Description

The present invention will be more clearly and completely described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1-4, the present embodiment discloses a vibration feedback switch, which includes: a structural member 1; the touch plate 2 is made of hard materials, and the touch plate 2 is arranged on the structural member 1; a spring 4, wherein a first end of the spring 4 is abutted against the touch plate 2, and a second end of the spring 4 is installed on the structural member 1; a sensor; and the sensor can sense the vibration of the spring 4 and transmit a signal to the vibration assembly 5 so as to control the vibration assembly 5 to output vibration.

In the embodiment, the touch panel 2 made of hard material is adopted, and the touch panel 2 has the functions of a button and a lamp sticker of a traditional vibration switch, so that damage possibly caused by long-term pressing or sharp objects can be avoided, waterproof failure caused by damage of the touch panel is prevented, the touch panel is better in durability, the service life of a product can be effectively prolonged, and the touch panel can be used as the button to transmit a touch signal of a user; after the user touches the touch movable plate 2, the sensor feels the vibration of spring 4 and transmits the signal to control vibrations subassembly 5 and shake, and reaction sensitivity is higher, and the degree of accuracy is high, utilizes vibrations subassembly 5 to shake to simulate mechanical switch's the pressure and feel, avoids virtual pressing, and the structure is simpler.

Specifically, in this embodiment, the vibration component 5 includes a vibration motor and a motor (not shown in the figure), and after receiving a corresponding signal from the sensor, the motor can be driven by the motor to vibrate, and the working principles of signal transmission and control between the sensor and the motor control and vibration output by the motor are the prior art and are not described herein; the touch plate 2 is made of acrylic material, and an acrylic plate is adopted in this embodiment, however, in other alternative embodiments, the touch plate 2 may also be made of polycarbonate material, that is, a plate-shaped component made of polycarbonate.

In this embodiment, the diameter of the first end of the spring 4 to the second end of the spring 4 is gradually reduced. Due to the arrangement of the structure, the contact area between the touch plate 2 and the spring 4 is increased, and after a user presses the touch plate 2, the spring 4 can better transmit vibration, so that the sensitivity is improved; specifically, in this embodiment, the sensor detects the vibration of the second end of the spring 4, and since the diameter of the second end of the spring 4 is smaller, the vibration is stronger, and the sensor senses the vibration more easily, thereby improving the sensitivity.

As shown in fig. 1 and 2, the touch plate 2 has a touch mark 21, the touch mark 21 is located on the end surface of the touch plate 2 away from the spring 4, and the position of the touch mark 21 on the touch plate 2 corresponds to the position of the spring 4. The touch mark 21 is convenient for a user to touch the corresponding position accurately, so that the vibration of the spring 4 is improved, and the sensitivity of the switch is improved. Of course, in other alternative embodiments, the touch mark 21 may not be provided, and the spring 4 may also generate certain vibration when touched by the user at other positions on the touch panel 2.

As shown in fig. 1, the structural member 1 is provided with a mounting hole 11, the inner diameter of the mounting hole 11 matches with the outer diameter of the spring 4, and the spring 4 passes through the mounting hole 11. The spring 4 is installed in the installation hole 11, the installation hole 11 limits the freedom degree of the spring 4 along the circumferential direction, the position of the spring 4 is prevented from being deviated after the switch vibrates for multiple times, and the position of the spring 4 is ensured to correspond to the position of the touch mark 21. Of course, in other alternative embodiments, the mounting hole 11 may not be provided, i.e. the spring 4 may be mounted on a side or end surface of the structural member 1.

As shown in fig. 1, the vibration feedback switch further comprises a lamp panel 3, the touch plate 2 and the lamp panel 3 are respectively located on two sides of the structural member 1, the spring 4 is fixed on the lamp panel 3, and the lamp panel 3 is installed on the structural member 1. The structure is arranged, the spaces on two sides of the structural member 1 are fully utilized, the structure is simpler, the whole structure is more compact, and the consistency is good. Of course, in other alternative embodiments, the lamp panel 3 and the touch panel 2 may also be installed on the same side of the structural member 1, that is, the lamp panel 3 is fixed on the end surface of the structural member 1, the spring 4 does not penetrate through the structural member 1, and the touch panel 2 is installed on the lamp panel 3 or the structural member 1 and is abutted against the spring 4.

As shown in fig. 1, the structural member 1 has a slot 13, and the lamp panel 3 is clamped in the slot 13 and seals the mounting hole 11. Through the mode that the card was established, be convenient for install lamp plate 3 on structure 1, because draw-in groove 13's limiting displacement, be convenient for install lamp plate 3 to corresponding the position, make spring 4 and mounting hole 11 align, improve the installation and dismantle efficiency. Of course, in other alternative embodiments, the fastening slot 13 may not be provided, and the lamp panel 3 may be fixed to the structural member 1 by bolts.

In this embodiment, the lamp panel 3 and the card slot 13 have a second layer of waterproof effect, so that even if the touch plate 2 is damaged, water or dust cannot enter from the mounting hole 11 due to the sealed connection between the lamp panel 3 and the card slot 13, and the waterproof and dustproof effects are further improved; the structural member 1 is also provided with an alarm sensor (not shown in the figure) for detecting water entering, and after water enters through the touch plate 2, the alarm sensor outputs an alarm signal to prompt that the touch plate 2 is damaged. As shown in fig. 1, the locking slot 13 is opened on a side of the structural member 1 adjacent to the touch plate 2. This structure sets up, and lamp plate 3 installs and more be close to touch panel 2 behind draw-in groove 13, can shorten spring 4's length, and the user is when touching touch panel 2, and spring 4's vibration is detected by the sensor more easily, and the reaction sensitivity of switch is higher, because spring 4 length shortens moreover, and its position is fixed more easily for whole compacter. Of course, in other alternative embodiments, the locking slot may not be located near the side of the structural member 1 where the contact plate 2 is located.

Specifically, as shown in fig. 1, the structural member 1 is provided with an inwardly recessed area 14, the clamping groove 13 is provided in the recessed area 14, and the recessed area 14 adopts a material removing manner, so that the weight of the structural member 1 is reduced, the position of the vibration assembly 5 is convenient to arrange, and the overall structure is more compact.

As shown in fig. 1, the lamp panel 3 has an indicator 31, the structural member 1 has a through hole 12, the touch panel 2 has a transparent area 22, and the through hole 12 and the transparent area 22 correspond to the indicator 31. The pilot lamp 31 can be through the corresponding light indication electric quantity signal of through-hole 12 and transparent area 22 output to give the feedback when touching the touch panel, the reaction is more sensitive, and pilot lamp 31 and through-hole 12 surface are covered by touch board 2, and touch board 2 can play the guard action to pilot lamp 31, improves the durability.

As shown in fig. 1, the vibration assembly 5 is mounted on the lamp panel 3. The vibration output by the vibration component 5 can be transmitted to the touch plate 2 through the spring 4 and transmitted to the touch plate 2 through the structural component 1, so that the vibration output effect is improved, a user can feel stronger vibration, and the reliability is improved. Of course, in other alternative embodiments, the seismic assembly 5 may be mounted to the structural member 1.

The installation process of the vibration feedback switch comprises the following steps: at first press spring 4 on the lamp plate 3, put into the draw-in groove 13 of the installing zone 14 that the structure 1 seted up with lamp plate 3, spring 4 stretches out in just in time from mounting hole 11 this moment, and pilot lamp 31 corresponds through-hole 12 simultaneously, then installs the acryl plate at the opposite side of structure 1, can accomplish the installation.

Example 2

As shown in fig. 5, the present embodiment discloses a battery 6, which includes the vibration feedback switch of embodiment 1, wherein the vibration feedback switch is located at a side surface of the battery 6, and the touch panel 2 is exposed from the battery 6. This structure setting, the user touch switch of being convenient for makes the operation more convenient, and the side does not generally regard as atress department moreover, avoids the mistake touching.

Specifically, as shown in fig. 6, battery 6 is provided with fixed muscle position 61 in the position department that corresponds with draw-in groove 13, and after vibrations feedback switch installed on battery 6, fixed muscle position 61 can be further spacing to lamp plate 3, need not use the bolt, practices thrift the space, and the structure is simpler, and the reliability is high.

Although specific embodiments of the present invention have been described above, it will be understood by those skilled in the art that this is by way of example only and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and the principles of the present invention, and these changes and modifications are all within the scope of the present invention.

Claims (10)

1. A vibration feedback switch is characterized in that the vibration feedback switch comprises:

a structural member;

the touch plate is made of hard materials and is arranged on the structural member;

the first end of the spring is abutted against the touch plate, and the second end of the spring is installed on the structural part;

a sensor;

the sensor can sense the vibration of the spring and transmit a signal to the vibration assembly so as to control the vibration assembly to output vibration.

2. The shock feedback switch of claim 1 wherein the diameter of said spring decreases from a first end to a second end of said spring.

3. The vibration feedback switch of claim 1 wherein said structural member defines a mounting hole, said mounting hole having an inner diameter matching an outer diameter of said spring, said spring passing through said mounting hole.

4. The vibration feedback switch of claim 3, further comprising a lamp panel, wherein the touch panel and the lamp panel are respectively located at two sides of the structural member, the spring is fixed on the lamp panel, and the lamp panel is installed on the structural member.

5. The shock feedback switch of claim 4, wherein the structural member has a slot, and the light panel is engaged in the slot and seals the mounting hole.

6. The shock feedback switch of claim 5 wherein said notch is formed in a side of said structure adjacent to said trip plate.

7. The vibration feedback switch of claim 4, wherein the lamp panel has an indicator light for collecting the electric power of the battery, the structural member has a through hole, the touch panel has a transparent area, and the through hole and the transparent area correspond to the indicator light.

8. The vibration feedback switch of claim 4 wherein the vibration assembly is mounted on the lamp panel.

9. The vibration feedback switch of claim 1 wherein the touch plate is acrylic or polycarbonate.

10. A battery comprising the vibration feedback switch of any one of claims 1-9, wherein the vibration feedback switch is located on a side of the battery, and the touch plate is exposed from the battery.

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