CN220456281U - Button structure - Google Patents

Abstract

The utility model discloses a button structure, which comprises a base module and a button module; the base module comprises a first rotation installation part and a first limit part; the first end of the button module is provided with a second rotation installation part, and the second end of the button module is provided with a second limit part; the first rotary mounting part is provided with a mounting groove with an assembling opening in the lateral direction, and the second rotary mounting part is a mounting shaft; or the second rotary mounting part is provided with a mounting groove with an assembling opening in the lateral direction, and the first rotary mounting part is a mounting shaft; the mounting shaft is rotatably inserted into the mounting groove; the first limiting part is abutted with the second limiting part so as to limit the second end of the button module to move in a direction away from the base module; the second end of the button module is movable under force in a direction toward the base module. In the whole assembly process, the first rotation installation part and the second rotation installation part cannot be subjected to pressure brought during assembly, and the phenomena of deformation or crack and the like of the first rotation installation part or the second rotation installation part in the assembly process are avoided.

Description

Button structure

Technical Field

The utility model relates to the technical field of button devices, in particular to a button structure.

Background

With the expansion of urban areas and the acceleration of informationized construction steps, buses are used as important transportation means for citizens to travel. The bus is generally provided with a bus off button, so that passengers can be prevented from getting out of the bus, and the comprehensive quality of civilization and citizens can be improved.

In the related art, the existing get-off button generally comprises a button shell and a base, two cylindrical protruding heads are arranged at intervals on one end of the button shell, a shaft hole for the protruding heads to clamp in is formed in the base, the cylindrical protruding heads after assembly can rotate in the shaft hole, so that the other end of the button shell can press, but at least one protruding head and the base are required to be in butt deformation during assembly, the two protruding heads can be clamped in the shaft hole at the same time, and the protruding heads are easy to deform or crack, so that the normal use of the get-off button is affected.

Disclosure of Invention

One object of an embodiment of the utility model is to: the button structure is characterized in that the first rotating installation part and the second rotating installation part are not subjected to pressure caused by assembly in the whole assembly process, so that the phenomena of deformation or crack generation and the like of the first rotating installation part or the second rotating installation part in the assembly process are avoided, and the button structure is ensured to be normally used.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a button structure comprises a base module and a button module; the base module comprises a first rotation installation part and a first limit part; the first end of the button module is provided with a second rotation installation part, and the second end of the button module is provided with a second limit part; the first rotating installation part is provided with an installation groove with an assembly opening in the lateral direction, and the second rotating installation part is an installation shaft; or the second rotating installation part is provided with an installation groove with an assembly opening in the lateral direction, and the first rotating installation part is an installation shaft; the mounting shaft is rotatably inserted into the mounting groove; the first limiting part is abutted with the second limiting part so as to limit the second end of the button module to move in a direction away from the base module; the second end of the button module is movable under force in a direction toward the base module.

Optionally, the mounting groove is disposed obliquely with respect to a direction in which the base module and the button module approach each other.

Optionally, the base module includes a base body, and the first rotation mounting portion is integrally formed with or detachably connected to the base body; the button module comprises a button body, and the second rotary mounting part is integrally formed with or detachably connected with the button body.

Optionally, when the first rotation installation portion is provided with an installation groove having an assembly opening in a lateral direction, the base module includes a base body and a connecting member, the connecting member includes a fixing portion and a plurality of the first rotation installation portion, the fixing portion is detachably connected with the base body, and a plurality of the first rotation installation portions are disposed at intervals on the same side of the fixing portion.

Optionally, the button module includes an inner housing and a flag; the identification piece is arranged on one side of the inner shell away from the base module.

Optionally, the button module further comprises a transparent shell; the transparent shell is detachably connected with the inner shell, the identification piece is arranged between the transparent shell and the inner shell, the second rotation installation part is arranged on the inner shell, and the second limiting part is arranged on the transparent shell or the inner shell.

Optionally, the base module is provided with a receiving groove, and part of the button module is located in the receiving groove, and the other part of the button module protrudes out of the surface of the base module.

Optionally, the base module includes an external connection portion including a tubular clip or a planar mount.

Optionally, the device further comprises a signal triggering module, wherein the signal triggering module comprises an elastic contact; the signal trigger module is connected with the base module, and the button module is provided with a force application part corresponding to the elastic contact piece; or the signal trigger module is connected with the button module, and the base module is provided with a force application part corresponding to the elastic contact piece.

Optionally, the light-emitting module and/or the photosensitive module are/is further included; the light-emitting module is electrically connected with the signal triggering module; the photosensitive module is electrically connected with the signal triggering module; the button module is provided with a through hole so as to enable the light emitting module to transmit light or enable the light sensing module to sense light.

The beneficial effects of the utility model are as follows: when assembling, the installation axle can slide to the mounting groove through the assembly opening of mounting groove in and with mounting groove clearance fit, the first spacing portion of recombination with the spacing portion butt of second can restrict button module's second end to the direction motion of keeping away from the base module, can assemble button module on the base module very easily, easy operation has, install and remove convenient advantage, in whole assembly process moreover, first rotation installation department can not receive the pressure that brings when assembling with the second rotation installation department, first rotation installation department or second rotation installation department produce the deformation or produce phenomenon such as crackle in the assembly process has been avoided, guarantee button structure can normal use, be favorable to prolonging button structure's life.

Drawings

The utility model is described in further detail below with reference to the drawings and examples.

Fig. 1 is a schematic diagram illustrating disassembly and assembly of a button structure according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram illustrating the assembly and disassembly of another button structure according to an embodiment of the present utility model;

fig. 3 is a schematic diagram illustrating disassembly and assembly of a button body of a button structure according to an embodiment of the present utility model;

fig. 4 is a schematic structural diagram of an assembled button structure according to an embodiment of the present utility model;

fig. 5 is a schematic diagram of a signal trigger module with a button structure according to an embodiment of the present utility model mounted on a base module;

fig. 6 is a schematic structural diagram of a connecting piece with a button structure according to an embodiment of the present utility model;

FIG. 7 is a rear schematic view of a tubular clip member with a push button structure according to an embodiment of the present utility model;

in the figure: 100. a base module; 110. a base body; 120. a connecting piece; 121. a fixing part; 122. a first rotation mounting portion; 123. a mounting groove; 130. a first limit part; 140. a receiving groove; 150. a tubular clip; 160. a planar fixing member; 170. positioning convex parts; 200. a button module; 210. a button body; 211. an inner case; 212. a marking piece; 213. a transparent shell; 220. a second rotation mounting portion; 230. a second limit part; 240. a through hole; 300. a signal triggering module; 400. a force application part; 510. a blanking cover; 520. a first connection hole; 530. a second connection hole; 540. a threading hole; 600. a screw; 710. a first clamping part; 720. and the second clamping part.

Detailed Description

In order to make the technical problems solved by the present utility model, the technical solutions adopted and the technical effects achieved more clear, the technical solutions of the embodiments of the present utility model will be described in further detail below with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to fall within the scope of the utility model.

In the description of the present utility model, unless explicitly stated and limited otherwise, the terms "connected," "affixed" and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

With the expansion of urban areas and the acceleration of informationized construction steps, buses are used as important transportation means for citizens to travel. The bus is generally provided with a bus off button, so that passengers can be prevented from getting out of the bus, and the comprehensive quality of civilization and citizens can be improved.

In the related art, the existing get-off button generally comprises a button shell and a base, two cylindrical protruding heads are arranged at intervals on one end of the button shell, a shaft hole for the protruding heads to clamp in is formed in the base, the cylindrical protruding heads after assembly can rotate in the shaft hole, so that the other end of the button shell can press, but at least one protruding head and the base are required to be in butt deformation during assembly, the two protruding heads can be clamped in the shaft hole at the same time, and the protruding heads are easy to deform or crack, so that the normal use of the get-off button is affected. In addition, the existing buttons also have the problems that the identification is single and fixed, the transmission semantics to passengers are unclear, and the existing buttons cannot adapt to various use scenes.

Based on the above, referring to fig. 1 to 7, the embodiment of the present utility model provides a button structure, where the button structure includes a base module 100 and a button module 200, the base module 100 includes a first rotation mounting portion 122 and a first limiting portion 130, a first end of the button module 200 is provided with a second rotation mounting portion 220, and a second end of the button module 200 is provided with a second limiting portion 230; wherein the first rotation mounting part 122 is provided with a mounting groove 123 laterally provided with an assembly opening, and the second rotation mounting part 220 is a mounting shaft; or, the second rotation mounting part 220 is provided with a mounting groove 123 laterally having a mounting opening, and the first rotation mounting part 122 is a mounting shaft; the mounting shaft is rotatably inserted into the mounting groove 123, and the first limiting portion 130 abuts against the second limiting portion 230 to limit the movement of the second end of the button module 200 in a direction away from the base module 100, and the second end of the button module 200 can move in a direction approaching the base module 100 under the action of force.

In the button structure of the present utility model, the first end of the button module 200 is rotatably mounted to the base module 100, and the second end is clamped to the base module 100 and can be pressed inward, and a corresponding signal can be generated when the button module 200 is pressed inward. When the button structure is assembled, the mounting shaft can slide into the mounting groove 123 through the assembly opening of the mounting groove 123 and is in clearance fit with the mounting groove 123, and then the first limiting part 130 is combined with the second limiting part 230 to be abutted, so that the second end of the button module 200 can be limited to move in the direction away from the base module 100, the button module 200 can be assembled on the base module 100 very easily, the button structure has the advantages of simplicity in operation and convenience in assembly and disassembly, in the whole assembly process, the first rotating mounting part 122 and the second rotating mounting part 220 cannot be subjected to pressure caused by assembly, the phenomena that the first rotating mounting part 122 or the second rotating mounting part 220 deforms or cracks are generated in the assembly process are avoided, the normal use of the button structure is ensured, and the service life of the button structure is prolonged.

The button structure provided by the utility model is not limited to being used as a get-off button on a bus, but also can be used as a function button required by other equipment or instruments, for example, can be used as a one-key unloading button of an unloading platform, can be used as an emergency stop button of drilling equipment or other function buttons.

In addition, the first end of the button module 200 may be provided with the second rotation mounting portion 220, the second rotation mounting portion 220 may be provided at the end of the first end of the button module 200 or the side wall thereof, the second end of the button module 200 may be provided with the second limiting portion 230, or the second limiting portion 230 may be provided at the end of the second end of the button module 200 or the side wall thereof. As an alternative embodiment, referring to fig. 3 and 5, an assembly combination of a hook member and a chute may be adopted between the first limiting portion 130 and the second limiting portion 230, when the button module 200 is assembled on the base module 100, the hook member may be limited in the chute, the inner wall of the chute may abut against the hook member to prevent the hook member from moving in a direction away from the chute, so as to meet the design requirement of limiting the second end of the button module 200 to move in a direction away from the base module 100, and meanwhile, when the button module 200 is pressed, the hook member may move along the length direction of the chute, so as to meet the design requirement of the second end of the button module 200 moving in a direction approaching to the base module 100 under the action of force.

In an embodiment, referring to fig. 1 to 6, the base module 100 includes a first rotating mounting portion 122 and a first limiting portion 130, the first rotating mounting portion 122 is provided with a mounting groove 123, an assembling opening is formed in a lateral direction of the mounting groove 123, the first limiting portion 130 is a sliding groove, a first end of the button module 200 is provided with a second rotating mounting portion 220, the second rotating mounting portion 220 is a mounting shaft, a second end of the button module 200 is provided with a second limiting portion 230, and the second limiting portion 230 is a hook member. During assembly, the rotating shaft of the button module 200 can slide into the mounting groove 123 through the assembly opening of the mounting groove 123 of the base module 100 and is in clearance fit with the mounting groove 123, the clamping hook piece of the button module 200 can be installed in the sliding groove of the base module 100, the second end of the button module 200 can be well limited to move in the direction away from the base module 100 through the clamping hook piece in the sliding groove, and therefore the button module 200 is assembled on the base module 100, and the pressing requirement that the button module 200 can move in the direction close to the base module 100 when being pressed is achieved by utilizing the characteristics that the rotating shaft can rotate in the mounting groove 123 and the clamping hook piece can move in the sliding groove.

In other embodiments, the first rotating mounting portion 122 of the base module 100 may be a mounting shaft, the second rotating mounting portion 220 of the button module 200 may be provided with a mounting groove 123, the lateral direction of the mounting groove 123 has an assembling opening, the first limiting portion 130 of the base module 100 is a hook member, and the second limiting portion 230 of the button module 200 is a sliding slot, so that the button module 200 may be assembled on the base module 100, and meanwhile, the pressing requirement that the button module 200 can move in a direction approaching to the base module 100 when being pressed is met.

For convenience of description, and also for convenience of text content, the present disclosure uses the first rotating mounting portion 122 to provide a mounting groove 123 with an assembling opening in a lateral direction, the second rotating mounting portion 220 is a mounting shaft, the first limiting portion 130 is a sliding groove, and the second limiting portion 230 is a hook member as a main case to describe the button structure.

Referring to fig. 1 to 6, the mounting groove 123 is inclined with respect to a direction in which the base module 100 and the button module 200 approach each other. Referring to fig. 1, 2 and 5, taking an example that the button module 200 is disposed at the front side of the base module 100 and the first rotation mounting portion 122 is disposed at the upper side of the first limiting portion 130, the mounting groove 123 is inclined forward from top to bottom, and the assembly opening of the mounting groove 123 is formed at the front side of the first rotation mounting portion 122. During assembly, the mounting shaft can slide into the mounting groove 123 through the assembly opening of the mounting groove 123, and the mounting groove 123 which is obliquely arranged needs to slide into the mounting groove 123 in an oblique manner, namely the whole button module 200 is required to move upwards during assembly, so that the hook piece at the second end of the button module 200 can avoid assembly interference with the base module 100, the hook piece can be smoothly installed in the chute of the base module 100, the phenomena that the first limiting part 130 or the second limiting part 230 deforms or cracks are generated in the assembly process can be avoided, normal use of the button structure is ensured, and the service life of the button structure is prolonged.

Referring to fig. 1, the base module 100 further includes a base body 110, and as an alternative embodiment, the first rotation mounting portion 122 may be detachably connected to the base body 110; as another alternative embodiment, the first rotation mounting portion 122 may be integrally formed with the base body 110. The first rotation mounting portion 122 may be selected to be detachably connected to the base body 110 or integrally formed according to practical requirements without affecting the ability of the button module 200 to be mounted on the base module 100.

Referring to fig. 3, the button module 200 further includes a button body 210, and as an alternative embodiment, the second rotation mounting portion 220 is detachably connected to the button body 210; as another alternative embodiment, the second rotation mounting portion 220 is integrally formed with the button body 210. On the premise of not affecting the assembly of the button module 200 on the base module 100, the second rotation mounting portion 220 and the button body 210 may be selected to be detachably connected or integrally formed according to practical requirements.

In an embodiment, when the first rotation mounting portion 122 is provided with a mounting groove 123 having a mounting opening in a lateral direction, the base module 100 further includes a base body 110 and a connecting member 120, the connecting member 120 includes a fixing portion 121 and a plurality of first rotation mounting portions 122, the fixing portion 121 is detachably connected to the base body 110, and the plurality of first rotation mounting portions 122 are disposed at the same side of the fixing portion 121 at intervals. Through a plurality of first rotation installation department 122 that are located same one side and interval setting, can provide simultaneously and supply the installation groove 123 that the installation axle slided into to do not influence the installation axle and can rotate for connecting piece 120, thereby satisfy the button module 200 and can be to the pressing demand of the direction motion of approaching base module 100 when being pressed, on the other hand can vacate the mounted position between two adjacent first rotation installation department 122, make things convenient for fixed part 121 to be connected fixedly with base body 110 through fastener such as screw 600.

In another embodiment, when the second rotation mounting portion 220 is provided with the mounting groove 123 having the assembly opening in the lateral direction, the button module 200 includes the button body 210 and the connecting member 120, the connecting member 120 includes the fixing portion 121 and a plurality of second rotation mounting portions 220, the fixing portion 121 is detachably connected to the button body 210, and the plurality of second rotation mounting portions 220 are disposed at the same side of the fixing portion 121 at intervals. The pressing requirement that the button module 200 is movable in a direction approaching the base module 100 when pressed can be satisfied, and the mounting position of the screw 600 required for connecting and fixing the fixing portion 121 to the button body 210 can be set aside.

Referring to fig. 1 to 3, on the premise that the button module 200 includes a button body 210, the button body 210 includes an inner case 211 and a tag 212; the identification member 212 is disposed on a side of the inner housing 211 remote from the base module 100. Through being provided with the identification piece 212 on the button module 200, can remind the passenger in striking mode to convey clear accurate semantics to the passenger, make the passenger can remind the driver to stop with the mode of pressing the button module 200 when needing to get off, not only can prevent that the passenger from missing the stop, but also need not the passenger to remind the driver with the mode of shouting about "parking in the bus, have the mode of getting off", thereby help improving the comprehensive quality of city civilization and citizen.

With continued reference to fig. 1 to 3, on the premise that the button module 200 includes the button body 210, the button body 210 further includes a transparent case 213; the transparent shell 213 is detachably connected with the inner shell 211, the identifier 212 is disposed between the transparent shell 213 and the inner shell 211, the second rotation mounting portion 220 is disposed on the inner shell 211, and the second limiting portion 230 is disposed on the transparent shell 213 or the inner shell 211. The arrangement of the transparent shell 213 does not affect the marking effect of the marking piece 212, can protect the marking piece 212, effectively prevents passengers from damaging the marking piece 212, and the transparent shell 213 is detachably connected with the inner shell 211, so that the image-text color on the marking piece 212 can be flexibly designed and freely replaced, and is suitable for various use scenes.

As an alternative embodiment, referring to fig. 3, a first clamping portion 710 is provided on the inner housing 211, a second clamping portion 720 capable of being in snap fit with the first clamping portion 710 is provided on the transparent housing 213, that is, the inner housing 211 and the transparent housing 213 are in snap fit through the first clamping portion 710 and the second clamping portion 720, so that the identification pieces 212 can be conveniently assembled and disassembled, and thus, the requirement of selecting different identification pieces 212 to adapt to different usage situations is met. In addition, the second limiting portion 230 may be disposed on the inner case 211 or the transparent case 213, as long as the assembly of the button module 200 on the base module 100 is not affected.

Referring to fig. 4 and 5, the base module 100 is provided with a receiving groove 140, and a portion of the button module 200 is located in the receiving groove 140, and another portion protrudes from the surface of the base module 100. The setting of the accommodation groove 140 can provide the button module 200 to be assembled on the base module 100 in a more fitting manner, so that the appearance of the whole button structure is relatively attractive, and the first rotation installation part 122 and the first limiting part 130 can be arranged in the accommodation groove 140, so that the assembly cooperation between the first rotation installation part 122 and the second rotation installation part 220 and the assembly cooperation between the first limiting part 130 and the second limiting part 230 can be generated in the enclosed space enclosed by the button module 200 and the base module 100, and the assembly and the disassembly preventing effect is good. Meanwhile, the button module 200 partially protrudes from the surface of the base module 100, so that a sense of limitation is provided between the button module 200 and the base module 100 when touching, and a passenger can more easily distinguish the button module 200 to press.

In an embodiment, the base module 100 further includes an external connection portion, where the external connection portion is disposed on a side of the base body 110 away from the button module 200, and the external connection portion includes a tubular clip 150 or a plane fixing member 160, through which the base module 100 can be supported to be mounted on a tubular surface and a plane, so that the mounting range of the button structure is effectively enlarged, and the applicability of the button structure is improved. Referring to fig. 1 and 7, when the external connection portion includes a tubular clamping member 150, one side of the tubular clamping member 150 is connected with the base body 110, and the other side is provided with an arc clamping groove capable of being clamped on a tubular object, when the button structure is arranged on a bus for use, the arc clamping groove can clamp the button structure on a handrail of the bus, so that the assembly efficiency of the button structure is improved; referring to fig. 2, when the external connection portion includes the planar fixing member 160, the planar fixing member 160 and the base body 110 can be directly connected with the external structure through the fastening member, so that the whole button structure can be conveniently fixed on the planar object.

It should be noted that, the base module 100 is provided with a first connection hole 520, the external connection part is provided with a second connection hole 530 corresponding to the first connection hole 520, the base module 100 can pass through the first connection hole 520 and the second connection hole 530 to be connected and fixed with the external connection part through a fastener, and in order to ensure the attractive appearance of the surface of the button structure, a blocking cover 510 can be further arranged at the position of the base module 100 corresponding to the first connection hole 520, which is favorable for solving the problem that the fastener exposes the button structure after installation, the blocking cover 510 is connected with the base module 100 in a fastening manner, and the blocking cover 510 is provided with a small gap, thereby facilitating the disassembly and assembly; in addition, a positioning protrusion 170 is disposed on one side of the external connection portion, which is close to the base body 110, the shape of the positioning protrusion 170 is attached to the inner wall of the base body 110, the positioning protrusion 170 can play a role in limiting and positioning, the assembly dislocation of the external connection portion and the base body 110 is avoided, and a threading hole 540 for the wire arrangement of the base module 100 is disposed on the external connection portion.

In an embodiment, referring to fig. 1, 2 and 5, the button structure further includes a signal triggering module 300, the signal triggering module 300 may be a self-generating module, and the signal triggering module 300 includes an elastic contact; the signal trigger module 300 is connected to the base module 100, and the button module 200 is provided with a force application portion 400 corresponding to the elastic contact piece. When the button module 200 is pressed, the button module 200 moves in a direction approaching the base module 100, and the force application part 400 moves along with the button module 200, so that the force application part 400 can contact and abut against the elastic contact, and the pressing action of the force application part 400 on the elastic contact starts the signal triggering module 300, and the signal triggering module 300 can send a signal to the control panel of the bus, so that a driver can receive the getting-off information of the passenger in time and smoothly park at a position required by the passenger.

In another embodiment, the signal trigger module 300 is connected to the button module 200, and the base module 100 is provided with a force application portion 400 corresponding to the elastic contact. When the button module 200 is pressed, the button module 200 moves in a direction approaching to the base module 100, and the signal trigger module 300 moves along with the button module 200, so that the elastic contact piece can contact and abut against the force application part 400, and the signal trigger module 300 is started by the pressing action of the force application part 400 on the elastic contact piece, and the signal trigger module 300 can send a signal to a control panel of the bus, so that a driver can receive the getting-off information of the passenger in time, and smoothly park at a position required by the passenger.

As an alternative embodiment, the button structure further comprises a light emitting module and/or a light sensing module; the light emitting module is electrically connected with the signal triggering module 300; the photosensitive module is electrically connected with the signal triggering module 300; referring to fig. 1 to 4, the button module 200 is provided with a through hole 240 to enable the light emitting module to transmit light or the light sensing module to sense light. The light emitting module such as an indicator light and a background light can be conveniently transmitted through the through hole 240, the photosensitive module can be conveniently sensitized, and the light emitting module or the photosensitive module can be conveniently arranged in the button structure according to actual needs, so that the button structure is suitable for more use scenes.

In the description herein, it should be understood that the terms "upper," "lower," "left," "right," and the like are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and to simplify operation, rather than to indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the utility model. Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for providing a special meaning.

In the description herein, reference to the term "one embodiment," "an example," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in the foregoing embodiments, and that the embodiments described in the foregoing embodiments may be combined appropriately to form other embodiments that will be understood by those skilled in the art.

The technical principle of the present utility model is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the utility model and should not be taken in any way as limiting the scope of the utility model. Other embodiments of the utility model will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (10)

1. A push button structure comprising:

a base module (100) including a first rotation mounting portion (122) and a first stopper portion (130);

the button module (200) is provided with a second rotation installation part (220) at the first end and a second limit part (230) at the second end;

wherein the first rotation mounting part (122) is provided with a mounting groove (123) with an assembling opening in the lateral direction, and the second rotation mounting part (220) is a mounting shaft; or, the second rotation mounting part (220) is provided with a mounting groove (123) with a mounting opening at the lateral direction, and the first rotation mounting part (122) is a mounting shaft; the mounting shaft is rotatably inserted into the mounting groove (123);

the first limiting part (130) is abutted with the second limiting part (230) so as to limit the second end of the button module (200) to move in a direction away from the base module (100); the second end of the button module (200) is movable under force in a direction approaching the base module (100).

2. The button structure according to claim 1, wherein the mounting groove (123) is provided obliquely with respect to a direction in which the base module (100) and the button module (200) approach each other.

3. The button structure of claim 1, wherein the base module (100) comprises a base body (110), the first rotational mounting portion (122) being integrally formed with or detachably connected to the base body (110);

the button module (200) comprises a button body (210), and the second rotation mounting part (220) is integrally formed with or detachably connected with the button body (210).

4. The button structure according to claim 1, wherein when the first rotation mounting portion (122) is provided with a mounting groove (123) having an assembly opening in a lateral direction, the base module (100) includes a base body (110) and a connecting member (120), the connecting member (120) includes a fixing portion (121) and a plurality of the first rotation mounting portions (122), the fixing portion (121) is detachably connected with the base body (110), and a plurality of the first rotation mounting portions (122) are provided at an interval on the same side of the fixing portion (121).

5. The button structure according to claim 1, characterized in that the button module (200) comprises an inner housing (211) and an identification piece (212); the identification piece (212) is arranged on one side of the inner shell (211) far away from the base module (100).

6. The button structure of claim 5, wherein the button module (200) further comprises a transparent shell (213); the transparent shell (213) is detachably connected with the inner shell (211), the identification piece (212) is arranged between the transparent shell (213) and the inner shell (211), the second rotation installation part (220) is arranged on the inner shell (211), and the second limiting part (230) is arranged on the transparent shell (213) or the inner shell (211).

7. The button structure according to claim 1, characterized in that the base module (100) is provided with a receiving groove (140), and that a part of the button module (200) is located in the receiving groove (140), and another part protrudes from the surface of the base module (100).

8. The button structure of claim 1, wherein the base module (100) comprises an external connection comprising a tubular clip (150) or a planar mount (160).

9. The button structure of any one of claims 1-8, further comprising a signal triggering module (300), the signal triggering module (300) comprising a resilient contact;

the signal trigger module (300) is connected with the base module (100), and the button module (200) is provided with a force application part (400) corresponding to the elastic contact piece; or, the signal trigger module (300) is connected with the button module (200), and the base module (100) is provided with a force application part (400) corresponding to the elastic contact piece.

10. The button structure of claim 9, further comprising a light emitting module and/or a light sensing module;

the light emitting module is electrically connected with the signal triggering module (300);

the photosensitive module is electrically connected with the signal triggering module (300);

the button module (200) is provided with a through hole (240) so as to enable the light emitting module to transmit light or enable the light sensing module to sense light.