CN220796527U - Push-press integrated key mechanism and electronic equipment - Google Patents

Abstract

The utility model discloses a push-press integrated key mechanism and electronic equipment, wherein the electronic equipment comprises a push-press integrated key mechanism, the push-press integrated key mechanism comprises a support, an electronic component and a push-press integrated structure, a movable hole arranged along the transverse direction of the support is formed in the support, the electronic component comprises a base plate fixedly arranged in the support, a push switch and a sliding switch which are separately arranged on the base plate, the push-press integrated structure is arranged in the movable hole and is movably connected with the support, and the push-press integrated structure comprises a push-press body, a push abutting part arranged corresponding to the push switch, a sliding abutting part arranged corresponding to the sliding switch and an operating part. The push button and the push button function of the push button integrated button mechanism are designed integrally, the push button and the push button are not affected, the original two parts of the push button and the push button are simplified into one part, the occupied structural space is smaller, the appearance is simpler, the part cost and the die cost are greatly reduced, and the assembly process cost is greatly reduced.

Description

Push-press integrated key mechanism and electronic equipment

Technical Field

The utility model relates to the technical field of intelligent transportation, in particular to a push-press integrated key mechanism and electronic equipment.

Background

In electronic products, there is often an application requirement of simultaneously using a push switch and a slide switch; according to the conventional design, a push button is required to be designed for a push switch on a product shell, and a push button is also designed for a sliding switch; this conventional design has certain drawbacks:

(1) The shell is required to be respectively provided with a push button and a push button structure, so that more structural space is occupied, miniaturization of products is not facilitated, and meanwhile, the appearance design is not concise;

(2) The push button and the push button need separate parts, and the parts and the mould have higher cost;

(3) The button and the push button are required to be assembled respectively, and the assembly process cost is high.

Disclosure of utility model

The utility model aims to solve the technical problem of providing a push-press integrated key mechanism.

The technical scheme adopted for solving the technical problems is as follows: a push-to-press integrated key mechanism is constructed, comprising:

the support is provided with a movable hole arranged along the transverse direction;

The electronic component comprises a base plate fixedly arranged in the support, a push switch and a sliding switch which are arranged on the base plate separately;

The pushing and pressing integrated structure is arranged in the movable hole and is movably connected with the support, and the pushing and pressing integrated structure comprises a pushing and pressing body, a pressing and abutting part, a sliding abutting part and an operating part, wherein the pressing and abutting part is arranged corresponding to the pressing switch;

The operation part can drive the pressing abutting part to press the pressing switch under the action of external force, and meanwhile, the operation part can drive the sliding abutting part to push the sliding switch under the action of external force.

In some embodiments, a sliding switch deflector rod matched with the sliding abutting part is arranged on the sliding switch, and a pressing switch pressing rod matched with the pressing abutting part is arranged on the pressing switch;

The sliding butt part is provided with a limit groove matched with the sliding switch deflector rod, a preset gap is reserved between the sliding switch deflector rod and the bottom wall of the limit groove, and spaces formed between the side walls of the limit groove are used for accommodating the sliding switch deflector rod.

In some embodiments, an outer surface of the operating portion protrudes from the movable aperture.

In some embodiments, the push switch is disposed on an opposite surface of the substrate from the slide switch, the push switch being disposed opposite the slide switch;

The support is internally provided with a first base, the first base is provided with a first guide groove for accommodating the pressing abutting part, the pressing abutting part can slide on the first guide groove, and the first guide groove is arranged along the transverse direction of the first base.

In some embodiments, the push switch and the sliding switch are separately arranged on the opposite surfaces or the same surface of the substrate, and the push switch and the sliding switch are arranged in a dislocation manner;

The support is internally provided with a second base, the second base is provided with a second guide groove for accommodating the pressing abutting part, the pressing abutting part can slide on the second guide groove, and the second guide groove is arranged along the transverse direction of the second base.

In some embodiments, a limiting piece which is arranged opposite to the plate edge of the base plate is arranged on the surface of the pushing body facing the base plate.

In some embodiments, the push switch is disposed on an opposite surface of the substrate from the slide switch, the push switch being disposed opposite the slide switch;

The pushing and pressing integrated structure further comprises a rotating shaft part integrally formed with the sliding abutting part, a third base is arranged in the support, a third guide groove for accommodating the rotating shaft part is formed in the third base, the rotating shaft part can slide and rotate on the third guide groove, and the third guide groove is arranged along the transverse direction of the third base.

In some embodiments, the push-push integrated key mechanism further includes a cover connected to the support, and a limiting portion for limiting the movement direction of the rotating shaft portion is provided on the cover.

In some embodiments, the push switch is disposed on an opposite surface or the same surface of the substrate separately from the slide switch, and the push switch is disposed opposite the slide switch;

The pushing body comprises a first retention plate and a second retention plate which are arranged vertically to each other, the pushing abutting portion is connected to the first retention plate, the sliding abutting portion is connected to the second retention plate, and the operation portion and the pushing abutting portion are arranged oppositely.

In some embodiments, the pushing and pressing integrated structure further includes a push button portion connected to the second retention plate, the push button portion is disposed on a surface of the second retention plate opposite to the sliding abutment portion, a through hole through which the push button portion passes is formed in the support, and a fastening portion for limiting a movement direction of the pushing and pressing integrated structure is disposed on the support.

The implementation of the utility model has the following beneficial effects: the push-push integrated key mechanism utilizes a push-push integrated structure, can press the push-push integrated structure to trigger the push switch when the push switch function is needed, and can slide to push the integrated structure to drive the slide switch to adjust the slide switch to a required gear when the slide switch function is needed. The push button and the push button of the push button integrated structure are designed integrally, but are not mutually influenced, the original push button and the push button are simplified into one part, the occupied structural space is smaller, the appearance is simpler, the part cost and the die cost are greatly reduced, and the assembly process cost is greatly reduced.

Drawings

In order to more clearly illustrate the technical solution of the present utility model, the following description will be given with reference to the accompanying drawings and examples, it being understood that the following drawings only illustrate some examples of the present utility model and should not be construed as limiting the scope, and that other related drawings can be obtained from these drawings by those skilled in the art without the inventive effort. In the accompanying drawings:

FIG. 1 is an exploded view of a first embodiment of a push-to-push integrated key mechanism in some embodiments of the present utility model;

FIG. 2 is a schematic perspective view of a first embodiment of a push-push integrated key mechanism according to some embodiments of the present utility model;

FIG. 3 is a schematic top view of a first embodiment of a push-push integrated key mechanism according to some embodiments of the present utility model;

FIG. 4 is a schematic diagram showing the internal structure of a first embodiment of a push-push integrated key mechanism according to some embodiments of the present utility model;

FIG. 5 is an exploded view of a second embodiment of a push-to-push integrated key mechanism in some embodiments of the present utility model;

FIG. 6 is a schematic perspective view of a second embodiment of a push-push integrated key mechanism according to some embodiments of the present utility model;

FIG. 7 is a schematic top view of a second embodiment of a push-push integrated key mechanism according to some embodiments of the present utility model;

FIG. 8 is a schematic diagram illustrating an internal structure of a second embodiment of a push-push integrated key mechanism according to some embodiments of the present utility model;

FIG. 9 is an exploded view of a third embodiment of a push-to-push integrated key mechanism in some embodiments of the present utility model;

FIG. 10 is a schematic perspective view of a third embodiment of a push-push integrated key mechanism according to some embodiments of the present utility model;

FIG. 11 is a schematic top view of a third embodiment of a push-push integrated key mechanism according to some embodiments of the present utility model;

FIG. 12 is a schematic view showing the internal structure of a third embodiment of a push-push integrated key mechanism according to some embodiments of the present utility model;

FIG. 13 is a schematic view illustrating the cooperation between a cover and a rotating shaft of a third embodiment of a push-push button mechanism according to some embodiments of the present utility model;

FIG. 14 is an exploded view of a fourth embodiment of a push-to-push integrated key mechanism in some embodiments of the present utility model;

FIG. 15 is a schematic perspective view of a fourth embodiment of a push-push integrated key mechanism according to some embodiments of the present utility model;

FIG. 16 is a schematic perspective view of another directional structure of a fourth embodiment of a push-push integrated key mechanism according to some embodiments of the present utility model;

fig. 17 is a schematic diagram showing the internal structure of a fourth embodiment of the push-push integrated key mechanism according to some embodiments of the present utility model.

Detailed Description

For a clearer understanding of technical features, objects and effects of the present utility model, a detailed description of embodiments of the present utility model will be made with reference to the accompanying drawings. In the following description, it should be understood that the directions or positional relationships indicated by "front", "rear", "upper", "lower", "left", "right", "longitudinal", "transverse", "vertical", "horizontal", "top", "bottom", "inner", "outer", "head", "tail", etc. are configured and operated in specific directions based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model, and do not indicate that the apparatus or element to be referred to must have specific directions, and thus should not be construed as limiting the present utility model.

It should also be noted that unless explicitly stated or limited otherwise, terms such as "mounted," "connected," "secured," "disposed," and the like 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. When an element is referred to as being "on" or "under" another element, it can be "directly" or "indirectly" on the other element or one or more intervening elements may also be present. The terms "first," "second," "third," and the like are used merely for convenience in describing the present utility model and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated, whereby features defining "first," "second," "third," etc. may explicitly or implicitly include one or more such features. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1 to 17, the present utility model discloses a push-press integrated key mechanism and an electronic device, wherein the electronic device includes the push-press integrated key mechanism, and the electronic device may be, but is not limited to, an electric drill, an electric saw, a cutting machine, a tablet, an electronic reader, a computer, and other power devices. The push-push integrated key mechanism comprises a support 1, an electronic component 2 and a push-push integrated structure 3, wherein a movable hole 11 is formed in the support 1 along the transverse direction of the support, the movable hole 11 is formed in the side surface of the support 1, the support 1 can be a shell of the push-push integrated key mechanism, and the movable hole 11 can be a strip-shaped hole. The electronic component 2 includes a substrate 21 fixedly disposed in the support 1, a push switch 22 and a slide switch 23 separately disposed on the substrate 21, and the substrate 21 may be a PCB board.

The pushing and pressing integrated structure 3 is disposed in the movable hole 11 and movably connected to the support 1, the pushing and pressing integrated structure 3 includes a pushing and pressing body 31, a pressing and abutting portion 32 disposed corresponding to the pressing switch 22, a sliding and abutting portion 33 disposed corresponding to the sliding switch 23, and an operating portion 34, the pushing and pressing body 31, the pressing and abutting portion 32, the sliding and abutting portion 33, and the operating portion 34 are integrally formed, the pushing and pressing body 31, the pressing and abutting portion 32, the sliding and abutting portion 33, and the operating portion 34 may be joined together by welding or glue, and the pushing and pressing body 31, the pressing and abutting portion 32, the sliding and abutting portion 33, and the operating portion 34 may be combined together in a mutually detachable manner, which is not particularly limited herein.

The operation portion 34 can drive the pressing abutment portion 32 to press the pressing switch 22 under the action of external force, and meanwhile, the operation portion 34 can drive the sliding abutment portion 33 to push the sliding switch 23 along the transverse direction of the movable hole 11 under the action of external force, so that an operator can realize the function of pressing the switch 22 or the sliding switch 23 of the electronic product only by pressing or pushing the operation portion 34 on the side surface of the support 1.

Further, the slide switch 23 is provided with a slide switch lever 231 disposed in cooperation with the slide contact portion 33, the push switch 22 is provided with a push switch lever 221 disposed in cooperation with the push contact portion 32, the slide contact portion 33 is provided with a limit groove 331 disposed in cooperation with the slide switch lever 231, and a predetermined gap is provided between the slide switch lever 231 and a bottom wall of the limit groove 331, so that the bottom wall of the limit groove 331 does not push against the slide switch lever 231 when an operator presses the operation portion 34. And spaces formed between the side walls of the limit groove 331 are used for accommodating the sliding switch lever 231, so as to transmit the pushing force to the operating part 34 to the sliding switch lever 231.

In addition, the outer surface of the operating part 34 protrudes from the movable hole 11, the movable hole 11 formed on the side surface of the support 1 can expose the operating part 34, and the movable hole 11 reserves a space for the operating part 34 to move.

More specifically, in the present utility model, the following four embodiments of different overall structural forms are provided.

First embodiment:

As shown in fig. 1 to 4, the push switch 22 and the slide switch 23 are separately provided on the opposite surfaces of the substrate 21, the push switch 22 is provided opposite to the slide switch 23, and it is understood that, in the first embodiment, as described above, the push switch 22 employs a side push type that an operator presses the operation portion 34 on the side of the holder 1 to perform the function of the push switch 22, the slide switch 23 employs a side push type that an operator pushes the operation portion 34 on the side of the holder 1 to perform the function of the slide switch 23, the substrate 21 is fixed in the holder 1, the push switch 22 and the slide switch 23 are separately provided on the opposite surfaces of the substrate 21, and the push switch 22 and the slide switch 23 are in the same position or in close position in the vertical direction of the holder 1, that is, the vertical center planes of both the push switch 22 and the slide switch 23 are on the same plane or in close position. Since the push contact portion 32 is provided in correspondence with the push switch 22, the slide contact portion 33 is provided in correspondence with the slide switch 23, and the center position of the push contact portion 32 approaches the push switch lever 221 and the slide switch lever 231 in the initial state.

In the first embodiment, the pressing abutment portion 32 may be designed as an elastic arm having a substantially rectangular shape, and the elastic arm is located at the lower side of the push-button body 31, and when the operator applies an external force to press the operation portion 34, the elastic arm generates elasticity to actuate the push switch lever 221, thereby operating the push switch 22.

As shown in fig. 4, the first base 12 is provided in the support 1, the first base 12 is provided with a first guide groove 121 in which the pressing contact portion 32 is accommodated, the pressing contact portion 32 is slidably disposed in the first guide groove 121, and the first guide groove 121 is disposed along the lateral direction of the first base 12, so that the pressing contact portion 32 can move only along the lateral direction of the first base 12, and the support 1 is provided with a first support seat 13 for supporting the pressing contact portion 32, and the upper surface of the first support seat 13 is in contact with the pressing contact portion 32, so that the pressing contact portion 32 can be used for assisting guiding the pressing or pushing of the integrated structure 3 during sliding.

In the first embodiment, the sliding contact portion 33 is provided with a limiting plate corresponding to two sides of the sliding switch lever 231, the limiting plates are matched to form the limiting groove 331 for transmitting the pushing force to the sliding switch lever 231, meanwhile, the pressing contact portion 32 is provided with a pressing area of the pressing switch 22, and the pressing area of the pressing switch 22 can cover the pressing switch lever 221 within the sliding travel range of the pressing contact portion 32, so that the pressing contact portion 32 slides to any position, and the pressing contact portion 32 can trigger the pressing switch 22 to operate.

Second embodiment:

As shown in fig. 5 to 8, the push switch 22 and the slide switch 23 are provided on the opposite surface or the same surface of the substrate 21 separately, and the push switch 22 and the slide switch 23 are arranged in a staggered manner. It will be appreciated that, in combination with the above, in the second embodiment, as shown in fig. 5, the push switch 22 adopts a side push type in which an operator presses the operation portion 34 on the side of the holder 1 to realize the push switch 22 function, the slide switch 23 adopts a side push type in which an operator pushes the operation portion 34 on the side of the holder 1 to realize the slide switch 23 function, the base plate 21 is fixed in the holder 1, the push switch 22 and the slide switch 23 are detachably provided on the opposite surfaces of the base plate 21, the push switch and the slide switch 23 are also provided on the same surface of the base plate 21, and the push switch 22 and the slide switch 23 are arranged with a predetermined distance in the vertical direction of the holder 1. Since the push contact portion 32 is provided in correspondence with the push switch 22, the slide contact portion 33 is provided in correspondence with the slide switch 23, and the position of the push contact portion 32 is a predetermined distance from the position of the slide contact portion 33 in the initial state.

In the second embodiment, the pressing abutment portion 32 may be designed as an elastic arm having a substantially rectangular shape, and the elastic arm is located at the lower side of the push-button body 31, and when the operator applies an external force to press the operation portion 34, the elastic arm generates elasticity to actuate the push switch lever 221, thereby operating the push switch 22.

As shown in fig. 8, the second base 14 is provided in the support 1, the second base 14 is provided with a second guide groove 141 in which the pressing contact portion 32 is accommodated, the pressing contact portion 32 is slidably disposed in the second guide groove 141, and the second guide groove 141 is disposed along the lateral direction of the second base 14 so that the pressing contact portion 32 can move only along the lateral direction of the second base 14, and the support 1 is provided with a second support seat 19 for supporting the pressing contact portion 32, and the upper surface of the second support seat 19 is in contact with the pressing contact portion 32, so that the pressing contact portion 32 can be used for assisting guiding when the pressing integrated structure 3 slides or presses.

Preferably, the surface of the pushing body 31 facing the substrate 21 is provided with a limiting piece 311 disposed opposite to the plate edge of the substrate 21. The limiting piece 311 is opposite to the plate edge of the base plate 21, so that the push-push integrated structure 3 can not be pushed inwards near the side of the sliding switch 23, and the false touch of the push switch 22 during the sliding push of the integrated structure 3 is prevented.

In the second embodiment, the sliding contact portion 33 is provided with a limiting plate corresponding to two sides of the sliding switch lever 231, the limiting plates are matched to form the limiting groove 331 for transmitting the pushing force to the sliding switch lever 231, meanwhile, the pressing contact portion 32 is provided with a pressing area of the pressing switch 22, and the pressing area of the pressing switch 22 can cover the pressing switch lever 221 within the sliding travel range of the pressing contact portion 32, so that the pressing contact portion 32 slides to any position, and the pressing contact portion 32 can trigger the pressing switch 22 to operate.

Third embodiment:

as shown in fig. 9 to 13, the push switch 22 is provided on the opposite surface of the substrate 21 separately from the slide switch 23, and the push switch 22 is provided opposite to the slide switch 23. It will be appreciated that, in combination with the above, in the third embodiment, as shown in fig. 9, the push switch 22 employs a side push type in which an operator presses the operation portion 34 on the side of the holder 1 to realize the push switch 22 function, the slide switch 23 employs a side push type in which an operator pushes the operation portion 34 on the side of the holder 1 to realize the slide switch 23 function, the base plate 21 is fixed in the holder 1, the push switch 22 and the slide switch 23 are separately provided on the opposite surfaces of the base plate 21, and the push switch 22 and the slide switch 23 are in the same position or in close position in the vertical direction of the holder 1, i.e., the vertical center planes of both the push switch 22 and the slide switch 23 are in the same plane or in close position. Since the push contact portion 32 is provided in correspondence with the push switch 22, the slide contact portion 33 is provided in correspondence with the slide switch 23, and the center position of the push contact portion 32 approaches the push switch lever 221 and the slide switch lever 231 in the initial state.

As shown in fig. 12, the pushing and pressing integrated structure 3 further includes a rotating shaft portion 35 integrally formed with the sliding abutting portion 33, a third base 15 is disposed in the support 1, a third guide groove 151 for accommodating the rotating shaft portion 35 is disposed on the third base 15, the third guide groove 151 is in a circular design, the rotating shaft portion 35 is slidable and rotatable on the third guide groove 151, and the third guide groove 151 is disposed along a transverse direction of the third base 15, so that the pushing and pressing integrated structure 3 can only move along the transverse direction of the second base 14, and when the operating portion 34 is pressed, the pressing abutting portion 32 rotates along with the rotating shaft portion 35 until the pressing switch 22 is triggered.

Meanwhile, as shown in fig. 13, the push-push integrated key mechanism further comprises a cover body 6 connected with the support 1, wherein a limiting part 61 for limiting the movement direction of the rotating shaft part 35 is arranged on the cover body 6, and when the cover body 6 is assembled with the support 1, the limiting part 61 is specifically used for limiting the movement of the rotating shaft part 35 in the vertical direction of the support 1, so that the rotating shaft part 35 cannot be pushed inwards at the corresponding position.

In the third embodiment, the sliding contact portion 33 is provided with a limiting plate corresponding to two sides of the sliding switch lever 231, the limiting plates are matched to form the limiting groove 331 for transmitting the pushing force to the sliding switch lever 231, meanwhile, the pressing contact portion 32 is provided with a pressing area of the pressing switch 22, and the pressing area of the pressing switch 22 can cover the pressing switch lever 221 within the sliding travel range of the pressing contact portion 32, so that the pressing contact portion 32 slides to any position, and the pressing contact portion 32 can trigger the pressing switch 22 to operate.

Fourth embodiment:

As shown in fig. 14 to 17, the push switch 22 is provided on the opposite surface or the same surface of the substrate 21 separately from the slide switch 23, and the push switch 22 is provided opposite to the slide switch 23. It will be appreciated that in combination with the above, in the third embodiment, the push switch 22 is implemented as a push switch 22 by pressing the operating portion 34 laterally of the support 1 by an operator, the slide switch 23 is implemented as a slide switch 23 by pushing the support 1 by a flat push, the substrate 21 is fixed in the support 1, the push switch 22 and the slide switch 23 are separately provided on opposite surfaces of the substrate 21, and the push switch 22 and the slide switch 23 may be provided on the same surface of the substrate 21.

In the fourth embodiment, as shown in fig. 14 and 17, the push-button body 31 includes a first retaining plate 314 and a second retaining plate 312 disposed perpendicularly to each other, the push-button abutment 32 is connected to the first retaining plate 314, the slide abutment 33 is connected to the second retaining plate 312, and the operation portion 34 is disposed opposite to the push-button abutment 32. The push-push integrated structure 3 further includes a push button portion 36 connected to the second retaining plate 312, where the push button portion 36 is disposed on a surface of the second retaining plate 312 facing away from the sliding abutment portion 33. It will be appreciated that the push button portion 36 is disposed opposite to the sliding switch 23, the first retaining plate 314 and the second retaining plate 312 are integrally connected by a curved wall, and the push abutment portion 32 on the side of the support 1 and the push button portion 36 on the front of the support 1 are integrally connected by a curved wall, that is, the push abutment portion 32, the sliding abutment portion 33, the first retaining plate 314, the second retaining plate 312 and the push button portion 36 are integrally formed. Wherein the curved wall has elasticity such that the push abutment 32 can be pushed inwards.

As shown in fig. 14 and 16, the holder 1 is provided with a through hole 16 through which the push button 36 passes, and the holder 1 is provided with a locking portion 17 for restricting the movement direction of the push-push integrated structure 3, and the push-push integrated structure 3 is slidable along the locking portion 17. The sliding contact portion 33 is provided with a limiting plate around the sliding switch lever 231, and the limiting plate around the sliding contact portion is matched to form the limiting groove 331 for transmitting thrust to the sliding switch lever 231, meanwhile, the pressing contact portion 32 is provided with a pressing area of the pressing switch 22, and the pressing area of the pressing switch 22 can cover the pressing switch compression bar 221 within the sliding travel range of the pressing contact portion 32, so that the pressing contact portion 32 slides to any position, and the pressing contact portion 32 can trigger the pressing switch 22 to operate.

In summary, in whichever structure type of push-push integrated key mechanism is adopted, the push-push integrated key mechanism uses the push-push integrated structure 3, when the function of the push switch 22 is required to be used, the push switch 22 can be triggered by pressing the push-push integrated structure 3, and when the function of the slide switch 23 is required to be used, the slide switch 23 can be driven by the slide push integrated structure 3, and the slide switch 23 can be adjusted to a required gear. The push button and the push button of the push button integrated structure 3 are designed integrally, but are not mutually influenced, the original two parts of the push button and the push button are simplified into one part, the occupied structural space is smaller, the appearance is simpler, the part cost and the die cost are greatly reduced, and the assembly process cost is greatly reduced.

It is to be understood that the above examples only represent preferred embodiments of the present utility model, which are described in more detail and are not to be construed as limiting the scope of the utility model; it should be noted that, for a person skilled in the art, the above technical features can be freely combined, and several variations and modifications can be made without departing from the scope of the utility model; therefore, all changes and modifications that come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims (10)

1. The utility model provides a push away and press integral type button mechanism which characterized in that includes:

the support (1), offer the activity hole (11) in the said support (1);

An electronic component (2), wherein the electronic component (2) comprises a base plate (21) fixedly arranged in the support (1), a push switch (22) and a sliding switch (23) which are arranged on the base plate (21) in a separated mode;

The pushing and pressing integrated structure (3), wherein the pushing and pressing integrated structure (3) is arranged in the movable hole (11) and is movably connected with the support (1), and the pushing and pressing integrated structure (3) comprises a pushing and pressing body (31), a pressing and abutting part (32) corresponding to the pressing switch (22), a sliding and abutting part (33) corresponding to the sliding switch (23) and an operating part (34);

The operation part (34) can drive the pressing abutting part (32) to press the pressing switch (22) under the action of external force, and meanwhile, the operation part (34) can also drive the sliding abutting part (33) to push the sliding switch (23) under the action of external force.

2. The push-push integrated key mechanism according to claim 1, wherein a slide switch lever (231) which is arranged in cooperation with the slide abutting portion (33) is provided on the slide switch (23), and a push switch pressing lever (221) which is arranged in cooperation with the push abutting portion (32) is provided on the push switch (22);

The sliding butt portion (33) is provided with a limit groove (331) matched with the sliding switch deflector rod (231), a preset gap is reserved between the sliding switch deflector rod (231) and the bottom wall of the limit groove (331), and the space formed between the side walls of the limit groove (331) is used for accommodating the sliding switch deflector rod (231).

3. Push-button mechanism according to claim 1, characterized in that the movable aperture (11) is arranged in the transversal direction of the support (1) and the outer surface of the operating part (34) protrudes from the movable aperture (11).

4. The push-push integrated key mechanism according to claim 2, wherein the push switch (22) is provided separately from the slide switch (23) on the opposite surface of the base plate (21), the push switch (22) being provided opposite to the slide switch (23);

the support (1) is internally provided with a first base (12), the first base (12) is provided with a first guide groove (121) for accommodating the pressing abutting part (32), the pressing abutting part (32) is slidable on the first guide groove (121), and the first guide groove (121) is arranged along the transverse direction of the first base (12).

5. The push-push integrated key mechanism according to claim 2, wherein the push switch (22) and the slide switch (23) are separately arranged on opposite surfaces or the same surface of the substrate (21), and the push switch (22) and the slide switch (23) are arranged in a dislocation manner;

a second base (14) is arranged in the support (1), a second guide groove (141) for accommodating the pressing abutting part (32) is formed in the second base (14), the pressing abutting part (32) can slide on the second guide groove (141), and the second guide groove (141) is arranged along the transverse direction of the second base (14);

The surface of the pushing body (31) facing the base plate (21) is provided with a limiting piece (311) which is arranged opposite to the plate edge of the base plate (21).

6. The push-push integrated key mechanism according to claim 2, wherein the push switch (22) is provided separately from the slide switch (23) on the opposite surface of the base plate (21), the push switch (22) being provided opposite to the slide switch (23);

The pushing and pressing integrated structure (3) further comprises a rotating shaft portion (35) integrally formed with the sliding abutting portion (33), a third base (15) is arranged in the support (1), a third guide groove (151) for accommodating the rotating shaft portion (35) is formed in the third base (15), the rotating shaft portion (35) is slidable and rotatable on the third guide groove (151), and the third guide groove (151) is arranged along the transverse direction of the third base (15).

7. The push-push integrated key mechanism according to claim 6, further comprising a cover body (6) connected to the support (1), wherein a limiting portion (61) for limiting the movement direction of the rotating shaft portion (35) is provided on the cover body (6).

8. The push-push integrated key mechanism according to claim 2, wherein the push switch (22) is provided separately from the slide switch (23) on the opposite surface or on the same surface of the substrate (21), and the push switch (22) is provided opposite to the slide switch (23);

The pushing body (31) comprises a first retaining plate (314) and a second retaining plate (312) which are arranged perpendicular to each other, the pushing abutting portion (32) is connected to the first retaining plate (314), the sliding abutting portion (33) is connected to the second retaining plate (312), and the operating portion (34) and the pushing abutting portion (32) are arranged opposite to each other.

9. The pushing and pressing integrated key mechanism according to claim 8, wherein the pushing and pressing integrated structure (3) further comprises a pushing button portion (36) connected to the second retention plate (312), the pushing button portion (36) is arranged on the surface of the second retention plate (312) facing away from the sliding abutting portion (33), a through hole (16) for the pushing button portion (36) to penetrate is formed in the support (1), and a buckle portion (17) for limiting the movement direction of the pushing and pressing integrated structure (3) is arranged on the support (1).

10. An electronic device comprising the push-to-push integrated key mechanism of any one of claims 1-9.