CN220420474U - Game paddle machinery button structure and game paddle - Google Patents

Abstract

The utility model discloses a mechanical key structure of a game handle and the game handle. According to the utility model, the silica gel cap is matched with the mechanical switch or the micro switch to press, so that the button stroke when a user presses the button is reduced, the service life of the button can be prolonged, and the user can conveniently and easily realize any frequency of quick-press operation.

Description

Game paddle machinery button structure and game paddle

Technical Field

The utility model relates to the field of electronic equipment, in particular to a mechanical key structure of a game handle and the game handle.

Background

In the field of game handles, key handfeel is always one of the most focused key points of users, and the key commonly used in the traditional game handle is of a conductive adhesive structure.

Patent 201621255422.4 discloses a key structure and a game handle, the key structure comprises a bracket, a conductive rubber pad, a compression spring, a key shell and a pressing block; one end of the conductive rubber pad and one end of the compression spring are arranged on the bracket; the key shell is rotatably arranged on the bracket, and the other end of the compression spring is arranged on the key shell; the pressing block is arranged on the key shell and faces the conductive rubber pad; when the button casing rotates towards the direction that is close to the support, press the briquetting and contact with electrically conductive cushion, press the electrically conductive cushion through pressing the briquetting, convert the analog quantity of output with the pressure of input.

However, with the push of many new games and the continuous upgrade and update of the game content, the disadvantage is exposed, namely, the high-frequency pressing (commonly called quick pressing) cannot be realized, which is obviously unacceptable to many players who are enthusiastic for fast-paced games, and the keys with the conductive adhesive structure need a certain stroke to highlight the paragraph sense, and the quick pressing cannot be realized when the stroke of the keys is large.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model provides a mechanical key structure of a game handle and the game handle, which can realize quick press and improve user experience.

In order to achieve the aim of the utility model, the utility model adopts the following technical scheme:

the utility model provides a game paddle machinery button structure, includes button, button support, silica gel regulating block and the button base of range upon range of setting in proper order on the PCB board, be provided with the silica gel cap corresponding with the pressing point position of button on the silica gel regulating block, the button is pressed through the cooperation of silica gel cap and the mechanical switch on the PCB board.

In one implementation mode, the mechanical key structure of the game handle comprises a cross key, a cross key support, a cross key silica gel adjusting block and a cross key base which are sequentially stacked on a PCB, wherein a cross key silica gel cap corresponding to the pressing point position of the cross key is arranged on the cross key silica gel adjusting block, and the cross key is matched with a key switch on the PCB to be pressed through the cross key silica gel cap.

Preferably, the cross key silica gel cap has a spherical structure.

Preferably, the cross key comprises a cross key cap and a cross pressing groove arranged on the lower surface of the cross key cap.

Preferably, the cross key support comprises a cross key support seat, a cross pressing ridge arranged on the upper surface of the cross key support seat and matched with the cross pressing groove, and four cross key pressing sleeves arranged on the lower surface of the cross key support seat.

Preferably, the cross key silica gel adjusting block comprises a cross key silica gel adjusting seat and cross key silica gel caps which are arranged on the upper surface of the cross key silica gel adjusting seat and are opposite to the cross key pressing sleeves one by one.

Preferably, the cross key base comprises a cross key base support plate and cross key base support walls arranged on the lower surface of the cross key base support plate, and cross key pressing holes which are opposite to the cross key silica gel caps one by one are formed in the cross key base support plate.

Preferably, the mechanical switch on the PCB board is disposed in a cavity formed by the PCB board and the cross key base, and the mechanical switch is disposed opposite to the cross key pressing holes on the cross key base one by one.

In one implementation mode, the mechanical key structure of the game handle comprises an ABXY key, an ABXY key support, an ABXY key silica gel adjusting block and an ABXY key base which are sequentially stacked on a PCB, wherein an ABXY key silica gel cap corresponding to the pressing point position of the ABXY key is arranged on the ABXY key silica gel adjusting block, and the ABXY key is pressed by matching the ABXY key silica gel cap with a micro switch on the PCB.

Preferably, the ABXY keys include an a key, a B key, an X key, and a Y key, and three keys of the four keys have the same height and are greater than the height of the other key.

Preferably, the ABXY key support comprises an ABXY key support seat, wherein the ABXY key support seat is provided with mounting holes corresponding to the ABXY keys, and the lower ends of the mounting holes for mounting three keys with larger heights in the ABXY keys are respectively provided with an ABXY key pressing sleeve.

Preferably, the ABXY key silica gel adjusting block comprises a first ABXY key silica gel adjusting seat and a second ABXY key silica gel adjusting seat, the first ABXY key silica gel adjusting seat and the second ABXY key silica gel adjusting seat form an upper-lower two-layer structure through a connecting column, the upper surface of the first ABXY key silica gel adjusting seat is provided with ABXY key silica gel caps which are opposite to the ABXY key pressing sleeves one by one, and the upper surface of the second ABXY key silica gel adjusting seat is provided with ABXY key silica gel caps which are opposite to mounting holes of a smaller-height key in the ABXY key.

Preferably, the ABXY key base comprises a first ABXY key base support plate and a second ABXY key base support plate, the first ABXY key base support plate and the second ABXY key base support plate form an upper-lower two-layer structure through support columns, the lower surfaces of the first ABXY key base support plate and the second ABXY key base support plate are respectively provided with an ABXY key base support wall, and ABXY key pressing holes which are opposite to the ABXY key silica gel caps one by one are respectively arranged in the first ABXY key base support plate and the second ABXY key base support plate.

Preferably, the micro-switch on the PCB is arranged in a cavity formed by the PCB and the ABXY key base, and the micro-switch is arranged in a one-to-one opposite manner to the ABXY key pressing holes on the ABXY key base.

The utility model also provides a game handle, which adopts any one of the mechanical key structures of the game handle.

The utility model has the following beneficial effects:

according to the utility model, the pressure transmission is realized by using the laminated structure, and the press is realized by matching the silica gel cap with the mechanical switch or the micro switch, so that the key stroke when a user presses the key is reduced, the service life of the key is prolonged, the user can conveniently and easily realize any frequency of quick press operation, and the key press can generate mechanical impact sound, so that the user operation is more immersed, and the user experience is remarkably improved.

Drawings

FIG. 1 is a exploded view of a mechanical key structure of a game handle according to embodiment 1 of the present utility model;

fig. 2 is a schematic structural diagram of a cross key in embodiment 1 of the present utility model;

fig. 3 is a schematic structural diagram of a cross key support in embodiment 1 of the present utility model;

fig. 4 is a schematic structural diagram of a silica gel adjusting block of a cross key in embodiment 1 of the present utility model;

fig. 5 is a schematic structural diagram of a cross key base in embodiment 1 of the present utility model;

fig. 6 is a exploded view of a mechanical key structure of a game handle according to embodiment 2 of the present utility model.

Fig. 7 is a schematic structural diagram of an ABXY key holder in embodiment 2 of the present utility model;

fig. 8 is a schematic structural diagram of an ABXY key silica gel adjusting block in embodiment 2 of the present utility model;

fig. 9 is a schematic structural diagram of an ABXY key base in embodiment 2 of the present utility model;

fig. 10 is an assembly diagram of a mechanical key structure of a game pad according to embodiment 1 and embodiment 2 of the present utility model.

Wherein the reference numerals are as follows: 1. the cross button, 101, cross button cap, 102, cross pressing groove, 2, cross button support, 201, cross button support seat, 202, cross pressing ridge, 203, cross button pressing sleeve, 3, cross button silica gel adjusting block, 301, cross button silica gel adjusting seat, 302, cross button silica gel cap, 4, cross button base, 401, cross button base support plate, 402, cross button base support wall, 403, cross button pressing hole, 5, mechanical switch, 6, ABXY button, 7, ABXY button support, 701, ABXY button support seat, 702, mounting hole, 703, ABXY button pressing sleeve, 8, ABXY button silica gel adjusting block, 801, first ABXY button silica gel adjusting seat, 802, second ABXY button silica gel adjusting seat, 803, connecting column, 804, ABXY button silica gel cap, 9, ABXY button base 901, first ABXY button base support plate, 902, second ABXY button base support plate, 903, support column, 904, ABXY button base support wall, 905, xy button pressing hole, 10, ABXY button switch.

Detailed Description

The following description of the embodiments of the present utility model is provided to facilitate understanding of the present utility model by those skilled in the art, but it should be understood that the present utility model is not limited to the scope of the embodiments, and all the utility models which make use of the inventive concept are protected by the spirit and scope of the present utility model as defined and defined in the appended claims to those skilled in the art.

The embodiment of the utility model provides a mechanical key structure of a game handle, which comprises keys, a key support, a silica gel adjusting block and a key base which are sequentially stacked on a PCB, wherein a silica gel cap corresponding to the pressing point position of each key is arranged on the silica gel adjusting block, and the keys are pressed by the silica gel cap in a matched manner with a mechanical switch on the PCB.

According to the utility model, the pressure transmission is realized by using the laminated structure formed by the keys, the key support, the silica gel regulating block and the key base, and the press is realized by matching the silica gel cap with the key switch, so that the key stroke when a user presses the keys is reduced, the service life of the keys is prolonged, the user can conveniently and easily realize any frequency quick-press operation, and the user experience is obviously improved.

Example 1

As shown in fig. 1 to 5, this embodiment provides a mechanical key structure of a game handle, including a cross key 1, a cross key support 2, a cross key silica gel adjusting block 3 and a cross key base 4 that are sequentially stacked on a PCB board, a cross key silica gel cap 302 corresponding to a pressing point of the cross key 1 is disposed on the cross key silica gel adjusting block 3, and the cross key 1 is pressed by matching the cross key silica gel cap 302 with a mechanical switch 5 on the PCB board.

The pressure transmission is realized by the cross key 1 and the cross key support 2, and the cross key silica gel cap 302 on the cross key silica gel regulating block 3 is matched with the mechanical switch 5 to press, so that the key stroke when a user presses the cross key 1 is reduced, the service life of the key can be prolonged, the user can easily realize quick press operation of any frequency, mechanical impact sound can be emitted when the key is pressed, the user operation is more immersed, and the user experience is remarkably improved.

In an optional embodiment of the present utility model, the cross key silica gel cap 302 provided on the cross key silica gel adjusting block 3 is further provided with a spherical structure, so that better operation feel can be obtained when the cross key support 2 is contacted with the spherical silica gel cap on the cross key silica gel adjusting block 3, and thus the operation experience of a user is improved.

In an alternative embodiment of the present utility model, the cross key 1 used in this embodiment includes a cross key cap 101 and a cross pressing groove 102 provided on the lower surface of the cross key cap 101. As shown in fig. 2, based on such a structural arrangement, a user can transmit a pressing force to the cross key holder 2 through the cross pressing groove 102 of the lower surface of the cross key cap 101 when pressing the cross key cap 101.

In an alternative embodiment of the present utility model, the cross key holder 2 used in this embodiment includes a cross key holder 201, a cross pressing ridge 202 disposed on the upper surface of the cross key holder 201 and matching with the cross pressing groove 102, and four cross key pressing sleeves 203 disposed on the lower surface of the cross key holder 201. As shown in fig. 3, based on such a structural arrangement, the cross key 1 can be stably mounted on the cross key support 2, the cross key support seat 201 provides a supporting force for bearing the cross key 1, and the cross key 1 is limited in a proper movable space by nesting cooperation of the cross pressing ridge 202 and the cross pressing groove 102, so that the stability of the mechanical key structure is improved; in addition, the pressing pressure applied by the cross key 1 can be transmitted through the four cross key pressing sleeves 203 on the lower surface of the cross key support 2, so that the pressing action of the cross key silica gel cap 302 on the cross key silica gel regulating block 3 is realized, and the stroke, the force and the required hand feeling of the key can be regulated through the cross key silica gel regulating block 3.

In an alternative embodiment of the present utility model, the cross key silica gel adjusting block 3 used in this embodiment includes a cross key silica gel adjusting seat 301 and cross key silica gel caps 302 disposed on an upper surface of the cross key silica gel adjusting seat 301 and opposite to the cross key pressing sleeves 203 one by one. As shown in fig. 4, with such a configuration, the upper part of the cross key silica gel cap 302 is in direct contact with the cross key pressing sleeve 203 on the lower surface of the cross key holder 2, so that the pressing force transmitted by the cross key pressing sleeve 203 can be received, and the pressing action can be realized; and because the cross key silica gel cap 302 adopts the cap-shaped structure, the lower part of the silica gel cap forms a cavity, so that the cross key silica gel cap 302 can form a pressing stroke under the pressing action, can be contacted with the mechanical switch 5 on the PCB after reaching a certain pressing stroke, and can actuate a switch button on the mechanical switch 5, thereby finishing the pressing operation of the mechanical button.

In an alternative embodiment of the present utility model, the cross key base 4 used in this embodiment includes a cross key base support plate 401 and a cross key base support wall 402 disposed on a lower surface of the cross key base support plate 401, where the cross key base support plate 401 is provided with cross key pressing holes 403 that are opposite to the cross key silica gel caps 302 one by one. As shown in fig. 5, based on such a structural arrangement, the cross key base support plate 401 can provide a supporting function for the cross key silica gel adjusting block 3 and above, so as to improve the stability of the mechanical key structure; and through the cross key pressing hole 403 on the cross key base supporting plate 401, the cross key silica gel cap 302 on the cross key silica gel adjusting block 3 can be in contact with the mechanical switch 5 on the PCB, so that the pressing operation of the mechanical button is conveniently realized.

In an alternative embodiment of the present utility model, the mechanical switch 5 on the PCB board of the present embodiment is disposed in a cavity formed by the PCB board and the cross key base 4, and the mechanical switch 5 is disposed opposite to the cross key pressing holes 403 on the cross key base 4 one by one. Based on such a structural arrangement, the cross key base supporting wall 402 on the lower surface of the cross key base supporting plate 401 can be utilized to effectively protect the internal mechanical switch 5, and meanwhile, sundries such as dust can be prevented from entering to damage the mechanical switch 5, so that the safety of the mechanical key structure is improved, and the service life of the mechanical key structure is prolonged.

Example 2

As shown in fig. 6 to 10, this embodiment provides a mechanical key structure of a game handle, including an ABXY key 6, an ABXY key support 7, an ABXY key silica gel adjusting block 8 and an ABXY key base 9 which are sequentially stacked on a PCB board, an ABXY key silica gel cap 804 corresponding to the pressing point of the ABXY key 6 is provided on the ABXY key silica gel adjusting block 8, and the ABXY key 6 is pressed by matching the ABXY key silica gel cap 804 with a micro switch 10 on the PCB board.

The embodiment utilizes the ABXY key 6 and the ABXY key support 7 to realize pressure transmission, and realizes the cooperation pressing with the micro switch 10 through the ABXY key silica gel cap 804 on the ABXY key silica gel regulating block 8, thereby realizing the reduction of the key stroke when the user presses the ABXY key 6, simultaneously improving the service life of the key, being convenient for the user to easily realize the quick-press operation of any frequency, and the key pressing can send out mechanical impact sound, so that the user operation has more immersion feeling, and the user experience is obviously improved.

In an alternative embodiment of the present utility model, the ABXY key 6 used in this embodiment includes an a key, a B key, an X key, and a Y key, and three keys of the four keys have the same height and are larger than the height of the other key. Based on such structure setting, set up the height that highly the same just is greater than Y button with A button, B button, X button to can be through pressing ABXY button 6 with pressing pressure transfer to ABXY button support 7, conveniently realize pressing the operation to the micro-gap switch 10 of not high position on the PCB board.

In an alternative embodiment of the present utility model, the ABXY key support 7 used in this embodiment includes an ABXY key support seat 701, the ABXY key support seat 701 is provided with a mounting hole 702 corresponding to the ABXY key 6, and the lower ends of the mounting holes 702 for mounting three keys with larger heights in the ABXY key 6 are respectively provided with an ABXY key pressing sleeve 703. As shown in fig. 7, based on such a structural arrangement, the ABXY key 6 can be stably mounted on the ABXY key support 7, the ABXY key support 701 provides a supporting force for bearing the ABXY key 6, and the pressing pressure applied by the key is transferred to the corresponding ABXY key silica gel cap 804 on the ABXY key silica gel adjusting block 8 through the ABXY key pressing sleeve 703 on the lower surface of the ABXY key, and the pressing pressure is directly transferred to the corresponding ABXY key silica gel cap 804 on the ABXY key silica gel adjusting block 8 by the y key, so that the pressing action of the ABXY key silica gel cap 804 on the ABXY key silica gel adjusting block 8 is realized, and therefore, the adjustment of the stroke, the force and the required hand feeling of the key can be realized through the ABXY key silica gel adjusting block 8.

In an alternative embodiment of the present utility model, the ABXY key silica gel adjusting block 8 adopted in this embodiment includes a first ABXY key silica gel adjusting seat 801 and a second ABXY key silica gel adjusting seat 802, where the first ABXY key silica gel adjusting seat 801 and the second ABXY key silica gel adjusting seat 802 form an upper and lower two-layer structure through a connecting column 803, an ABXY key silica gel cap 804 opposite to the ABXY key pressing sleeve 703 one by one is provided on an upper surface of the first ABXY key silica gel adjusting seat 801, and an ABXY key silica gel cap 804 opposite to the mounting hole 702 of a smaller height key in the ABXY key 6 is provided on an upper surface of the second ABXY key silica gel adjusting seat 802. As shown in fig. 8, based on such a structural arrangement, the pressing operation of the micro switch 10 at different height positions on the PCB board can be conveniently realized; the upper part of the ABXY key silica gel cap 804 is in direct contact with the ABXY key pressing sleeve 703 and the Y key on the lower surface of the ABXY key support 7, so that the transmitted pressing pressure can be received, and the pressing action is realized; and because the cap-shaped structure adopted by the ABXY key silica gel cap 804, the lower part of the ABXY key silica gel cap 804 forms a cavity, so that the ABXY key silica gel cap 804 forms a pressing stroke under the pressing action, can be contacted with the micro switch 10 on the PCB after reaching a certain pressing stroke, and clicks a switch button on the micro switch 10, thereby finishing the pressing operation of a mechanical key.

In an alternative embodiment of the present utility model, the ABXY key base 9 adopted in this embodiment includes a first ABXY key base support plate 901 and a second ABXY key base support plate 902, where the first ABXY key base support plate 901 and the second ABXY key base support plate 902 form an upper and lower two-layer structure through a support post 903, the lower surfaces of the first ABXY key base support plate 901 and the second ABXY key base support plate 902 are respectively provided with an ABXY key base support wall 904, and ABXY key pressing holes 905 that are respectively provided on the first ABXY key base support plate 901 and the second ABXY key base support plate 902 and are in one-to-one opposite to the ABXY key silica gel caps 804. As shown in fig. 9, based on such a structural arrangement, the pressing operation of the micro switch 10 at different height positions on the PCB board can be conveniently realized; the support plate of the ABXY key base can provide the support function for the ABXY key silica gel regulating block and the structure above, so that the stability of the mechanical key structure is improved; and through the ABXY button pressing hole 905 in the ABXY button base support plate, the ABXY button silica gel cap 804 on the ABXY button silica gel adjusting block 8 can be in contact with the micro switch 10 on the PCB, so that the pressing operation of the mechanical button is conveniently realized.

In an alternative embodiment of the present utility model, the micro switch 10 on the PCB board of the present embodiment is disposed in a cavity formed by the PCB board and the ABXY key base 9, and the micro switch 10 is disposed opposite to the ABXY key pressing holes 905 on the ABXY key base 9 one by one. Based on such structure setting, can utilize ABXY button base backing plate lower surface's ABXY button base supporting wall 904 to realize effectively protecting inside micro-gap switch 10, can prevent debris such as dust from getting into simultaneously and causing micro-gap switch 10 to damage to improve mechanical button structure's security, extension mechanical button structure's life.

Example 3

The present embodiment provides a game paddle, which adopts the mechanical key structure of the game paddle as in any one of embodiment 1 and embodiment 2.

The principles and embodiments of the present utility model have been described in detail with reference to specific examples, which are provided to facilitate understanding of the method and core ideas of the present utility model; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in accordance with the ideas of the present utility model, the present description should not be construed as limiting the present utility model in view of the above.

Those of ordinary skill in the art will recognize that the embodiments described herein are for the purpose of aiding the reader in understanding the principles of the present utility model and should be understood that the scope of the utility model is not limited to such specific statements and embodiments. Those of ordinary skill in the art can make various other specific modifications and combinations from the teachings of the present disclosure without departing from the spirit thereof, and such modifications and combinations remain within the scope of the present disclosure.

Claims (15)

1. The utility model provides a game paddle machinery button structure, its characterized in that, including layering button, button support, silica gel regulating block and the button base that sets up in proper order on the PCB board, be provided with the silica gel cap corresponding with the pressing point position of button on the silica gel regulating block, the button is pressed through the cooperation of silica gel cap and the button switch on the PCB board.

2. The mechanical key structure of a game handle according to claim 1, comprising a cross key (1), a cross key support (2), a cross key silica gel adjusting block (3) and a cross key base (4) which are sequentially stacked on a PCB, wherein the cross key silica gel adjusting block (3) is provided with a cross key silica gel cap (302) corresponding to the pressing point position of the cross key (1), and the cross key (1) is matched and pressed with a mechanical switch (5) on the PCB through the cross key silica gel cap (302).

3. The mechanical key structure of a game pad according to claim 2, wherein the cross key silica gel cap (302) is of spherical structure.

4. The mechanical key structure of a game handle according to claim 2, wherein the cross key (1) comprises a cross key cap (101) and a cross pressing groove (102) provided on a lower surface of the cross key cap (101).

5. The mechanical key structure of a game handle according to claim 2, wherein the cross key support (2) comprises a cross key support base (201), a cross pressing ridge (202) arranged on the upper surface of the cross key support base (201) and matched with the cross pressing groove (102), and four cross key pressing sleeves (203) arranged on the lower surface of the cross key support base (201).

6. The mechanical key structure of a game handle according to claim 5, wherein the cross key silica gel adjusting block (3) comprises a cross key silica gel adjusting seat (301) and cross key silica gel caps (302) which are arranged on the upper surface of the cross key silica gel adjusting seat (301) and are opposite to the cross key pressing sleeves (203) one by one.

7. A mechanical key structure of a game handle according to claim 3, wherein the cross key base (4) comprises a cross key base supporting plate (401) and a cross key base supporting wall (402) arranged on the lower surface of the cross key base supporting plate (401), and cross key pressing holes (403) which are opposite to the cross key silica gel caps (302) one by one are arranged on the cross key base supporting plate (401).

8. The mechanical key structure of the game handle according to claim 7, wherein the mechanical switch (5) on the PCB board is disposed in a cavity formed by the PCB board and the cross key base (4), and the mechanical switch (5) is disposed in one-to-one correspondence with the cross key pressing holes (403) on the cross key base (4).

9. The mechanical key structure of a game handle according to claim 1, comprising an ABXY key (6), an ABXY key support (7), an ABXY key silica gel adjusting block (8) and an ABXY key base (9) which are sequentially stacked on a PCB, wherein an ABXY key silica gel cap (804) corresponding to the pressing point position of the ABXY key (6) is arranged on the ABXY key silica gel adjusting block (8), and the ABXY key (6) is pressed by matching the ABXY key silica gel cap (804) with a micro switch (10) on the PCB.

10. The mechanical key structure of a game pad according to claim 9, wherein the ABXY key (6) comprises an a key, a B key, an X key and a Y key, three keys of the four keys having the same height and being larger than the other key.

11. The mechanical key structure of a game handle according to claim 9, wherein the ABXY key support (7) comprises an ABXY key support seat (701), mounting holes (702) corresponding to the ABXY keys (6) are arranged on the ABXY key support seat (701), and ABXY key pressing sleeves (703) are respectively arranged at the lower ends of the mounting holes (702) for mounting three keys with larger heights in the ABXY keys (6).

12. The mechanical key structure of a game handle according to claim 11, wherein the ABXY key silica gel adjusting block (8) comprises a first ABXY key silica gel adjusting seat (801) and a second ABXY key silica gel adjusting seat (802), the first ABXY key silica gel adjusting seat (801) and the second ABXY key silica gel adjusting seat (802) form an upper-lower two-layer structure through a connecting column (803), ABXY key silica gel caps (804) which are opposite to ABXY key pressing sleeves (703) one by one are arranged on the upper surface of the first ABXY key silica gel adjusting seat (801), and ABXY key silica gel caps (804) which are opposite to mounting holes (702) of one smaller-height key in the ABXY keys are arranged on the upper surface of the second ABXY key silica gel adjusting seat (802).

13. The mechanical key structure of a game handle according to claim 12, wherein the ABXY key base (9) comprises a first ABXY key base support plate (901) and a second ABXY key base support plate (902), the first ABXY key base support plate (901) and the second ABXY key base support plate (902) form an upper-lower two-layer structure through a support column (903), the lower surfaces of the first ABXY key base support plate (901) and the second ABXY key base support plate (902) are respectively provided with an ABXY key base support wall (904), and ABXY key pressing holes (905) which are opposite to ABXY key silica gel caps (804) are respectively arranged on the first ABXY key base support plate (901) and the second ABXY key base support plate (902).

14. The mechanical key structure of a game handle according to claim 13, wherein the micro switch (10) on the PCB board is disposed in a cavity formed by the PCB board and the ABXY key base (9), and the micro switch (10) is disposed in one-to-one correspondence with the ABXY key pressing holes (905) on the ABXY key base (9).

15. A gamepad, characterized in that a gamepad mechanical key structure as claimed in any one of the preceding claims 1 to 14 is used.