CN220627656U - Function key module and game handle with same - Google Patents

Abstract

The utility model discloses a function key module and a game handle with the function key module, wherein the function key module comprises a bracket, a rotating shaft assembly movably arranged on the bracket, a circuit board sleeved on the rotating shaft assembly, conductive adhesive and a micro switch arranged on the circuit board, and a rotating connecting piece is arranged between the circuit board and the rotating shaft assembly, when the rotating shaft assembly is rotated, the rotating connecting piece drives the circuit board to rotate so that each key contact on the conductive adhesive is opposite to the bottom end of one function key on the game handle, or each micro switch is opposite to the bottom end of one function key on the game handle. According to the utility model, the two groups of keys with different handfeel of the conductive adhesive and the micro switch are arranged on the circuit board, and the circuit board is rotated through the rotating shaft assembly, so that the two key modes are mutually switched, the game handle is not required to be replaced, and the game experience is good.

Description

Function key module and game handle with same

Technical Field

The utility model relates to the technical field of handle keys, in particular to a functional key module and a game handle with the functional key module.

Background

At present, the keys of the game handle in the market are realized in two ways: conventional conductive silicone keys and micro-switch keys. The two handle keys have the advantages that: the conductive adhesive key has good hand feeling, silence and rapid rebound, but the consistency is poor in production, the strength is large and small, and the difference range is larger; the micro switch key has good strength consistency, the service life can reach 500 ten thousand times, the relative conductive adhesive is long, but the key stroke is short, the sound is crisp, and the hand feeling is bad.

The existing game handle usually adopts one of the key modes, so that a user cannot experience keys with different handfeel on one game handle, and the user who pursues different handfeel experiences needs to purchase the game handle with different key modes to experience the user, and the cost is high.

Disclosure of Invention

The utility model provides a function key module and a game handle with the function key module, which are used for solving the problem of poor hand feeling experience caused by single key mode of the existing game handle.

In order to solve the above problems, the present utility model provides a function key module, comprising: the bracket is provided with a groove; the bottom end of the rotating shaft assembly is movably arranged in the groove; the circuit board is provided with a hole in the center and sleeved on the rotating shaft assembly, a first key circuit and a second key circuit are arranged on the circuit board in parallel, and corresponding control signals are generated and output when the first key circuit or the second key circuit is closed; the conductive adhesive is arranged on the circuit board and is opposite to the first key circuit, the conductive adhesive comprises at least one key contact, and when the key contact is pressed down, the first key circuit is closed; at least one micro switch arranged on the circuit board and opposite to the second key circuit, wherein when the micro switch is pressed down, the second key circuit is closed; and a rotary connecting piece is further arranged between the circuit board and the rotary shaft assembly, and when the rotary shaft assembly is rotated, the rotary connecting piece drives the circuit board to rotate so that each key contact on the conductive adhesive is opposite to the bottom end of one functional key on the game handle or each micro switch is opposite to the bottom end of one functional key on the game handle.

As a further improvement of this application, the swivelling joint spare includes connecting rod, first vaulting pole and second vaulting pole, and first vaulting pole and second vaulting pole are connected perpendicularly with the both ends of connecting rod respectively, and the edge position that keeps away from central trompil on the circuit board is provided with first block hole, and first vaulting pole block is in first block hole, and the second vaulting pole block is on rotation axis subassembly.

As the further improvement of this application, rotation axis subassembly includes rotation axis and base, and the size and the recess of base match, are provided with second block hole and the reference column that matches with swivelling joint spare on the base, and the bottom of rotation axis is provided with spacing groove and locating hole, and the reference column block is in the locating hole, and the second vaulting pole block is in the second block downthehole, and the connecting rod is close to the tip region holding of second vaulting pole in the spacing inslot.

As the further improvement of this application, just still be provided with first spacing post and second spacing post to spacing groove region on the base, the second block hole sets up between first spacing post and second spacing post, and the width of first spacing post and second spacing post matches with spacing groove width, and first spacing post holding is in spacing inslot and top butt spacing groove's bottom, and the space that supplies the connecting rod to pass is left between the spacing inslot and top and spacing groove's bottom to the spacing post holding of second.

As a further improvement of the application, the top end of the rotating shaft is provided with a linear groove.

As the further improvement of this application, still include silica gel pad and silica gel support, the silica gel support is connected with game paddle's casing, and the silica gel pad sets up on the silica gel support, and silica gel pad center trompil and cover are located on the rotation axis subassembly, the bottom butt silica gel pad of the button on the game paddle.

As a further improvement of the application, the silica gel pad is provided with a key protruding portion corresponding to a key on the game handle, the key protruding portion is abutted to the bottom end of the key on the game handle, and when the rotating shaft assembly is rotated, the rotating connecting piece drives the circuit board to rotate so that each key contact on the conductive adhesive is opposite to one key protruding portion, or each micro switch is opposite to one key protruding portion.

As a further improvement of the circuit board, the circuit board is circularly arranged, and the micro-switches and the key contacts are staggered in the peripheral annular area of the circuit board.

In order to solve the above problems, the present utility model further provides a game pad including: the multifunctional electric power device comprises a shell, a left rocker assembly, a right rocker assembly, a direction key assembly and a function key assembly, wherein the function key assembly comprises a plurality of function keys and one of the function key modules, the function keys are arranged in key hole positions of the function keys preset on the shell, the function key modules comprise a support, a rotating shaft assembly, a circuit board, conductive adhesives, micro switches and rotating connecting pieces, the number of key contacts on the conductive adhesives and the number of the micro switches are equal to that of the function keys, the function key modules are arranged in the shell and right face the bottom ends of the function keys, through holes are formed in the shell and close to the key hole positions, the top ends of the rotating shaft assembly extend to the outside of the shell from the through holes, and when the rotating shaft assembly is rotated, the rotating connecting pieces drive the circuit board to rotate so that each key contact on the conductive adhesive faces the bottom end of one function key or each micro switch faces the bottom end of one function key.

Compared with the prior art, the functional key module provided by the utility model has the advantages that the rotating shaft assembly is movably arranged on the support, the rotating shaft assembly can rotate, the circuit board is sleeved on the rotating shaft assembly, the rotating connecting piece is arranged between the rotating shaft assembly and the circuit board, two key circuits are arranged on the circuit board, the conductive adhesive and the micro switch are arranged on the circuit board and respectively correspond to one key circuit, when the rotating shaft assembly is rotated, the rotating connecting piece drives the circuit board to rotate, so that each key contact on the conductive adhesive is opposite to the bottom end of one functional key on the game handle, or each micro switch is opposite to the bottom end of one functional key on the game handle, and therefore, the mutual switching between the conductive adhesive key mode and the micro switch key mode is realized, a user can experience the key modes with two different handfeel through one game handle without buying the game handles with different key modes, and the cost of user experience is reduced.

Drawings

FIG. 1 is a schematic diagram of an embodiment of a functional key module according to the present utility model;

FIG. 2 is a schematic diagram of a base of an embodiment of a functional key module according to the present utility model;

FIG. 3 is a schematic diagram illustrating a structure of a rotating shaft of an embodiment of a functional key module according to the present utility model;

FIG. 4 is a schematic view of an embodiment of a game pad of the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

FIG. 1 is a schematic diagram showing the structure of an embodiment of the functional key module of the present utility model. As shown in fig. 1, the functional key module includes a bracket 100, a rotating shaft assembly 101, a circuit board 102, conductive adhesive 103, at least one micro switch 104, and a rotating connector 105.

The bracket 100 specifically includes two bracket arms 1000 and a connection portion 1001, a groove 1002 is provided on the connection portion 1001, and screw holes are provided on the two bracket arms 1000 for connection with a game handle. The bottom end of the rotation shaft assembly 101 is movably disposed within the groove 1002 such that the rotation shaft assembly 101 can rotate within the groove 1002. The center of the circuit board 102 is provided with a hole and sleeved on the rotating shaft assembly 101, a first key circuit and a second key circuit are arranged on the circuit board 102 in parallel, and corresponding control signals are generated and output when the first key circuit or the second key circuit is closed. The conductive adhesive 103 is arranged on the circuit board 102 and faces the first key circuit, the conductive adhesive 103 comprises at least one key contact 1030, when the key contact 1030 is pressed down, the first key circuit is closed, the number of the key contacts 1030 is specifically set according to actual requirements, and each functional key corresponds to one key contact 1030. At least one micro switch 104 is arranged on the circuit board 102 and is opposite to the second key circuit, when the micro switch 104 is pressed down, the second key circuit is closed, the number of the micro switches 104 is specifically set according to actual requirements, and each functional key corresponds to one micro switch 104. One end of the rotary connecting piece 105 is arranged on the circuit board 102, and the other end of the rotary connecting piece 105 is arranged on the rotary shaft assembly 101, so that the circuit board 102 can be driven to rotate through the rotary connecting piece 105 when the rotary shaft assembly 101 rotates. When the rotary shaft assembly 101 is rotated, the rotary connecting piece 105 drives the circuit board 102 to rotate, so that each key contact 1030 on the conductive adhesive 103 faces the bottom end of one function key on the game handle, or each micro switch 104 faces the bottom end of one function key on the game handle.

According to the functional key module, the rotating shaft assembly 101 is movably arranged on the support 100, so that the rotating shaft assembly 101 can rotate, the circuit board 102 is sleeved on the rotating shaft assembly 101, a rotating connecting piece 105 is arranged between the rotating shaft assembly 101 and the circuit board 102, two key circuits are arranged on the circuit board 102, the conductive adhesive 103 and the micro switch 104 are arranged on the circuit board 102 and correspond to the key circuits respectively, when the rotating shaft assembly 101 is rotated, the rotating connecting piece 105 drives the circuit board 102 to rotate, so that each key contact 1030 on the conductive adhesive 103 is opposite to the bottom end of one functional key on the game handle, or each micro switch 104 is opposite to the bottom end of one functional key on the game handle, so that mutual switching between the key modes of the conductive adhesive 103 and the micro switch 104 is realized, a user can experience key modes with two different handfeel through one game handle, the user does not need to purchase the game handles with different key modes respectively, and the cost of the user is reduced.

In this embodiment, the rotary connector 105 includes a link 1050, a first stay 1051 and a second stay 1052, and the first stay 1051 and the second stay 1052 are respectively connected perpendicularly to both ends of the link 1050. Preferably, the first and second struts 1051 and 1052 are located on either side of the link 1050 and in the same plane. The circuit board 102 is provided with a first clamping hole 1020 at an edge position far away from the central opening, the first clamping hole 1020 is matched with the first stay 1051 in size, and the first stay 1051 is inserted into the first clamping hole 1020 to be fixed in the first clamping hole 1020. The second supporting rod 1052 is snapped onto the rotating shaft assembly 101, so that when the rotating shaft assembly 101 rotates, a force can be applied to the circuit board 102 through the rotating connection 105, so that the circuit board 102 rotates synchronously. The rotation shaft assembly 101 comprises a rotation shaft 1010 and a base 1011, the base 1011 being sized to match the recess 1002, preferably the base 1011 is configured cylindrically, and the recess 1002 is likewise configured as a cylindrical recess 1002, facilitating rotation of the base 1011 in the recess 1002. As shown in fig. 2, the base 1011 is provided with a second engagement hole 10110 and a positioning post 10111 which are matched with the rotary connector 105. As shown in fig. 3, a limiting groove 10100 and a positioning hole 10101 are formed at the bottom end of the rotating shaft 1010, the positioning column 10111 is clamped in the positioning hole 10101, so that the base 1011 and the rotating shaft 1010 are fixed, the second supporting rod 1052 is clamped in the second clamping hole 10110, the connecting rod 1050 is accommodated in the limiting groove 10100 near the end region of the second supporting rod 1052, when the rotating shaft 1010 rotates, a force is applied to the connecting rod 1050 clamped in the limiting groove 10100, so that the rotary connecting piece 105 rotates, and the circuit board 102 is driven to rotate. In addition, a first limit post 10112 and a second limit post 10113 for limiting the second stay 1052 and the connecting rod 1050 are further arranged on the base 1011 opposite to the limit groove 10100 area, the second clamping hole 10110 is arranged between the first limit post 10112 and the second limit post 10113, the width of the first limit post 10112 and the width of the second limit post 10113 are matched with the width of the limit groove 10100, the height of the first limit post 10112 is higher than that of the second limit post 10113, when the base 1011 is mounted on the bottom end of the rotating shaft 1010, the top of the first limit post 10112 just abuts against the bottom of the limit groove 10100, and an area just for the connecting rod 1050 to pass through is reserved between the top of the second limit post 10113 and the bottom of the limit groove 10100.

Further, a linear groove is provided at the top end of the rotation shaft 1010.

Specifically, by providing a "in-line" slot at the top of the rotation shaft 1010, the user rotates the rotation shaft 1010 by means of a "in-line" screwdriver.

Further, the function key module further comprises a silica gel pad 106 and a silica gel support 107, the silica gel support 107 is connected with the shell of the game handle, the silica gel pad 106 is arranged on the silica gel support 107, the center of the silica gel pad 106 is provided with a hole and is sleeved on the rotating shaft assembly 101, and the bottom end of a key on the game handle is abutted against the silica gel pad 106.

Specifically, this embodiment has played dustproof effect through setting up silica gel pad 106, and it has avoided falling on circuit board 102 to lead to key circuit to switch on to break down because of the dust gets into from game paddle's button hole on one hand, and on the other hand has played the cushioning effect, and the button adopts hard rubber material to make generally, can avoid button and conducting resin 103 or micro-gap switch 104 direct contact through this silica gel pad 106, reduces its wearing and tearing to conducting resin 103 or micro-gap switch 104, improves conducting resin 103 and micro-gap switch 104's life.

In order to improve the triggering effect of the key and reduce the occurrence of the ineffective condition of the key, in another embodiment, the silica gel pad 106 is provided with a key protruding portion 1060 corresponding to the key on the game handle, the key protruding portion 1060 abuts against the bottom end of the key on the game handle, and when the rotating shaft assembly 101 is rotated, the rotating connecting piece 105 drives the circuit board 102 to rotate, so that each key contact 1030 on the conductive adhesive 103 is opposite to one key protruding portion 1060, or each micro switch 104 is opposite to one key protruding portion 1060.

Specifically, through setting up the button bellying 1060 that corresponds on silica gel pad 106, when the button was pressed, the bottom of button can be with button bellying 1060 contact and extrude button bellying 1060 at decline less a section distance, extrude conducting resin 103 or micro-gap switch 104 by button bellying 1060 again, improve the extrusion effect to conducting resin 103 and micro-gap switch 104 to silica gel pad 106 through button bellying 1060 for press the button at every turn and can both realize the switch-on of button circuit, avoid appearing when the button is pressed, because of pressing the condition that the distance is insufficient to lead to conducting resin 103 and micro-gap switch 104 to contact poorly with the button circuit and the button inefficacy appears.

Further, the circuit board 102 is circularly arranged, and the micro switch 104 and the key contacts 1030 are staggered in a peripheral annular region of the circuit board 102.

FIG. 4 shows a schematic structural view of one embodiment of the game pad of the present utility model. As shown in fig. 4, the game pad includes: the function button assembly 1, the shell 2, the left rocker assembly 3, the right rocker assembly 4 and the direction button assembly 5, the function button assembly 1 comprises a plurality of function buttons 11 and the function button module 10 of one of the above embodiments, the function buttons 11 are arranged in button hole sites 20 of the function buttons 11 preset on the shell 2, the function button module 10 comprises a support 100, a rotating shaft assembly 101, a circuit board 102, conductive adhesive 103, micro switches 104 and rotating connectors 105, the number of button contacts on the conductive adhesive 103 and the number of the micro switches 104 are equal to the number of the function buttons 11, the function button module 10 is arranged in the shell 2 and is opposite to the bottom ends of the function buttons 11, through holes 21 are formed in the shell 2, the top ends of the rotating shaft assembly 101 extend to the outside of the shell 2 from the through holes 21, and when the rotating shaft assembly 101 is rotated, the rotating connectors 105 drive the circuit board 102 to rotate so that each button contact on the conductive adhesive 103 is opposite to the bottom end of one function button 11 or the position of each micro switch 104 opposite to the bottom end of the function button 11.

In addition, the function key module 10 further comprises a silica gel pad 106 and a silica gel support 107, the silica gel support 107 is connected with the shell 2 of the game handle, the silica gel pad 106 is arranged on the silica gel support 107, and the bottom end of the function key 11 is abutted to the silica gel pad 106. And, be provided with the button bellying that corresponds with function button 11 on the silica gel pad 106, button bellying butt function button 11's bottom, when rotation axis assembly 101 was rotated, rotary connection piece 105 drove circuit board 102 and rotated so that each button contact on the conductive adhesive 103 just faced a button bellying, or each micro-gap switch 104 just faced a button bellying.

The game handle of this embodiment sets up the function button module 10 that can switch the button mode through in function button 11 below to can the button mode of quick switch function button 11, satisfy the demand of user to different button modes, make the user experience the button mode of two kinds of different handfeel through a game handle, do not need to purchase the game handle of different button modes respectively, reduce user's overhead cost, user experience is better.

The embodiments of the utility model have been described in detail above, but they are merely examples, and the utility model is not limited to the above-described embodiments. It will be apparent to those skilled in the art that any equivalent modifications or substitutions to this utility model are within the scope of the utility model, and therefore, all equivalent changes and modifications, improvements, etc. that do not depart from the spirit and scope of the principles of the utility model are intended to be covered by this utility model.

Claims (9)

1. A functional key module, comprising:

the bracket is provided with a groove;

the bottom end of the rotating shaft assembly is movably arranged in the groove;

the circuit board is provided with a hole in the center and sleeved on the rotating shaft assembly, a first key circuit and a second key circuit are arranged on the circuit board in parallel, and corresponding control signals are generated and output when the first key circuit or the second key circuit is closed;

the conductive adhesive is arranged on the circuit board and is opposite to the first key circuit, the conductive adhesive comprises at least one key contact, and when the key contact is pressed, the first key circuit is closed;

at least one micro switch arranged on the circuit board and opposite to the second key circuit, wherein when the micro switch is pressed down, the second key circuit is closed;

and a rotary connecting piece is further arranged between the circuit board and the rotary shaft assembly, and when the rotary shaft assembly is rotated, the rotary connecting piece drives the circuit board to rotate so that each key contact on the conductive adhesive is opposite to the bottom end of one functional key on the game handle or each micro switch is opposite to the bottom end of one functional key on the game handle.

2. The function key module of claim 1, wherein the rotary connecting piece comprises a connecting rod, a first supporting rod and a second supporting rod, the first supporting rod and the second supporting rod are respectively and vertically connected with two ends of the connecting rod, a first clamping hole is formed in an edge position, far away from the central opening, of the circuit board, the first supporting rod is clamped in the first clamping hole, and the second supporting rod is clamped on the rotating shaft assembly.

3. The function key module according to claim 2, wherein the rotation shaft assembly comprises a rotation shaft and a base, the base is matched with the groove in size, a second clamping hole and a positioning column matched with the rotation connecting piece are arranged on the base, a limit groove and a positioning hole are arranged at the bottom end of the rotation shaft, the positioning column is clamped in the positioning hole, the second supporting rod is clamped in the second clamping hole, and the end area, close to the second supporting rod, of the connecting rod is accommodated in the limit groove.

4. The functional key module according to claim 3, wherein the base is further provided with a first limit post and a second limit post opposite to the limit groove area, the second clamping hole is formed between the first limit post and the second limit post, the widths of the first limit post and the second limit post are matched with the width of the limit groove, the first limit post is accommodated in the limit groove, the top of the first limit post is abutted to the bottom of the limit groove, and a gap for the connecting rod to pass through is reserved between the top of the second limit post and the bottom of the limit groove.

5. The function key module of claim 3, wherein the top end of the rotating shaft is provided with a linear groove.

6. The function key module of claim 1, further comprising a silica gel pad and a silica gel support, wherein the silica gel support is connected with the housing of the game handle, the silica gel pad is arranged on the silica gel support, the center of the silica gel pad is provided with a hole and is sleeved on the rotating shaft assembly, and the bottom end of the key on the game handle is abutted against the silica gel pad.

7. The function key module according to claim 6, wherein key protrusions corresponding to keys on the game handle are arranged on the silica gel pad, the key protrusions are abutted against bottom ends of the keys on the game handle, and when the rotating shaft assembly is rotated, the rotating connector drives the circuit board to rotate so that each key contact on the conductive adhesive faces one key protrusion or each micro switch faces one key protrusion.

8. The function key module of claim 1, wherein the circuit board is circularly arranged, and the micro switch and the key contacts are staggered in a peripheral annular region of the circuit board.

9. A gamepad, comprising: the multifunctional electronic device is characterized in that the functional key assembly comprises a plurality of functional keys and the functional key module according to one of claims 1-8, the functional keys are arranged in key hole positions of the functional keys preset on the shell, the functional key module comprises a support, a rotating shaft assembly, a circuit board, conductive adhesive, micro switches and rotating connectors, the number of key contacts on the conductive adhesive and the number of the micro switches are equal to that of the functional keys, the functional key module is arranged in the shell and is right opposite to the bottom ends of the functional keys, through holes are formed in the shell, the top ends of the rotating shaft assembly extend from the through holes to the outside of the shell, and when the rotating shaft assembly is rotated, the rotating connectors drive the circuit board to rotate so that each key contact on the conductive adhesive is right opposite to the bottom end of one functional key or the position of each micro switch is right opposite to the bottom end of one functional key.