CN217593788U - Game handle - Google Patents

Abstract

The utility model provides a game handle, which comprises a first handle body and a second handle body, wherein the first handle body and the second handle body are configured to be capable of mutually buckling to form a buckling state; the locking structure is arranged between the first handle body and the second handle body and matched with each other, and the locking structure locks the first handle body and the second handle body in a buckling state. Two mutually independent handle bodies of game paddle can make up into a holistic game paddle, realizes the stable connection through locking structure with two handle body locks. The storage space that needs occupy after two handle bodies make up is little, is convenient for accomodate. Furthermore, the two handle bodies of the game handle can be connected with game equipment for use, and can also be combined to be used as an independent game handle.

Description

Game paddle

Technical Field

The utility model relates to a game paddle technical field especially relates to a game paddle.

Background

Games on game devices such as mobile phones and various types of game machines are increasing, but many game devices usually play games directly through touch control, and the user experience is not good. Therefore, some gamepads for gaming devices are available in the market to enhance the gaming experience.

The gamepad can be connected to a game device for use or used independently to meet the use requirements of users in different situations. Therefore, the existing gamepad generally comprises two independent parts, which however also causes some inconveniences in the use and storage of the gamepad. In the prior art, two parts of the handle are combined together to be stored when the game handle is partially stored, and the combined structure of the game handle is unstable and easy to loosen, so that the situation that the combination of the game handle is loosened to drop part of the handle when the game handle is taken and placed is easy to occur, and the handle is easy to damage.

In addition, the operation areas of the two parts of the game handle are reversed after the two parts of the game handle are combined in the prior art, and the game handle is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

In view of this, in order to overcome the defects of the prior art, the present invention provides a game handle.

The game handle comprises a first handle body and a second handle body, wherein the first handle body and the second handle body are configured to be mutually buckled to form a buckled state; and a locking structure which is matched with each other is arranged between the first handle body and the second handle body, and the locking structure locks the first handle body and the second handle body in a buckling state.

Specifically, the first handle body and the second handle body are provided with a control part and an accommodating part, the accommodating part of the first handle body and the accommodating part of the second handle body are used for accommodating game equipment, and the control part of the first handle body and the control part of the second handle body are respectively used for controlling the game equipment; the accommodating portion of the first handle body and the accommodating portion of the second handle body are configured to be capable of being fastened to achieve fastening of the first handle body and the second handle body.

The locking structure comprises at least one pair of locking assemblies, each locking assembly comprises a locking key and a lock catch which are matched with each other, the locking key is arranged on the first handle body or the second handle body, and the lock catch is arranged on the other one of the first handle body and the second handle body.

In a specific embodiment, the locking structure comprises two pairs of locking assemblies, one pair of locking assemblies being arranged at corresponding positions on the upper sides of the first and second handles, and the other pair of locking assemblies being arranged at corresponding positions on the lower sides of the first and second handles.

Further, a rotating assembly is arranged between the control part and the accommodating part of the first handle body to realize rotatable connection, and the rotating assembly is used for coupling and splicing with the second handle body after the accommodating part of the first handle body rotates for a preset angle relative to the control part. Before splicing the two handle bodies, the control part of the first handle body and the accommodating part rotate relatively for a preset angle, and then the two handle bodies are spliced in a coupling mode, so that the front side and the back side of the control part are unchanged after the two handle bodies are spliced, and the handle can be used as an independent game handle.

The rotating assembly comprises a rotating shaft, a shaft sleeve and a limiting piece, one end of the rotating shaft is fixedly connected with one of the control part and the accommodating part, and the shaft sleeve is arranged on the other of the control part and the accommodating part;

the rotating shaft is inserted into the shaft sleeve, the other end of the rotating shaft is connected with the limiting piece, and the limiting piece is used for limiting the rotating shaft in the shaft sleeve.

In order to avoid the influence on use caused by the random rotation of the operating part relative to the accommodating part in use, a positioning assembly is further arranged between the accommodating part and the operating part, the positioning assembly comprises a first positioning part and a second positioning part, and the first positioning part and the second positioning part are coupled to form a positioning effect; the first positioning portion is disposed on a surface of the accommodating portion opposite to the manipulation portion, and the second positioning portion is disposed on the manipulation portion at a position opposite to the first positioning portion.

Furthermore, the rotating assembly further comprises a first elastic piece, the first elastic piece is arranged inside the shaft sleeve, one end of the first elastic piece is connected with the accommodating part or the control part, the other end of the first elastic piece is connected with the limiting part, and the first elastic piece provides a force for moving the control part and the accommodating part in the axial direction in the opposite direction.

In some embodiments, a telescopic component and a clamping component are arranged on the accommodating part, the clamping component is used for clamping the game equipment, and the clamping component is rotatably connected with the telescopic component so as to be used for clamping the game equipment when being opened or used for providing a space for avoiding buckling the first handle body and the second handle body when being folded. The clamping piece is matched with the side wall of the accommodating part, so that the game handle can stably clamp game equipment with different sizes.

And a second elastic piece is arranged between the telescopic assembly and the clamping piece and is used for providing a force for opening the clamping piece.

To sum up, the utility model provides a game paddle has following beneficial effect: two mutually independent handle bodies of game paddle can make up into an holistic game paddle, realizes stable connection through locking structure with two handle body locking.

The two handle bodies of the game handle need to occupy a small accommodating space after being combined, and are convenient to accommodate. After the first handle body and the second handle body are spliced, the front side and the back side of the control part are unchanged, and the control part can be used as an independent game handle.

The positioning assembly is arranged to limit the relative position relationship between the accommodating part and the control part, so that the influence on use caused by random rotation in use is avoided.

In addition, a telescopic assembly and a clamping member are provided for enabling the gamepad to stably clamp different sizes of game devices.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic view of a game pad according to the present invention;

FIG. 2 is a schematic view of another angle of the game handle of the present invention;

FIG. 3 is a schematic view of the internal structure of a single handle body of the game handle of the present invention;

FIG. 4 is a schematic view showing a state of rotation of an accommodating portion of a grip body of the game pad of the present invention;

fig. 5 is a schematic view of the combination state of two handle bodies of the game handle of the present invention;

FIG. 6 is a schematic view of a single handle body of the game handle of the present invention;

FIG. 7 is a schematic view of the internal structure of a single grip body of the gamepad shown in FIG. 6;

FIG. 8 is an exploded view of the internal structure of a single grip body of the gamepad shown in FIG. 6;

FIG. 9 is a schematic view of another angle of the single grip body of the game handle of the present invention;

FIG. 10 isbase:Sub>A cross-sectional view taken along line A-A of FIG. 9;

FIG. 11 is a schematic view of the game handle of the present invention connected to a game device;

FIG. 12 is a schematic view of the connection structure of the telescopic assembly and the clamping member of the game pad of the present invention;

fig. 13 is an exploded view of the coupling structure of the telescopic assembly and the clamping member shown in fig. 12.

Reference numerals:

11-a manipulation section; 12-a housing; 21-a first catch; 211-a moving part; 22-a second catch; 31-a first latch; 32-a second lock catch; 41-a first handle body; 42-a second shank; 5-a first accommodating groove; 61-a first resilient member; 62-a second resilient member; 71-a rotation axis; 72-shaft sleeve; 73-a stop; 74-a first resilient member; 81-convex block position; 82-a groove; 91-a telescoping assembly; 92-a clamping member; 93-a rotating shaft; 94-second elastic member.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a game paddle that can fold and accomodate.

Referring to fig. 1-3, the utility model discloses a gamepad includes first handle body and second handle body, and first handle body and second handle body configuration are configured to lock each other and form the lock state, are provided with the locking structure of mutually supporting between the first handle body and the second handle body, and locking structure locks first handle body and second handle body under the lock state.

The first handle body and the second handle body are both provided with a control part 11 and an accommodating part 12, and the control part 11 is connected with the accommodating part 12. The accommodating part 12 of the first handle and the accommodating part 12 of the second handle are used for accommodating game equipment, and the manipulating part 11 of the first handle and the manipulating part 11 of the second handle are respectively used for manipulating the game equipment. The accommodating portion 12 of the first handle and the accommodating portion 12 of the second handle are configured to be able to be engaged to achieve the engagement of the first handle and the second handle.

The locking structure comprises at least one pair of locking assemblies, each locking assembly comprises a locking key and a lock catch which are matched with each other, the locking key is arranged on the first handle body or the second handle body, and the lock catch is arranged on the other one of the first handle body and the second handle body. The lock key is matched with the lock catch, and the two handle bodies of the game handle are locked when being coupled and spliced. Preferably, the locking structure comprises a plurality of groups of locking assemblies, and the plurality of groups of locking assemblies are arranged at different corresponding positions of the two handle bodies in a one-to-one correspondence manner, so that the two handle bodies can be locked more stably.

In a specific embodiment, the locking structure comprises two sets of locking components, wherein the first locking component comprises a first locking key 21 and a first lock catch 31, the second locking component comprises a second locking key 22 and a second lock catch 32, the first locking key 21 and the second locking key 22 are movably arranged in the handle body, when the first handle body and the second handle body are coupled, the first locking key 21 extends into the first lock catch 31 to lock the first lock catch 31, and the second locking key 22 extends into the second lock catch 32 to lock the second lock catch 32.

The first key 21 is provided with a moving part 211, the moving part 211 is used for driving the first key 21 to move, and the first key 21 drives the second key 22 to move when moving.

In a particular embodiment, the gamepad comprises a first handle body 41 and a second handle body 42, the first locking assembly being arranged on the first handle body 41 and the second locking assembly being arranged on the second handle body 42. A first receiving groove 5 and a second receiving groove (not shown) are formed in the first handle body 41, the first receiving groove 5 is used for receiving the first locking key 21, the second receiving groove is used for receiving the second locking key 22, the first locking key 21 moves in the first receiving groove 5 to extend or slide into the first handle body 41, and the second locking key 22 moves in the second receiving groove to extend or slide into the first handle body 41. A guiding structure is arranged between the first key 21 and the second key 22, when the first key 21 slides into the first handle 41, the guiding structure guides the second key 22 to slide into the first handle 41, the second key 22 is connected with a first elastic member 61, and the first elastic member 61 provides a force for the second key 22 to extend out of the first handle 41.

Specifically, as shown in fig. 3, the guiding structure may include an inclined surface provided on the first locking tab 21 and a groove 82 provided on the second locking tab 22, the inclined surface of the first locking tab 21 extends into the groove 82 of the second locking tab 22, the movement of the first locking tab 21 can be controlled by the moving portion 211, and the second locking tab 22 can be guided by the inclined surface to move in the direction of sliding into the first handle body 41 in the second receiving groove against the elastic force of the first elastic member 61 when the first locking tab 21 moves in the direction of sliding into the first handle body 41. When the first key 21 moves in the direction of extending out of the first handle 41, the second key 22 moves in the direction of extending out of the first handle 41 along the inclined surface under the action of the first elastic member 61. Thus, the first catch 21 and the second catch 22 can be slid into or out of the first handle body 41 simultaneously.

The first lock catch 31 and the second lock catch 32 are disposed on the second handle 42, and when the first handle 41 and the second handle 42 are coupled and spliced, the first lock catch 31 corresponds to the first lock key 21, and the second lock catch 32 corresponds to the second lock key 22. The first lock key 21 can lock the first lock catch 31 by extending out of the first handle 41, the first lock key 21 can unlock by sliding into the first handle 41, the second lock key 22 can lock the second lock catch 32 by extending out of the first handle 41, and the second lock key 22 can unlock by sliding into the first handle 41. The first and second keys 21 and 22 can move synchronously to lock or unlock the two latches simultaneously. When the first handle body 41 and the second handle body 42 are coupled and spliced, the two lock catches are locked to further stably lock the first handle body 41 and the second handle body 42, so that the first handle body 41 and the second handle body 42 are stably connected.

In some embodiments, the first lock 31 is a through hole, and the end of the first lock key 21 is provided with a slot for locking with the first lock 31. A second elastic member 62 is disposed in the first accommodating groove 5, two ends of the second elastic member 62 respectively act on the sidewall of the first accommodating groove 5 and the first locking key 21, and the second elastic member 62 provides a force for moving the first locking key 21 to the outside of the handle body. When the first handle 41 is jointed with the second handle 42, the moving part 211 is pressed to move the first key 21 towards the inside of the handle under the action of external force, so that the first key 21 can extend into the first latch 31, the moving part 211 moves the first key 21 until the first key 21 extends into the first latch 31, and then the external force is removed, and the first key 21 moves under the action of the second elastic part 62 to lock the first latch 31 by the first key 21. In this embodiment, the second elastic member 62 is a torsion spring.

Referring to fig. 4 to 10, a rotation member is disposed between the first handle manipulation part 11 and the accommodating part 12 of the game pad, and the rotation member is disposed so that the manipulation part 11 and the accommodating part 12 can rotate relatively. Before the first handle body and the second handle body are spliced, the control part 11 and the accommodating part 12 of the first handle body rotate relative to each other by a preset angle, and then are spliced with the second handle body in a coupling mode, so that the front side and the back side of the control part 11 are unchanged after the two handle bodies are spliced, and the handle can be used as an independent game handle. Therefore, the utility model discloses a game paddle can pass through holding portion 12 as two independent parts and fix the both ends use at game devices such as game machine, also can splice and be connected the use as an independent game paddle and game devices such as large-scale display screen.

In some embodiments, a rotating component is disposed between the manipulation part 11 and the accommodation part 12 of the first handle body 41, and a rotating component is disposed between the manipulation part 11 and the accommodation part 12 of the second handle body 42. Before the first handle body and the second handle body are spliced, the control part 11 of the first handle body or the second handle body and the accommodating part 12 are rotated relative to each other by a preset angle, and then the first handle body or the second handle body is coupled and spliced with the other handle body.

Specifically, the rotating assembly includes a rotating shaft 71, a bushing 72, and a stopper 73, one end of the rotating shaft 71 is fixedly connected to one of the manipulation part 11 and the accommodation part 12, and the bushing 72 is disposed on the other of the manipulation part 11 and the accommodation part 12. The rotating shaft 71 is inserted into the sleeve 72, and the other end of the rotating shaft 71 is connected to a stopper 73, and the stopper 73 is used to limit the rotating shaft 71 in the sleeve 72.

In the present embodiment, one end of the rotating shaft 71 is connected to the accommodating portion 12, a bushing 72 is disposed in the manipulation portion 11, the rotating shaft 71 extends into the bushing 72, and the other end of the rotating shaft 71 is connected to a stopper 73 to prevent the rotating shaft 71 from slipping out of the bushing 72. The limiting member 73 is a cap, and a screw is provided to connect the cap to the rotating shaft 71.

Further, a positioning assembly is further arranged between the accommodating part 12 and the control part 11, the positioning assembly comprises a first positioning part and a second positioning part, and the first positioning part and the second positioning part are coupled to form a positioning effect. The first positioning portion is disposed on a surface of the accommodating portion 12 opposite to the manipulation portion 11, and the second positioning portion is disposed on a position of the manipulation portion 11 opposite to the first positioning portion. The positioning component positions the relative position relationship between the accommodating part 12 and the operating part 11, so as to avoid the influence on use caused by the random rotation of the operating part 11 relative to the accommodating part 12 during use. Because the accommodating part 12 can rotate for a preset angle relative to the control part 11, the positioning assembly comprises at least two first positioning parts or two second positioning parts, the two first positioning parts or the two second positioning parts are positioned on a circumference which takes the axis of the rotating shaft 71 as the circle center, and the included angle formed by the two first positioning parts or the two second positioning parts and the circle center is consistent with the preset angle, so that the second nesting groove can also play a limiting role after rotating relative to the second handle.

In the present embodiment, the specific structure of the positioning assembly is a convex block 81 and a concave groove 82, and the number of the first positioning portions and the second positioning portions in the positioning assembly may be different: if the positioning assembly comprises two first positioning parts and one second positioning part, the first positioning part is a groove 82, and the second positioning part is a convex clamping position 81; if the positioning assembly includes a first positioning portion and two second positioning portions, the first positioning portion is a convex block 81, and the second positioning portion is a groove 82.

The number of the first positioning portions and the second positioning portions in the positioning assembly may also be equal: if two recesses 82 are provided in the accommodating portion 12, two convex detents 81 are provided on the manipulation portion 11. When the accommodating part 12 and the operating part 11 rotate to the central axes on the opposite surfaces to be parallel, the groove 82 and the convex position 81 are blocked, so that the accommodating part 12 and the operating part 11 are fixed in the current state, and the accommodating part 12 and the operating part 11 can rotate only by respectively stretching the accommodating part 12 and the operating part 11 in opposite directions to separate the groove 82 and the convex position 81. Alternatively, two convex detents 81 may be provided on the receptacle 12 and two recesses 82 may be provided on the handle 11.

As described above for the arrangement of the partial positioning components in the embodiment, the positioning components may be other structures such as magnets that can be arranged between the accommodating portion 12 and the manipulating portion 11 for limiting, and the number of the first positioning portions and/or the second positioning portions may be larger.

In some embodiments, the rotating assembly further includes a first elastic member 74, the first elastic member 74 is disposed inside the shaft sleeve 72, one end of the first elastic member 74 is connected to the accommodating portion 12 or the operating portion 11, the other end of the first elastic member 74 is connected to the limiting member 73, and the first elastic member 74 provides a force for moving the operating portion 11 and the accommodating portion 12 in an axial direction. The first elastic element 74 is arranged to limit the movement of the rotating assembly, and the accommodating part 12 must overcome the pulling force of the first elastic element 74 to rotate after being stretched in the axial direction to rotate relative to the operating part 11. The elastic member may be a spring, and specifically, when one end of the rotation shaft 71 is fixedly connected to the accommodating part 12, one end of the spring is connected to the accommodating part 12, and when one end of the rotation shaft 71 is fixedly connected to the manipulation part 11, one section of the spring is connected to the manipulation part 11, and the rotation shaft 71 extends into the shaft sleeve 72, and then the other end of the spring is connected to the cap. The rotation shaft 71 can move within a predetermined range to lock or separate the convex stopper 81 and the concave groove 82.

Referring to fig. 11 to 13, in some embodiments, a telescopic member 91 and a clamping member 92 are provided on the accommodating portion 12, the clamping member 92 is connected to the telescopic member 91, the clamping member 92 is used for clamping the game device with the side wall of the accommodating portion 12, and the clamping member 92 is rotatably connected to the telescopic member to provide a space for clamping the game device when the accommodating portion is opened or for buckling the first handle body and the second handle body when the accommodating portion is folded. The clip member 92 cooperates with the side wall of the housing portion 12 to enable the game pad to stably hold game devices of different sizes.

Preferably, one side of the clamping member 92 is connected with a rotating shaft 93, the rotating shaft 93 is connected with the telescopic assembly 91 in a clamping manner, the clamping member 92 can rotate to a first position to form an open state to match with the side wall of the accommodating part 12 for clamping in a direction away from the telescopic assembly 91, and can also rotate to a second position to form a folded state to be attached to the surface of the accommodating part 12 in a direction close to the telescopic assembly 91. When the clamping device is not used, the clamping device can rotate to the second position to form a folded state so as to provide a yielding space for buckling the first handle body and the second handle body.

Further, a second elastic member 94 is disposed between the telescopic assembly 91 and the clamping member 92, and the second elastic member 94 provides a force for opening the clamping member 92. Under the action of the external force, the clamping member 92 can be rotated to the first position against the elastic force of the second elastic member 94. When the two handles of the game handle are spliced, the clamping member 92 is pressed by the splicing process to overcome the elastic force of the second elastic member 94 and rotate to the second position, so that the first handle 41 and the second handle 42 have enough space for storage.

To sum up, the utility model provides a game paddle, through the accommodation part on two handle bodies of game paddle piece together and form the composite state, make up into a holistic game paddle with the first handle body and the second handle body that mutually independent. The first handle body and the second handle body are locked through the locking structure to realize stable connection.

The storage space that needs occupy after first handle body and the combination of second handle body is little, is convenient for accomodate. After the first handle body and the second handle body are spliced, the front side and the back side of the control part are unchanged, and the control part can be used as an independent game handle. Therefore, the utility model discloses a game paddle can enough regard as two independent parts to pass through nested groove to fix at game equipment's such as game machine both ends and use, also can amalgamate and be connected the use as an independent game paddle and game equipment such as large-scale display screen.

The positioning assembly is arranged to limit the relative position relationship between the accommodating part and the control part, so that the influence on use caused by random rotation in use is avoided.

In addition, a telescopic assembly and a clamping member are provided for enabling the gamepad to stably clamp game devices of different sizes.

The above is only the preferred embodiment of the present invention, and the present invention is not limited to the above embodiments, and can have different variants besides the above embodiments, and the technical features of the above embodiments can be combined with each other, and any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A gamepad, comprising a first handle body and a second handle body, wherein the first handle body and the second handle body are configured to be capable of being mutually buckled to form a buckled state;

and a locking structure which is matched with each other is arranged between the first handle body and the second handle body, and the locking structure locks the first handle body and the second handle body in a buckling state.

2. The gamepad according to claim 1, wherein the first and second handle bodies are each provided with a maneuvering portion and a housing portion, the housing portions of the first and second handle bodies being intended to house a game device, the maneuvering portions of the first and second handle bodies being intended to maneuver a game device, respectively;

the accommodating portion of the first handle body and the accommodating portion of the second handle body are configured to be capable of being fastened to achieve fastening of the first handle body and the second handle body.

3. The gamepad of claim 1, wherein the locking arrangement comprises at least one pair of locking assemblies comprising a key and a catch cooperating with each other, the key being provided on the first or second handle body and the catch being provided on the other of the first and second handle bodies.

4. A gamepad according to claim 3, characterised in that the locking arrangement comprises two pairs of locking assemblies, one pair being provided at corresponding positions on the upper side of the first and second handle bodies and the other pair being provided at corresponding positions on the lower side of the first and second handle bodies.

5. The game handle according to claim 1, wherein a rotation member is disposed between the manipulation part and the receiving part of the first handle body for rotatable connection, and is configured to couple with the second handle body after the receiving part of the first handle body is rotated relative to the manipulation part by a predetermined angle.

6. The game handle according to claim 5, wherein the rotation member includes a rotation shaft, a sleeve, and a stopper, one end of the rotation shaft is fixedly connected to one of the manipulation part and the receiving part, and the sleeve is disposed on the other of the manipulation part and the receiving part;

the rotating shaft is inserted into the shaft sleeve, the other end of the rotating shaft is connected with the limiting piece, and the limiting piece is used for limiting the rotating shaft in the shaft sleeve.

7. The game handle according to claim 6, wherein a positioning assembly is further disposed between the accommodating portion and the manipulating portion, the positioning assembly comprises a first positioning portion and a second positioning portion, and the first positioning portion and the second positioning portion are coupled to form a positioning function; the first positioning portion is disposed on a surface of the accommodating portion opposite to the manipulation portion, and the second positioning portion is disposed on the manipulation portion at a position opposite to the first positioning portion.

8. The game handle according to claim 7, further comprising a first elastic member, the first elastic member being disposed inside the shaft sleeve, one end of the first elastic member being connected to the accommodating portion or the manipulation portion, the other end of the first elastic member being connected to the limiting member, the first elastic member providing a force for moving the manipulation portion and the accommodating portion in an axial direction toward each other.

9. The game handle according to claim 1, wherein the first handle body and the second handle body are each provided with a receiving portion on which a telescopic member and a clamping member are provided, the clamping member being used for clamping the game apparatus, and the clamping member being rotatably connected to the telescopic member so as to be used for clamping the game apparatus when opened or for providing a space for getting out of the way for the first handle body and the second handle body to be fastened by rotating.

10. The gamepad of claim 9, wherein a second resilient member is provided between the retraction assembly and the clamping member, the second resilient member being adapted to provide a force to open the clamping member.

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