CN212522985U - Game machine handle - Google Patents

Abstract

The utility model discloses a game paddle can centre gripping electronic equipment, include: control portion and clamping part, clamping part include telescopic machanism and holder, and control portion and holder dispose respectively in telescopic machanism's flexible ascending both ends in direction, and telescopic machanism includes: at least a set of telescopic link group, telescopic link group is including the N level sleeve pipe that connects gradually, and wherein, adjacent two-stage sleeve pipe is constructed and can be followed the relative activity of hollow shaft axial, first order sleeve pipe and control a fixed connection, Nth level sleeve pipe and holder fixed connection, and telescopic link group still includes the spring, the first end and the first order sleeve pipe of spring or control a fixed connection, the second end and the Nth level sleeve pipe of spring or holder fixed connection. According to the utility model discloses game paddle can stretch out and draw back, and stretch out the back handle and can the centre gripping and control electronic equipment, and the whole volume of shrink back handle is less, conveniently carries, if can put into the pocket with the handle, makes the player can take the handle at any time and play.

Description

Game machine handle

Technical Field

The utility model belongs to the technical field of electronic equipment and specifically relates to a game paddle.

Background

As more and more games are played on mobile games or other electronic devices, players often use gamepads to play mobile games in order to increase the interest of the game. At present, a game handle is usually of a stretching structure, and after one end of the handle is pulled out, two sides of the handle can clamp two opposite sides of a mobile phone to fix the mobile phone. When the handle is not in use, the two ends of the handle can be retracted together. However, after the game handle on the market is contracted, the whole volume of the game handle is still large, so that the game handle is inconvenient for a player to carry, such as placing the game handle in the pocket.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a handle can stretch out and draw back, stretches out the back handle and can the centre gripping and control electronic equipment, and the whole volume of shrink back handle is less, conveniently carries, if can put into the pocket with the handle, makes the player can take the handle at any time and play.

According to the utility model discloses handle can centre gripping electronic equipment, the handle includes: the clamping part comprises a telescopic mechanism and a clamping piece, and the control part and the clamping piece are respectively arranged at two ends of the telescopic mechanism in the telescopic direction; the telescopic mechanism comprises: at least a set of telescopic link group, telescopic link group is including the N grades of sleeves that connect gradually, and wherein, adjacent two-stage sleeve pipe is constructed and can be followed the tubular shaft axial relative activity, first order sleeve pipe with control portion fixed connection, Nth grade sleeve pipe with holder fixed connection, telescopic link group still includes the spring, the first end of spring with first order sleeve pipe or control portion fixed connection, the second end of spring with Nth grade sleeve pipe or holder fixed connection, the spring makes telescopic link group have along flexible direction shrink's trend.

According to the utility model discloses the handle, through be equipped with telescopic link group between control portion and holder, and the activity of one-level sheathed tube length direction can be followed to the N level sleeve pipe in the telescopic link group, form the clamping area when making N level sleeve pipe stretch out, with supporting electronic equipment, through locating between control portion and the holder with the spring, make under spring elasticity restoring force effect, holder and control portion can press from both sides tight electronic equipment, telescopic link group can lead to the holder simultaneously, thereby make holder and control portion can press from both sides tight electronic equipment and press from both sides the relative both sides of tight electronic equipment, so that electronic equipment more firmly cooperates in the handle. After taking out electronic equipment from the handle, the spring drives the holder towards the direction activity of controlling the portion, controls portion and holder and can lean on together to can reduce the whole volume of handle, and then convenience of customers carries, for example can put the handle after the shrink in the pocket, makes things convenient for the player to take at any time and play. And the telescopic rod group is connected between the control part and the clamping piece, so that the weight of the handle can be reduced, the carrying by a user is facilitated, and the pressure of the handle on the wrist is reduced when the handle is used by the user, so that the user can well control the handle.

In some embodiments, the N-stage sleeves are configured to be radially tapered and nested adjacently, wherein the innermost sleeve is a hollow tube or a solid rod.

In some embodiments, the first stage casing or the nth stage casing configures an outermost casing of the N stage casing.

Optionally, the outermost sleeve is the first-stage sleeve, and the first-stage sleeve is configured in the inner cavity of the manipulation part.

Optionally, the outermost sleeve is the nth-stage sleeve, and the inner cavity of the manipulation part is configured with a groove part for accommodating the nth-stage sleeve.

In some embodiments, the outer wall of the first end of each stage of the N-stage casing pipes is provided with an outer blocking portion for preventing the adjacent casing pipes from being separated, and the inner wall of the second end of each stage of the N-stage casing pipes is provided with an inner blocking portion for preventing the adjacent casing pipes from being separated.

Optionally, the N-stage casing is a three-stage casing, the telescopic mechanism includes at least three groups of telescopic rod groups, and the telescopic rod groups are arranged at intervals along a direction perpendicular to the telescopic direction.

In some embodiments, the gamepad can hold a mobile phone placed horizontally, and the manipulation part and the holding part are respectively located on the left side and the right side of the mobile phone.

Optionally, the control part or the clamping part is provided with a charging connector, and when the gamepad clamps the mobile phone, the charging connector is inserted into a charging interface of the mobile phone.

In some embodiments, the clamp is replaced with a secondary manipulation.

Additional aspects and advantages of the invention will be set forth in the description which follows, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view of an angle configuration of a gamepad according to an embodiment of the invention;

FIG. 2 is a schematic view of another angle configuration of a gamepad according to an embodiment of the invention;

FIG. 3 is an exploded view of a gamepad according to an embodiment of the invention;

FIG. 4 is a cross-sectional view of a telescoping bar assembly of a gamepad according to an embodiment of the invention;

fig. 5 is an enlarged view of the area a in fig. 4.

Reference numerals:

a game pad 100;

a clamping portion 10; a telescoping mechanism 1; a telescopic rod group 11; a sleeve 111; a spring 12;

a holder 2; the projecting portion 21; an outer barrier 3; an inner stop portion 4;

a control unit 20; a control 22.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be illustrative of the present disclosure, and should not be construed as limiting the present disclosure.

The following application provides many different embodiments or examples for implementing different features of the application. In order to simplify the disclosure of the present application, specific example components and arrangements are described below. Of course, they are merely examples and are not intended to limit the present application. Further, the present application may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, examples of various specific processes and materials are provided herein, but one of ordinary skill in the art may recognize the applicability of other processes and/or the use of other materials.

With reference to fig. 1-5, a gamepad 100 according to an embodiment of the present invention is described, which is capable of holding an electronic device, and it is understood that the electronic device may be a mobile phone, an iPad, or other types of electronic devices, without limitation.

The handle 100 includes: a manipulation part 20 and a clamping part 10. Specifically, the clamping portion 10 includes a telescopic mechanism 1 and a clamping member 2, and the operation portion 20 and the clamping member 2 are respectively disposed at two ends of the telescopic mechanism 1 in the telescopic direction. The telescopic mechanism 1 includes: at least one telescopic rod group 11, the telescopic rod group 11 comprises N-stage sleeves 111 connected in sequence, wherein the adjacent two-stage sleeves 111 are configured to be relatively movable along the axial direction of the pipe shaft, the first-stage sleeve 111 is fixedly connected with the control part 20, and the nth-stage sleeve 111 is fixedly connected with the clamping piece 2.

Further, the telescopic rod set 11 further includes a spring 12, a first end of the spring 12 is fixedly connected to the first-stage sleeve 111 or the operating portion 20, a second end of the spring 12 is fixedly connected to the nth-stage sleeve 111 or the clamping member 2, and the spring 12 makes the telescopic rod set 11 have a tendency to contract in the telescopic direction.

That is, one end of the telescopic mechanism 1 is connected to the manipulating part 20, and the other end of the telescopic mechanism 1 is connected to the holding member 2, so that when the telescopic mechanism 1 is extended, the manipulating part 20 and the holding member 2 can move in a direction away from each other, and when the telescopic mechanism 1 is contracted, the manipulating part 20 and the holding member 2 can move in a direction close to each other, thereby allowing the manipulating part 20 and the holding member 2 to move close to each other. Specifically, by pulling the manipulation part 20 or the clamping member 2 to move away from each other, the telescopic rod group 11 in the telescopic mechanism 1 can extend out, and after the telescopic rod group 11 extends out, a clamping area can be formed between the manipulation part 20 and the clamping member 2, so that a user can place the electronic device in the clamping area.

It is understood that one set of telescopic rods 11 may be formed in the telescopic mechanism 1, there may be two sets of telescopic rods 11, and there may be more telescopic rods 11, which is not limited herein. When there are a plurality of telescopic rod sets 11 in the telescopic mechanism 1, the plurality of telescopic rod sets 11 can be extended simultaneously to move the operation part 20 or the clamping member 2 away from each other, and the plurality of telescopic rod sets 11 can be retracted simultaneously to lean the operation part 20 or the clamping member 2 together to reduce the volume of the handle 100 after contraction.

The nth casing 111 may extend along an axial direction of the previous casing 111, and the next casing 111 of the first casing 111 may extend along an axial direction of the first casing 111, so that the next casing 111 to the nth casing 111 of the first casing 111 may extend along an axial direction of the previous casing 111, thereby enabling the telescopic rod set 11 to extend. Further, through linking to each other first-order sleeve pipe 111 with control portion 20, nth level sleeve pipe 111 links to each other with holder 2 for when pulling holder 2 and moving towards keeping away from control portion 20 direction, holder 2 can drive the next grade of first-order sleeve pipe 111 to nth level sleeve pipe 111 stretch out, thereby makes holder 2 move along the length direction activity of sleeve pipe 111, and then makes telescopic machanism 1 can lead to holder 2. When the holder 2 moves away from the manipulation unit 20, the spring 12 connected between the manipulation unit 20 and the holder 2 is in a stretched state and stores elastic potential energy.

After electronic equipment put to the grip block, remove external force, spring 12 can drive portion 20 and holder 2 orientation and be close to each other's direction activity under the effect of resilience force resumes to make portion 20 and holder 2 can press from both sides the relative both sides of tight electronic equipment of control, prevent that the user from rocking when playing electronic equipment, influence user's experience and feel. Meanwhile, after the electronic equipment is placed into the clamping area, the telescopic mechanism 1 can support the electronic equipment, so that the electronic equipment can be more stably placed in the clamping area without shaking, inclining and the like.

After the user takes off electronic equipment from handle 100, spring 12 releases energy and contracts, thereby make spring 12 drive holder 2 towards the direction activity of being close to control portion 20, when holder 2 is towards the direction activity of being close to control portion 20, holder 2 can drive the length direction withdrawal that the nth sleeve pipe 111 that links to each other can be followed to last level sleeve pipe 111, namely nth sleeve pipe 111 is along the direction activity of being close to last level sleeve pipe 111, spring 12 drives holder 2 and lasts to control portion 20 activity, thereby make from the next level of first level sleeve pipe 111 to nth sleeve pipe 111 can contract to first level sleeve pipe 111, and then make holder 2 can lean on with control portion 20 together, so can reduce the whole volume of handle 100, in order to make the player put handle 100 into structures such as the pocket, accomodate the bag, make things convenient for the user to carry.

Referring to fig. 1, the telescopic rod set 11 is connected between the operation part 20 and the clamping part 2, so that the weight of the handle 100 can be reduced, the handle is convenient for a user to carry, and the pressure of the handle 100 on the wrist is reduced when the user uses the handle 100, so that the user can better operate and control the handle 100. Meanwhile, the telescopic rod group 11 is connected between the control part 20 and the clamping piece 2, when the control part 20 and/or the clamping piece 2 is pulled to form a clamping area, the telescopic rod group 11 can support the electronic equipment, so that the electronic equipment can be firmly clamped in the clamping area, and the control part 20 and the clamping piece 2 can clamp the electronic equipment, so that the electronic equipment is prevented from slipping.

The nth casing 111 in the telescopic rod group 11 may be a second casing 111, that is, two casings 111, a third casing 111, or a further casing 111 in the telescopic rod group 11, which is not limited herein. Through being equipped with N level sleeve pipe 111 in telescopic link group 11, when pulling holder 2 and transporting away from control portion 20, N level sleeve pipe 111 can stretch out to can adjust the size of grip area, the user can be according to electronic equipment's size, and moderate degree pulls holder 2, so that electronic equipment can conveniently put to in the grip area.

In addition, after the electronic device is assembled in the handle 100, the manipulation part 20 and the clamping member 2 can be clamped on two opposite sides of the electronic device through contraction of the spring 12, so that a user can respectively hold the manipulation part 20 and the clamping member 2 with two hands, and the user is not easy to get out of hands when manipulating.

Further, when there are a plurality of telescopic rod groups 11 in the telescopic mechanism 1, one spring 12 may be provided in each of the plurality of telescopic rod groups 11, one telescopic rod group 11 in the plurality of telescopic rod groups 11 may be provided with a spring 12, while the other telescopic rod groups 11 are not provided with a spring 12, and a part of the telescopic rod groups 11 selected from the plurality of telescopic rod groups 11 may be provided with a spring 12. Through being equipped with a plurality of springs 12 in telescopic link group 11 for after removing external force, holder 2 can press from both sides tight electronic equipment more steadily, prevents that electronic equipment from the grip area slippage, is equipped with a plurality of springs 12 in telescopic link group 11 simultaneously, when making spring 12 wherein destroy, does not influence the normal use of handle 100.

According to the utility model discloses handle 100, through be equipped with telescopic link group 11 between control portion 20 and holder 2, and N level sleeve pipe 111 can follow the length direction activity of last level sleeve pipe 111 in telescopic link group 11, make N level sleeve pipe 111 form the clamping area when stretching out, with supporting electronic equipment, through locating spring 12 between control portion 20 and holder 2, make under spring 12 elastic restoring force effect, holder 2 can press from both sides tight electronic equipment with control portion 20, telescopic link group 11 can lead to holder 2 simultaneously, thereby make holder 2 and control portion 20 can press from both sides tight electronic equipment and press from both sides tightly the relative both sides of electronic equipment, so that electronic equipment more firmly cooperates in handle 100. After taking out electronic equipment from handle 100, spring 12 drives holder 2 towards the direction activity of controlling portion 20, and control portion 20 and holder 2 can lean on together to can reduce the whole volume of handle 100, and then convenience of customers carries, for example can put handle 100 after the shrink in the pocket, makes things convenient for the player to play at any time. And telescopic link group 11 is connected between control portion 20 and holder 2, can reduce the weight of handle 100, not only facilitates the user to carry, still makes the user when using handle 100, reduces the pressure of handle 100 to the wrist to make the user can be better to controlling.

Specifically, referring to fig. 3 and 4, the spring 12 is disposed in the sleeve 111, so that when the electronic device is taken out from the clamping area, the spring 12 is released to contract, the spring 12 can drive the sleeve 111 connected to the spring to retract into the sleeve 111 adjacent to the spring, and after the sleeve 111 retracts into the sleeve 111 sleeved outside the sleeve, the sleeve 111 sleeved outside the sleeve can be driven to retract, so that the telescopic rod set 11 can move in the retracting direction and retract to the shortest distance.

Optionally, the N-stage sleeves 111 are configured to be radially tapered and adjacently nested, wherein the innermost sleeve is a hollow tube or a solid rod, that is, the outer diameter of the innermost sleeve gradually decreases from the first-stage sleeve 111 to the N-stage sleeve 111, so that the sleeve 111 with a small outer diameter can be sleeved in the sleeve 111 with a large outer diameter, and the N-stage sleeve 111 can be a solid rod or a hollow tube, without limitation.

In one embodiment, as shown in fig. 1, the N-stage sleeve 111 in the telescopic rod set 11 is an N-stage sleeve, and the outer diameter of the N-stage sleeve is gradually reduced, and the sleeve with the larger outer diameter can be nested outside the sleeve with the smaller outer diameter, so that the sleeve with the smaller outer diameter can be extended out of or retracted into the sleeve with the larger outer diameter. Further, the first-stage sleeve is fixedly connected with the control part 20, and the Nth-stage sleeve is fixedly connected with the clamping piece 2, so that when the control part 20 and/or the clamping piece 2 are pulled, and the Nth-stage sleeve sequentially extends out of the first-stage sleeve, the clamping piece 2 moves towards the direction far away from the control part 20, a clamping area can be formed between the control part 20 and the clamping piece 2, and the electronic equipment can be conveniently placed in the clamping area.

In the above embodiment, the nth stage sleeve 111 is a solid rod, and each sleeve is axially slidable relative to the radially adjacent sleeve, that is, the sleeve adjacent to the solid rod can be sleeved on the solid rod, so that the implement rod can be movably extended out of the sleeve in the axial direction of the sleeve and also retracted into the sleeve. Other adjacent sleeves can be sleeved with each other, and the adjacent sleeves can slide relative to each other, namely, the sleeves can extend out of the sleeves sleeved outside the sleeves, and the sleeves can also retract to the sleeves sleeved outside the sleeves. In addition, the solid rod is arranged in the plurality of sleeves, so that the solid rod can be conveniently connected with the clamping piece 2, and the spring 12 can be conveniently connected with the solid rod.

In another embodiment, the N-stage sleeves 111 are arranged in parallel, and each sleeve 111 is provided with a sliding groove and a sliding block (not shown in the drawings) extending along the length direction of the sleeve 111, and the sliding groove of the sleeve 111 can cooperate with the sliding block of the adjacent sleeve 111 to enable the two sleeves 111 to slide relatively, so that one sleeve 111 can extend and retract relative to the adjacent sleeve 111. Through be equipped with spout and slider on sleeve pipe 111, make sleeve pipe 111 can more conveniently cooperate with rather than adjacent sleeve pipe 111, the slider cooperation is in the spout simultaneously, it is spacing to make the spout, thereby make the slider slide along the direction that the spout extends, and then make handle 100 when pressing from both sides tight electronic equipment, control portion 20 and holder 2 can the centre gripping on two sides that electronic equipment is relative, thereby improve the tight effect of handle 100 clamp, prevent the electronic equipment slippage, and then make the player play as far as possible.

When the clamping piece 2 is pulled, the sliding blocks on the sleeves 111 slide out of the sliding grooves on the adjacent sleeves 111, and when the sleeves 111 slide out of the sliding grooves, the telescopic rod group 11 extends out to form a clamping area, so that the electronic equipment can be placed in the clamping area. After the external force is removed, under the action of the spring 12, the clamping member 2 can drive the sleeve 111 to move towards the control part 20, so that the sliding block can be retracted into the sliding groove of the adjacent sleeve 111, and the gap between the clamping member 2 and the control part 20 can be reduced through the sliding groove of the N-level sleeve 111, so that the whole volume of the handle 100 can be reduced.

Optionally, the first or nth stage casing is configured as the outermost casing of the N stage casing, and in one example, the outer diameter of the casing may gradually decrease from the first stage casing to the nth stage casing, such that the first stage casing is nested on the outermost of all the casings. In another example, the outer diameter of the casing may gradually increase from the first casing to the nth casing, so that the nth casing is sleeved on the outermost side of all the casings, which is not particularly limited and may be desirable.

Through forming the mode that the cover was established layer upon layer with the sleeve pipe for N level sleeve pipe contracts the back together, and the fill for of telescopic link group 11 is less, thereby makes holder 2 can further be close to control portion 20, and then can further reduce the volume of handle 100, and convenience of customers carries. In addition, the N-level sleeves are nested with each other, so that the sleeves can be extended and retracted conveniently, a user can use the handle 100 conveniently, and the user experience is improved.

Alternatively, the outermost casing is a first-stage casing disposed in the inner cavity of the control portion 20, that is, the first-stage casing has a larger outer diameter and can be sleeved outside other N-stage casings, and the other N-stage casings can be extended from the first-stage casing or retracted into the first-stage casing. In addition, the first-stage sleeve is arranged in the inner cavity of the control part 20, so that other N-stage sleeves are also retracted into the inner cavity of the control part 20 when reaching the first-stage sleeve, the clamping piece 2 can abut against the control part 20, the whole volume of the handle 100 can be further reduced, and the handle 100 is compact in structure and is smaller.

Optionally, the outermost casing is an nth casing, and the inner cavity of the manipulating part 20 is configured with a groove portion for accommodating the nth casing, that is, the nth casing has the largest outer diameter, the first casing has the smallest outer diameter, and the nth casing may be externally sleeved on other nth casings. In addition, through disposing the inner chamber of the operation portion 20 with a groove portion for accommodating the nth-stage sleeve, and the nth-stage sleeve is connected with the clamping member 2, and after the first-stage sleeve is matched with the operation portion 20, when the clamping member 2 moves towards the direction close to the operation portion 20, the sleeve with the larger outer diameter size can be sleeved outside the sleeve with the smaller outer diameter size adjacent to the clamping member, and therefore, all the sleeves are sleeved outside the first-stage sleeve layer by layer, so that the sleeves in the telescopic rod group 11 can be sleeved inside the groove portion of the operation portion 20, and further the clamping member 2 can abut against the operation portion 20, so as to reduce the volume of the handle 100.

Referring to fig. 4, the outer wall of the first end of each stage of the casing in the N-stage casing is provided with an outer blocking portion 3 for preventing the casing from being separated from an adjacent casing, and the inner wall of the second end is provided with an inner blocking portion 4 for preventing the casing from being separated from an adjacent casing, so that when the outer blocking portion 3 of the casing located in the inner layer is abutted to the inner blocking portion 4 of the casing located outside the casing, the inner blocking portion 4 can limit the outer blocking portion 3, and the casing can be prevented from being pulled out of the casing located outside the casing. In addition, the outer blocking part 3 of the sleeve pipe positioned on the inner layer is abutted to the inner blocking part 4 of the sleeve pipe sleeved outside the inner layer, so that the sleeve pipe positioned on the inner layer can drive the sleeve pipe sleeved outside the inner layer to extend out, and the extending movement of the telescopic rod group 11 is realized.

Referring to fig. 1 to 3, the telescopic mechanism 1 includes three groups of telescopic rod sets 11, and the plurality of telescopic rod sets 11 are arranged at intervals along a direction perpendicular to the telescopic direction, so that when the clamping member 2 is pulled, the three groups of telescopic rod sets 11 can extend out simultaneously, so that the three groups of telescopic rod sets 11 can limit the clamping member 2, so that the clamping member 2 can be kept opposite after being pulled, and therefore, after the electronic device is placed in the clamping area, the acting force that the operation part 20 and the clamping member 2 can apply to the electronic device can be opposite, so that the operation part 20 and the clamping member 2 can clamp the electronic device more firmly. After the electronic equipment is placed in the clamping area, the three groups of telescopic rod groups 11 can support the electronic equipment to prevent the electronic equipment from inclining.

In addition, a plurality of telescopic rod groups 11 are arranged between the control part 20 and the clamping piece 2, so that when one or more telescopic rod groups 11 are damaged, the handle 100 can still be used, and the service life of the handle 100 can be prolonged.

It should be understood that the plurality of the above means two or more, and the present invention is not limited to the above, and may be satisfied with the actual use requirement.

Referring to fig. 1 and 2, a signal transmission member (not shown) and an operation member 22 are disposed on the operation part 20, the signal transmission member is used for communicating with the electronic device, and the operation member 22 can be connected to the signal transmission member, so that after the signal transmission member is communicated with the electronic device, the signal transmission member can transmit a signal to control the electronic device. Further, after the control member 22 is connected to the signal transmission member, the user can control the control member 22, the control member 22 transmits the control action to the signal transmission member, and the signal transmission member transmits the control signal to the electronic device, so that the electronic device can perform corresponding actions.

For example, when a user uses the handle 100 to play a game, the control element 22 can be controlled, so that a character in the game can perform corresponding actions, and compared with the direct control on the electronic device, the control element 22 is used for controlling, so that the operation is more convenient, and the error rate of the user control, such as control insensitivity caused by hand sweating, can be reduced. In addition, the user can improve the enjoyment of the game by operating the control 22 to perform an action in the game, thereby improving the user experience.

In the above embodiment, the protrusion 21 may be formed on the clamping plate, and the protrusion 21 is perpendicular to the plane of the telescopic direction of the sleeve 111, so that after the clamping plate clamps the electronic device, the protrusion 21 may abut against the side surface of the electronic device and generate an acting force to the electronic device in the same direction as the telescopic direction of the sleeve 111, so that the electronic device may be more stably fitted between the operating part 20 and the clamping plate.

Wherein a plurality of projections 21 may be formed on the clamping plate, and the specific positions where the projections 21 are formed may be designed according to circumstances. For example, the protruding portions 21 may be formed at both ends of the clamping plate, or may be uniformly distributed on the clamping plate, and when the protruding portions 21 are designed, the protruding portions 21 may avoid a connection hole, a control button, and the like of the electronic device, so that the normal use of the electronic device by a user is not affected.

Referring to fig. 2, the N-stage bushing 111 includes three-stage bushings 111, that is, a first-stage bushing 111 is connected to the manipulation part 20, a third-stage bushing 111 is connected to the grip member 2, the second-stage bushing 111 is fitted between the first-stage bushing 111 and the third-stage bushing 111, and when the grip member 2 is pulled to move in a direction away from the manipulation part 20, the third-stage bushing 111 protrudes from the second-stage bushing 111, and then the second-stage bushing 111 protrudes from the first-stage bushing 111, so that the electronic device can be placed between the grip member 2 and the manipulation part 20.

In the above embodiment, when the electronic device is a mobile phone, the gamepad 100 can clamp the mobile phone placed horizontally, the control part 20 and the clamping part 2 are respectively located on the left and right sides of the mobile phone, that is, the player can adjust the distance between the clamping part 2 and the control part 20 according to the horizontal size of the mobile phone, so that the mobile phone can be conveniently placed into the gamepad 100, after the external force is removed, the clamping part 2 and the control part 20 can clamp the left and right sides of the mobile phone, so that the player can use the mobile phone horizontally, and the player can control a game by using the control part 22 on the gamepad 100.

Alternatively, the side of the holder 2 facing the manipulation part 20 is provided with a friction pad, so that when the holder 2 is clamping the mobile phone, the friction pad can increase the friction force between the mobile phone and the handle 100, preventing the mobile phone from slipping out of the handle 100. Specifically, the friction pad can be a silica gel pad, and the material of silica gel pad is softer for holder 2 is when contacting the cell-phone and pressing from both sides tightly, and the silica gel pad can play the cushioning effect, prevents holder 2 from crashing or pressing from both sides bad cell-phone, thereby makes can not damage the cell-phone behind the long-time handle 100.

In one embodiment, a charging connector is disposed on the manipulating part 20 or the clamping part 10, and the charging connector can be inserted into a charging interface of the mobile phone when the game handle 100 clamps the mobile phone.

In one example, the control unit 20 is provided with a charging unit, the charging connector is provided on the control unit 20, and after the mobile phone is placed in the handle 100, the charging connector is inserted into the charging interface of the mobile phone, so that the handle 100 can charge the mobile phone, thereby preventing the mobile phone from being out of power during the game and affecting the play of the user. Meanwhile, the handle is used for charging, so that a charger or a charger can be omitted, and the user can go out more conveniently. It is understood that the charging unit may store electricity, so that the player may play with the handle 100 more conveniently. Wherein, can use the treasured that charges to charge the portion of charging, also can use the power supply to charge the portion of charging to make the player can use handle 100 for a long time at a time.

In another example, a charging portion is provided at the manipulation portion 20, the charging connector is provided on the clamping portion 10, specifically, the charging structure is provided on the clamping member 2, the charging connector can be connected to the charging portion through a wire body, the wire body is inserted into the N-stage sleeve, specifically, one end of the wire body is connected to the charging portion, and the other end of the wire body is connected to the charging connector, so that the handle 100 can charge the mobile phone after clamping the mobile phone. In addition, the charging connector is provided on the grip 2, so that the handle 100 does not affect the operation of the control member 22 on the operation part 20 by the player during charging, thereby improving the experience of the player.

In the above example, the wire body is disposed in the inner cavity of the N-level bushing, so that the N-level bushing protects the wire body, prevents the wire body from being damaged, and makes the handle 100 more beautiful as a whole. Specifically, at least part of the wire body is the helix, and from this, when pulling holder 2, the wire body of helix is towards the direction activity of transporting away from the portion that charges, because the total length of helix is longer for holder 2 can not drop the wire body from the portion that charges when the activity of pulling wire body. When the clamping member 2 and the operating part 20 are leaned together after the telescopic mechanism 1 is contracted, the electric wire body is restored to the spiral coil shape, so that the electric wire body is not wound.

In one embodiment, the grip 2 is replaced with a secondary control part, that is, the game handle 100 is a dual-handle grip, and the control part 22 is provided on the secondary control part, so that the left hand and the right hand of the player can be controlled by the control part 22.

Specifically, the control part 20 and the auxiliary control part are respectively arranged at two ends of the multiple groups of telescopic rod groups 11, the telescopic rod groups 11 are extended by pulling the control part 20 or the auxiliary control part, after the telescopic rod groups 11 are extended, an electronic device such as a mobile phone can be placed between the control part 20 and the auxiliary control part, after the external force is removed, the control part 20 and the auxiliary control part are under the elastic restoring force of the spring 12, so that the control part 20 and the auxiliary control part can clamp the electronic device, after the handle 100 clamps the electronic device, two hands of a player can respectively hold the control part 20 and the auxiliary control part, and a game can be better controlled by coordinating the control part 20 with the control part 22 on the auxiliary control part. In addition, the grip is replaced with the sub-manipulation part, so that the player can better grip the handle 100 and the handle 100 is prevented from slipping off.

Other configurations and operations of the gamepad 100 according to embodiments of the present invention are known to those of ordinary skill in the art and will not be described in detail herein.

In the description herein, references to the description of the terms "embodiment," "example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the disclosure. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

While embodiments of the present disclosure have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the disclosure, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A gamepad capable of holding an electronic device, comprising: the clamping part comprises a telescopic mechanism and a clamping piece, and the control part and the clamping piece are respectively arranged at two ends of the telescopic mechanism in the telescopic direction; the telescopic mechanism comprises:

the telescopic rod group comprises N-stage sleeves which are sequentially connected, wherein the two adjacent stages of sleeves are constructed to be relatively movable along the axial direction of a pipe shaft, the first stage sleeve is fixedly connected with the control part, and the Nth stage sleeve is fixedly connected with the clamping piece;

the telescopic rod group further comprises a spring, the first end of the spring is fixedly connected with the first-stage sleeve or the control part, the second end of the spring is fixedly connected with the Nth-stage sleeve or the clamping piece, and the spring enables the telescopic rod group to have a tendency of contracting along the telescopic direction.

2. The gamepad of claim 1, wherein the N-stage sleeves are configured to be radially tapered and nested adjacently, wherein the innermost sleeve is a hollow tube or a solid rod.

3. The gamepad of claim 1, wherein the first stage sleeve or the nth stage sleeve is configured as the outermost sleeve of the N stage sleeve.

4. The gamepad according to claim 3, wherein the outermost sleeve is the first stage sleeve, which is arranged in the inner cavity of the manipulation part.

5. The gamepad according to claim 3, wherein the outermost sleeve is the Nth-stage sleeve, the inner cavity of the steering part being configured with a groove that receives the Nth-stage sleeve.

6. The gamepad according to claim 1, wherein each stage of the N stages of sleeves is provided with an outer stop part for preventing the adjacent sleeves from being separated from the outer wall of the first end and an inner stop part for preventing the adjacent sleeves from being separated from the inner wall of the second end.

7. The gamepad according to claim 1, wherein the N-stage sleeve is a three-stage sleeve, the telescoping mechanism comprising three sets of telescoping rods, the sets of telescoping rods being spaced apart in a direction perpendicular to the telescoping direction.

8. The gamepad according to claim 1, wherein the gamepad is capable of gripping a mobile phone placed in a lateral direction, the grip and the grip being located on the left and right sides of the mobile phone, respectively.

9. The gamepad according to claim 8, wherein the grip or the grip is configured with a charging connector that is inserted into a charging interface of the phone when the gamepad grips the phone.

10. Gamepad according to any of the claims 1-9, characterised in that the gripping members are replaced by secondary manipulation parts.

Images