CN219321725U - Small-size portable power source of adaptation VR head-mounted device - Google Patents

Abstract

The utility model discloses a small mobile power supply adapting to VR (virtual reality) head-mounted equipment, which comprises a shell, a charging connector, a charging interface, a battery cell and a control circuit board, wherein the shell is provided with a charging interface; the shell is internally provided with an accommodating cavity, one side of the shell is provided with an installing part protruding outwards relative to the main body of the shell, and the installing part is in smooth transition with the main body of the shell; the charging connector is arranged at the mounting part of the shell, and the charging connector is intersected with the mounting part; the charging interface is arranged on the main body of the shell; the control circuit board and the battery cell are arranged in the accommodating cavity of the shell, and the control circuit board is electrically connected with the charging connector, the charging interface and the battery cell respectively. The utility model can charge the VR head-mounted device and avoid interference with the use of the VR head-mounted device by a user.

Description

Small-size portable power source of adaptation VR head-mounted device

Technical Field

The utility model relates to the field of mobile power sources, in particular to a small mobile power source adapting to VR (virtual reality) head-mounted equipment.

Background

The VR head-mounted device is virtual reality head-mounted device, and the principle is that left and right eye screens respectively display left and right eye images, acquired information generates stereoscopic impression in the brain, a user obtains virtual stereoscopic impression, and the VR head-mounted device needs to be timely supplemented with electric energy after long-time use.

The current VR headset is typically provided with a charging port on its side through which an external power source charges the VR headset. At present, many users charge VR head-mounted equipment by adopting the existing mobile power supply for charging mobile phones and tablet computers, and the mobile power supply is generally connected with a charging port of the VR head-mounted equipment through a charging wire, but when the user uses the VR head-mounted equipment, the charging wire easily interferes with the movement of the user, and the use of the VR head-mounted equipment by the user is interfered, so that the user experience is poor.

In view of the foregoing, there is a need for a small-sized mobile power supply that is adapted to a VR headset that can charge the VR headset while avoiding interference with the use of the VR headset by a user.

Disclosure of Invention

The utility model aims to provide a small mobile power supply adapting to VR (virtual reality) head-mounted equipment, which can charge the VR head-mounted equipment and avoid interference with the use of the VR head-mounted equipment by a user.

In order to achieve the above object, the solution of the present utility model is:

a small-sized mobile power supply adapting to VR head-mounted equipment comprises a shell, a charging connector, a charging interface, a battery cell and a control circuit board; the shell is internally provided with an accommodating cavity, one side of the shell is provided with an installing part protruding outwards relative to the main body of the shell, and the installing part is in smooth transition with the main body of the shell; the charging connector is arranged at the mounting part of the shell, and the charging connector is intersected with the mounting part; the charging interface is arranged on the main body of the shell; the control circuit board and the battery cell are arranged in the accommodating cavity of the shell, and the control circuit board is electrically connected with the charging connector, the charging interface and the battery cell respectively.

The mounting part of the housing deviates from the radial plane of the main body of the housing towards the side where the charging interface is arranged.

The main body of the shell is provided with a concave part, the charging interface is arranged in the concave part of the shell main body, and a protective cover for covering the charging interface is matched in the concave part.

A plurality of rib plates used for being clamped with the battery cells are arranged in the accommodating chamber of the shell.

The shell comprises a first half shell and a second half shell which are connected in a buckling way, and the accommodating cavity is formed between the first half shell and the second half shell.

The periphery of the first half shell is provided with a clamping part, the clamping part is provided with an outer clamping plate and an inner clamping plate positioned at the inner side of the outer clamping plate, a slot is formed between the outer clamping plate and the inner clamping plate of the clamping part, and the inner clamping plate is provided with an inner clamping hole; the periphery of the second half shell is provided with a clamping plate with a clamping block corresponding to the clamping part; the clamping plates are inserted into the slots of the corresponding clamping parts, and the clamping blocks of the clamping plates are clamped with the inner clamping holes of the inner clamping plates of the clamping parts.

The small mobile power supply adapting to the VR headset further comprises a loudspeaker mounted on the shell, and the loudspeaker is electrically connected with the control circuit board.

The small mobile power supply adapting to the VR headset further comprises a state indication module arranged on the shell, and the state indication module is electrically connected with the control circuit board.

The shell is matched with a protective shell for covering the state indicating module.

The control circuit board is provided with a control key; the housing is mounted with a button for pressing a control key.

After the scheme is adopted, when a user needs to charge the VR headset, the user can connect the charging connector of the small-sized mobile power supply of the adaptive VR headset with the charging port on the side surface of the VR headset, so that the small-sized mobile power supply of the adaptive VR headset is arranged on the VR headset and charges the VR headset, and therefore, the charging wire is not needed when the small-sized mobile power supply of the adaptive VR headset charges the VR headset, and interference of the charging wire on the use of the VR headset by the user is avoided. The charging connector is arranged on the mounting part of the shell and is intersected with the mounting part, so that the charging connector is connected with the VR headset, the small mobile power supply adapting to the VR headset is close to the VR headset, the gravity center of the adapting VR headset is close to the VR headset in the horizontal direction, the pressure applied to the charging connector is reduced, breakage of the charging connector can be avoided, the charging connector can be prevented from falling out of the charging port of the VR headset, and the small mobile power supply adapting to the VR headset is stable and reliable in use. In addition, the user typically grasps the junction of the body and the mounting portion with a hand to pull the charging connector out of the charging port of the VR headset because the junction of the body and the mounting portion can facilitate the application of force by the user; the main body and the mounting part of the shell are in smooth transition, so that a user can not press the hand when holding the joint of the main body and the mounting part by the hand, and the user experience is improved.

Drawings

Fig. 1 is a schematic structural diagram of the present utility model.

Fig. 2 is a schematic structural diagram of the second embodiment of the present utility model.

Fig. 3 is a schematic diagram of a third embodiment of the present utility model.

Fig. 4 is an exploded view of the structure of the present utility model.

Fig. 5 is a structural exploded view of the present utility model.

Fig. 6 is a cross-sectional view of the present utility model.

Fig. 7 is a second cross-sectional view of the present utility model.

Fig. 8 is a cross-sectional view III of the present utility model.

Fig. 9 is a schematic diagram of the use of the present utility model.

FIG. 10 is a second schematic diagram of the present utility model.

Description of the reference numerals:

a housing A, an accommodating chamber A0, a first half-shell A01, a second half-shell A02, a main body A1, a concave part A11, a mounting hole A12, a mounting hole A13, a mounting part A2, a clamping part A3, an outer clamping plate A31, an inner clamping plate A32, an inner clamping hole A321, a slot A33, a clamping plate A4, a clamping block A41 and a rib plate A5,

a charging connector B, which is connected with the charging connector,

the charging interface C is provided with a charging interface,

the electric core D is provided with a plurality of electric wires,

a control circuit board E, a control key E1,

a protective cover F, a connecting strip F1,

the speaker G is provided with a speaker G,

a protective cover H, a sound outlet H1,

the status indication module I, the indication lamp I1,

the protective shell J is provided with a plurality of grooves,

the push-button (K) is provided with a button,

the smart-phone M is provided with a function of,

a table top T.

Detailed Description

In order to further explain the technical scheme of the utility model, the utility model is explained in detail by specific examples.

As shown in fig. 1 to 8, the present utility model discloses a small-sized mobile power supply adapted to VR headset, which includes a housing a, a charging connector B, a charging interface C, a battery cell D, and a control circuit board E; wherein, an accommodating chamber A0 is formed in the shell A, one side of the shell A is provided with an installing part A2 protruding outwards relative to a main body A1 of the shell A, and the installing part A2 is in smooth transition with the main body A1 of the shell A; the charging connector B is arranged at the mounting part A2 of the shell A, and the charging connector B is intersected with the mounting part A2; the charging interface C is mounted on the main body A1 of the shell A; the control circuit board E and the battery cell D are arranged in the accommodating cavity A0 of the shell A, and the control circuit board E is electrically connected with the charging connector B, the charging interface C and the battery cell D respectively.

In the utility model, when a user needs to charge the VR headset, the user can connect the charging connector B of the small-sized mobile power supply of the adaptive VR headset with the charging port on the side surface of the VR headset, so that the small-sized mobile power supply of the adaptive VR headset is arranged on the VR headset and charges the VR headset, and therefore, the charging wire is not needed when the small-sized mobile power supply of the adaptive VR headset charges the VR headset, and the interference of the charging wire on the use of the VR headset by the user is avoided. The charging connector B is arranged on the mounting part A2 of the shell A and is intersected with the mounting part A2, so that the charging connector B is connected with the VR headset, the small mobile power supply adapting to the VR headset is close to the VR headset, the gravity center of the adapting VR headset is close to the VR headset in the horizontal direction, the pressure applied to the charging connector B is reduced, breakage of the charging connector B can be avoided, the charging connector B is prevented from falling out of a charging port of the VR headset, and the small mobile power supply adapting to the VR headset is ensured to be stable and reliable to use. In addition, the user generally grasps the junction of the main body A1 and the mounting portion A2 with a hand to pull the charging connector B out of the charging port of the VR headset, because the junction of the main body A1 and the mounting portion A2 can facilitate the application of force by the user; the main body A1 and the mounting part A2 of the shell A are in smooth transition, so that a user can not press the hand when holding the joint of the main body A1 and the mounting part A2 by the hand, and the user experience is improved.

It should be noted that, the utility model discloses a small-size portable power source of adaptation VR head-mounted device also can charge for the smart mobile phone when being connected with the mouth that charges of smart mobile phone, and because charging connector B installs in shell A's installation department A2 and charging connector B and the crossing setting of installation department A2, consequently charging connector B can make the smart mobile phone and the crossing setting of shell A after being connected with the mouth that charges of smart mobile phone. With reference to fig. 9, when the smart phone is connected to the charging connector B of the small-sized mobile power supply of the VR headset of the present utility model (i.e., when the small-sized mobile power supply of the VR headset of the present utility model charges the smart phone) and the smart phone is placed on the table top T together with the small-sized mobile power supply of the VR headset of the present utility model, the smart phone and the housing a are disposed to intersect with each other, so that the housing a and the smart phone can support each other, and the smart phone and the small-sized mobile power supply of the VR headset of the present utility model can be stably placed on the table top T. With the configuration shown in fig. 10, when the smart phone is required to be horizontally placed on the table top T after being connected with the charging connector B of the small mobile power supply of the VR headset, the smart phone can be horizontally placed on the table top T and the small mobile power supply of the VR headset is suspended outside the table top T because the smart phone is intersected with the shell a, so that the charging connector B is not broken and damaged due to too large pressure caused by mistakenly pressing the smart phone; it should be noted that, the small-sized mobile power supply of the adaptive VR headset of the present utility model has a small weight, so that when the smart phone is placed flat on the table top T and the small-sized mobile power supply of the adaptive VR headset of the present utility model is suspended outside the table top T, the center of gravity of the smart phone and the small-sized mobile power supply of the adaptive VR headset of the present utility model are located above the table top T, so that the smart phone and the small-sized mobile power supply of the adaptive VR headset of the present utility model are prevented from falling.

In the embodiment of the present utility model, the housing a may include a first half-shell a01 and a second half-shell a02 which are connected by a snap, the accommodating chamber A0 is formed between the first half-shell a01 and the second half-shell a02, the upper portion of the first half-shell a01 and the upper portion of the second half-shell a02 are combined to form the mounting portion A2 of the housing a, and the lower portion of the first half-shell a01 and the lower portion of the second half-shell a02 are combined to form the main body A1 of the housing a. The periphery of the first half shell A01 is provided with a clamping part A3, the clamping part A3 is provided with an outer clamping plate A31 and an inner clamping plate A32 positioned at the inner side of the outer clamping plate A31, a slot A33 is formed between the outer clamping plate A31 and the inner clamping plate A32 of the clamping part A3, and the inner clamping plate A32 is provided with an inner clamping hole A321; the periphery of the second half shell A02 is provided with a clamping plate A4 with a clamping block A41 corresponding to the clamping part A3; the clamping plate A41 is inserted into the slot A33 of the corresponding clamping part A3, and the clamping block A41 of the clamping plate A4 is clamped with the inner clamping hole A321 of the inner clamping plate A32 of the clamping part A3. When the small mobile power supply adapting to the VR headset disclosed by the utility model falls, the outer clamping plate A31 and the inner clamping plate A32 of the clamping part A3 can play a limiting role on the clamping plate A4, so that the clamping block A41 of the clamping plate A4 can be effectively prevented from being separated from the clamping with the inner clamping hole A321 of the inner clamping plate A32, and the first half shell A01 and the second half shell A02 of the shell A are prevented from being scattered.

In the embodiment of the utility model, as shown in fig. 3, the installation portion A2 of the housing a deviates from the radial plane of the main body A1 of the housing a toward the side where the charging interface B is arranged, so that the housing a is closer to the VR headset, and further, the center of gravity of the VR headset of the present utility model is closer to the VR headset in the horizontal direction.

In the embodiment of the utility model, the main part A1 of shell a is equipped with concave part a11, charging interface C installs in the concave part a11 of shell a main part A1, and the cooperation has the visor F that covers charging interface C in this concave part a11, and visor F can prevent charging interface C from advancing grey dust, and visor F can have the connecting strip F1 that is connected with shell A1, visor F and concave part a11 gomphosis.

In the embodiment of the utility model, be equipped with in shell A's the holding cavity A0 be used for with the action of electric core 3 block a plurality of floor A5, floor A5 can play the location electric core 3, can also play the effect of strengthening shell A intensity simultaneously, effectively avoid shell A to warp.

In an embodiment of the present utility model, a small-sized mobile power supply adapted to VR headset of the present utility model may further include a speaker G mounted to the housing a, the speaker G being electrically connected to the control circuit board E; when the small mobile power supply adapting to the VR headset disclosed by the utility model charges the smart phone abnormally, or when the small mobile power supply adapting to the VR headset charges abnormally, the control circuit board E can send out corresponding alarm sound through the loudspeaker G to play a role of alarming abnormal charging; the shell A can be provided with a mounting hole A12, and the loudspeaker G is mounted in the mounting hole A12; the shell A can be matched with a protection cover H for covering the loudspeaker G to protect the loudspeaker G, the protection cover H is provided with a sound outlet hole H1 corresponding to the loudspeaker G for sound output, and the protection cover H can be respectively clamped with a first half shell A01 and a second half shell A02 of the shell A to improve the connection stability of the first half shell A01 and the second half shell A02.

In an embodiment of the present utility model, a small-sized mobile power supply adapted to VR headset of the present utility model may further include a status indication module I mounted on the housing a, where the status indication module I is electrically connected to the control circuit board E; the status indication module I may be used to display status information such as an electric quantity of a small mobile power supply of the VR headset of the present utility model, and the status indication module I may use the indicator lamp I1. The shell A can be provided with an assembly hole A13, and the state indicating module I is installed in the assembly hole A13; the shell A can be matched with a protective shell J covering the state indication module I to protect the state indication module I, the protective shell J is of a light-transmitting structure, and the protective shell J can be respectively clamped with a first half shell A01 and a second half shell A02 of the shell A to improve the connection stability of the first half shell A01 and the second half shell A02. The status indication module I and the speaker G may be respectively located at both ends of the main body A1 of the housing a.

In the embodiment of the present utility model, the control circuit board E is provided with a control key E1, and the control key E1 can control whether the status indication module I works and whether the charging connector B discharges outwards; the housing 1 is fitted with a button K for pressing a control key E1.

The above examples and drawings are not intended to limit the form or form of the present utility model, and any suitable variations or modifications thereof by those skilled in the art should be construed as not departing from the scope of the present utility model.

Claims (10)

1. Small-size portable power source of adaptation VR head-mounted device, its characterized in that: the charging connector comprises a shell, a charging connector, a charging interface, a battery cell and a control circuit board;

the shell is internally provided with an accommodating cavity, one side of the shell is provided with an installing part protruding outwards relative to the main body of the shell, and the installing part is in smooth transition with the main body of the shell;

the charging connector is arranged at the mounting part of the shell, and the charging connector is intersected with the mounting part;

the charging interface is arranged on the main body of the shell;

the control circuit board and the battery cell are arranged in the accommodating cavity of the shell, and the control circuit board is electrically connected with the charging connector, the charging interface and the battery cell respectively.

2. The small form factor mobile power supply for a VR headset of claim 1, wherein: the mounting part of the housing deviates from the radial plane of the main body of the housing towards the side where the charging interface is arranged.

3. The small form factor mobile power supply for a VR headset of claim 1, wherein: the main body of the shell is provided with a concave part, the charging interface is arranged in the concave part of the shell main body, and a protective cover for covering the charging interface is matched in the concave part.

4. The small form factor mobile power supply for a VR headset of claim 1, wherein: a plurality of rib plates used for being clamped with the battery cells are arranged in the accommodating chamber of the shell.

5. The small form factor mobile power supply for a VR headset of claim 1, wherein: the shell comprises a first half shell and a second half shell which are connected in a buckling way, and the accommodating cavity is formed between the first half shell and the second half shell.

6. The small form factor mobile power supply for a VR headset of claim 5, wherein: the periphery of the first half shell is provided with a clamping part, the clamping part is provided with an outer clamping plate and an inner clamping plate positioned at the inner side of the outer clamping plate, a slot is formed between the outer clamping plate and the inner clamping plate of the clamping part, and the inner clamping plate is provided with an inner clamping hole;

the periphery of the second half shell is provided with a clamping plate with a clamping block corresponding to the clamping part; the clamping plates are inserted into the slots of the corresponding clamping parts, and the clamping blocks of the clamping plates are clamped with the inner clamping holes of the inner clamping plates of the clamping parts.

7. The small form factor mobile power supply for a VR headset of claim 1, wherein: the loudspeaker is arranged on the shell and is electrically connected with the control circuit board.

8. The small form factor mobile power supply for a VR headset of claim 1, wherein: the control circuit board is electrically connected with the shell.

9. The small form factor mobile power supply for a VR headset of claim 8, wherein: the shell is matched with a protective shell for covering the state indicating module.

10. The miniature mobile power supply for adapting a VR headset of claim 1 or 7 or 8, wherein: the control circuit board is provided with a control key; the housing is mounted with a button for pressing a control key.

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