CN220962008U - Handheld VR device - Google Patents

Abstract

The utility model relates to the technical field of engines, and discloses handheld VR equipment, which comprises: the device comprises a VR main body, wherein two Vr light machines which are arranged left and right are arranged in the VR main body, and the two Vr light machines are arranged in the VR main body through a pupil distance adjusting mechanism; a light shield is arranged at the outer side of the Vr optical engine; when the light shield corresponds to the eye position of the user, the VR body, the light shield and the face of the user form a light shielding space; the external connection of VR main part has flexible bandage, and the left end of flexible bandage is connected with the left end of VR main part, and the right-hand member of flexible bandage is connected with the right-hand member of VR main part, is equipped with the battery for the VR main part power supply on the flexible bandage. The device can be held by children conveniently by lengthening the front and back directions of the lengthened optical machine, the battery is arranged on the flexible binding belt, and the flexible binding belt can be carried on the neck, so that the weight of vr equipment is reduced.

Description

Handheld VR device

Technical Field

The utility model relates to the technical field of VR equipment, in particular to handheld VR equipment.

Background

VR glasses are VR head displays, and virtual reality head-mounted display devices, because there is no head display concept in the early stage, so that there are no professional calls such as VR glasses, VR eyeshields and VR helmets according to the appearance, the VR head displays are used for sealing the human vision and hearing to the outside by using the head-mounted display devices, users are guided to generate a feeling in the virtual environment, the display principle is that left and right eye screens respectively display left and right eye images, and the human eyes generate a stereoscopic impression in the brain after acquiring the information with difference.

The prior scheme is as follows: the Vr glasses on the market at present are mainly based on head-wearing type, the front is an optical machine, the rear is a battery compartment, a hard binding belt is generally fastened on the head of a user through a knob mechanism, the head-wearing type Vr glasses are not suitable for low-age-stage Vr classroom teaching of schools, certain learning time is needed for children in head-wearing type Vr glasses, give a course efficiency of schools in Vr class is reduced, an adjusting and tightening mechanism is fine, school class people are disordered in hands and easy to damage, the overall weight of the Vr glasses is generally about 600 g, and the overall weight of the Vr glasses is heavy for children. In addition, when a user uses the device, the adjustment of the display module cannot be performed according to different interpupillary distances of different users, and the requirements of different users on VR head displays cannot be met.

Thus, there is a need for a VR device that is lightweight and suitable for children to hold.

Disclosure of utility model

The utility model provides a lightweight handheld VR device with an adjustable display module distance.

The utility model provides a handheld VR device, comprising:

The device comprises a VR main body, wherein two Vr optical machines which are arranged left and right are arranged in the VR main body, and the two Vr optical machines are arranged in the VR main body through a pupil distance adjusting mechanism;

a light shield is arranged on the outer side of the Vr optical machine; when the light shield corresponds to the eye position of the user, the VR main body, the light shield and the face of the user form a light shielding space;

The external connection of VR main part has flexible bandage, the left end of flexible bandage is connected with the left end of VR main part, the right-hand member of flexible bandage is connected with the right-hand member of VR main part, be equipped with on the flexible bandage for the battery of VR main part power supply.

In some embodiments, the light shield is connected with the VR main body through a connecting mechanism, the connecting mechanism comprises connecting plates, the light shield is connected with the VR main body through two groups of connecting plates, connecting portions are arranged inside the connecting plates, mounting portions are arranged at positions corresponding to the connecting portions, and bolts are connected with the connecting portions and the mounting portions through threads.

In some embodiments, a silica gel pad 21 is disposed on the light shield at a position contacting with the face of the user, and the size of the internal structure of the light shield is set corresponding to the size of the external structure of the Vr optical machine.

In some embodiments, a nose pad notch is formed in the bottom of the light shield, and a rubber pad is fixedly connected to the bottom of the VR glasses body and above the nose pad notch.

In some embodiments, the battery is disposed in a central portion of the flexible strap.

In some embodiments, the middle portion of the flexible strap is provided with a breathable cushion that completely covers the battery.

In some embodiments, the middle portion of the flexible strap is provided with a breathable cushion that completely covers the battery.

In some embodiments, the interpupillary distance adjusting mechanism includes adjusting structures respectively corresponding to each Vr optical machine one by one, each adjusting structure includes a support piece, a motor arranged on the support piece, a screw rod connected with a rotating end of the motor, and a thread bush sleeved on the screw rod, wherein the thread bush is fixedly connected with the Vr optical machine.

In some embodiments, a control button is provided on top of the VR body, and a charging jack is provided on one side of the VR body.

In some embodiments, a plurality of groups of buffer protrusions which are uniformly distributed are fixedly arranged on the outer side of the Vr equipment shell.

In the scheme of the handheld VR device, through the VR main body, two Vr optical machines which are arranged left and right are arranged in the VR main body, and the two Vr optical machines are arranged in the VR main body through the interpupillary distance adjusting mechanism; a light shield is arranged on the outer side of the Vr optical machine; when the light shield corresponds to the eye position of the user, the VR main body, the light shield and the face of the user form a light shielding space; the external connection of VR main part has flexible bandage, the left end of flexible bandage is connected with the left end of VR main part, the right-hand member of flexible bandage is connected with the right-hand member of VR main part, be equipped with on the flexible bandage for the battery of VR main part power supply. Compared with the prior Vr equipment, the hard binding band for the general Vr glasses is used for tightening the optical machine and the battery bin and fixing the optical machine and the battery bin on the head, in order to be comfortable to attach to the face, the foaming sponge material is generally adopted at the attachment position of the optical machine and the face, the foaming sponge material is easy to be sultry, so that sweat is generated at the attachment position of a user and the Vr equipment, the sponge piece is easy to be blackened and smelly for a long time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments of the present utility model will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of a handheld VR device according to an embodiment of the present utility model;

Fig. 2 is a schematic diagram of a handheld VR device according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of an interpupillary distance adjustment mechanism of a handheld VR device in accordance with an embodiment of the present utility model;

reference numerals illustrate:

1. A Vr body; 11. vr ray machine; 2. a light shield; 21. a silica gel pad 21; 3. a connecting mechanism; 31. a connecting plate; 32. a connection part; 33. a mounting part; 34. a bolt; 4. a flexible strap; 5. a battery; 6. a charging jack; 7. a control button; 8. a support; 82. a motor; 83. a screw rod; 84. a thread sleeve; 9. and a buffer protrusion.

Detailed Description

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

It will be understood that the terms first, second, etc. as used herein may be used to describe various elements, but these elements are not limited by these terms. These terms are only used to distinguish one element from another element.

Fig. 1 to 3 are schematic structural diagrams of a handheld VR device according to an embodiment of the present utility model, where the handheld VR device may include:

The VR main body 1, two Vr optical machines 11 which are arranged left and right are arranged in the VR main body 1, and the two Vr optical machines 11 are arranged in the VR main body 1 through the interpupillary distance adjusting mechanism;

A light shield 2 is arranged on the back surface of the VR main body 1 and positioned on the outer side of the Vr optical machine 11; when the light shield 2 corresponds to the eye position of the user, the VR main body 1, the light shield 2 and the face of the user form a light shielding space;

The external connection of VR main part 1 has flexible bandage 4, and the left end of flexible bandage 4 is connected with the left end of VR main part 1, and the right-hand member of flexible bandage 4 is connected with the right-hand member of VR main part 1, is equipped with battery 5 for VR main part 1 power supply on the flexible bandage 4.

In an application scene, on a primary school science Vr classroom, after a teacher speaks the general cause of volcanic formation, the student picks up Vr of the Vr equipment, and directly watches science and education videos related to the volcanic eruption process through the Vr optical machine 11, so that the teacher does not need to help the student wear Vr in the process, and can explain some contents on the videos while watching the videos by the student, thereby improving the efficiency of give a course; 5 bins of the battery: responsible for powering the Vr light engine 11; flexible strap 4: the built-in power supply line can be directly hung on the neck of a user during use; vr ray machine 11: and playing vr video.

In some embodiments, the light shield 2 is connected with the VR main body 1 through the connection mechanism 3, the connection mechanism 3 includes a connection plate 31, the light shield 2 is connected with the VR main body 1 through two groups of connection plates 31, a connection portion 32 is formed inside the connection plate 31, a mounting portion 33 is formed on the back surface of the VR main body 1 and at a position of a bolt 34 corresponding to the connection portion 32, and the connection manner of the bolt 34 and the connection portion 32 and the mounting portion 33 is through threaded connection.

The light shield 2 is connected with the VR main body 1 through the connecting mechanism 3, when the light shield 2 is damaged, the bolt 34 penetrates through the connecting plate 31 and extends to the inside of the VR main body 1, the bolt 34 is in threaded connection with the connecting portion 32 and the mounting portion 33, the bolt 34 is screwed out of the mounting portion 33 and the connecting portion 32, the limit of the connecting plate 31 is eliminated by the bolt 34, the light shield 2 is taken down from the VR main body 1, a new light shield 2 is mounted on the VR main body 1, the connecting portion 32 is overlapped with the mounting portion 33, the bolt 34 is screwed into the inside of the connecting portion 32 and the mounting portion 33, the connecting plate 31 and the VR main body 1 are fixed through the bolt 34, a silica gel pad is made of a silica gel material, and the size of the inner structure of the light shield 2 is correspondingly arranged with the size of the outer structure of the VR optical machine 11 when in use.

In some embodiments, a silica gel pad is disposed on the light shield 2 at a position contacting the face of the user, and the size of the internal structure of the light shield 2 is set corresponding to the size of the external structure of the Vr optical machine 11. The silica gel pad improves the comfort of the user, and simultaneously has a protective effect on the eyes of the user when the user is collided.

In some embodiments, a nose pad notch is formed at the bottom of the light shield 2, and a rubber pad is fixedly connected to the bottom of the VR glasses body and above the nose pad notch.

In some embodiments, the battery 5 is disposed in the middle of the flexible strap 4. When in use, the utility model is just hung on the neck.

In some embodiments, the middle portion of the flexible strap 4 is provided with a breathable cushion that completely covers the battery 5.

Wherein, the breathable soft cushion adopts a rubber cushion wrapped by non-woven fabrics; when the battery 5 is fixed on the rear side of the head, the function of increasing comfort is achieved through the arrangement of the breathable cushion.

In some embodiments, it is preferable that the middle portion of the flexible strap 4 is provided with a breathable cushion that completely covers the battery 5.

In some embodiments, the interpupillary distance adjusting mechanism includes adjusting structures corresponding to each Vr optical machine 11 one by one respectively, each adjusting structure includes a support member 8, a motor 82 disposed on the support member 8, a screw rod 83 connected to a rotating end of the motor 82, and a threaded sleeve 84 sleeved on the screw rod 83, where the threaded sleeve 84 is fixedly connected to the Vr optical machine 11.

When the user needs to adjust the space between the two Vr optical machines 11, the user can start the corresponding motor 82 through the control button 7 to drive the screw rod 83 to rotate, so that the thread bush 84 moves left and right along the screw rod 83 to adjust the space between the two Vr optical machines 11, and more people can be applied.

In some embodiments, the top of the VR body 1 is provided with a control button 7 and one side of the VR body 1 is provided with a charging socket 6.

In some embodiments, a plurality of groups of buffer protrusions 9 which are uniformly distributed are fixedly arranged on the outer side of the Vr equipment shell.

Wherein, through setting up a plurality of buffer bulge 9, further improved the anti effect that falls of Vr equipment shell, this embodiment specifically solved the problem that the Vr equipment shell that exists among the prior art is prevented falling and the protection effect is poor.

Those skilled in the art will appreciate that implementing all or part of the above-described methods in accordance with the embodiments may be accomplished by way of a computer program stored in a computer-readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. The storage medium may be a nonvolatile storage medium such as a magnetic disk, an optical disk, a Read-Only Memory (ROM), or a random access Memory (Random Access Memory, RAM).

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. A handheld VR device comprising:

The device comprises a VR main body, wherein two Vr optical machines which are arranged left and right are arranged in the VR main body, and the two Vr optical machines are arranged in the VR main body through a pupil distance adjusting mechanism;

A light shield is arranged on the outer side of the Vr optical engine; when the light shield corresponds to the eye position of the user, the VR main body, the light shield and the face of the user form a light shielding space;

The external connection of VR main part has flexible bandage, the left end of flexible bandage is connected with the left end of VR main part, the right-hand member of flexible bandage is connected with the right-hand member of VR main part, be equipped with on the flexible bandage for the battery of VR main part power supply.

2. The handheld VR device of claim 1, wherein the light shield is connected with the VR body through a connection mechanism, the connection mechanism comprises connection plates, the light shield is connected with the VR body through two groups of connection plates, connection portions are formed in the connection plates, mounting portions are formed in positions corresponding to the connection portions, and bolts are connected with the connection portions and the mounting portions through threads.

3. The handheld VR device as set forth in claim 1, wherein a silicone pad (21) is disposed on the light shield at a position contacting the face of the user, and wherein an inner structure size of the light shield is disposed corresponding to an outer structure size of the VR optical machine.

4. The handheld VR device of claim 1, wherein a nose pad recess is formed in the bottom of the light shield, and a rubber pad is fixedly connected to the bottom of the VR body and above the nose pad recess.

5. The handheld VR device of claim 1, wherein the battery is disposed in a middle portion of the flexible strap.

6. The handheld VR device of claim 5, wherein a central portion of said flexible strap is provided with a breathable cushion that completely covers said battery.

7. The handheld VR device of claim 6, wherein a central portion of the flexible strap is provided with a breathable cushion that completely covers the battery.

8. The handheld VR device of claim 1, wherein the interpupillary distance adjusting mechanism includes adjusting structures respectively corresponding to the VR optical machines one by one, each adjusting structure includes a support member, a motor disposed on the support member, a screw rod connected to a rotating end of the motor, and a threaded sleeve sleeved on the screw rod, and the threaded sleeve is fixedly connected to the VR optical machines.

9. The handheld VR device of claim 1, wherein a control button is provided on top of the VR body and a charging jack is provided on one side of the VR body.

10. The handheld VR device of claim 1, wherein: and a plurality of groups of buffer bulges which are uniformly distributed are fixedly arranged on the outer side of the VR main body shell.