CN216286568U - VR handle device convenient to hold - Google Patents

Abstract

The utility model discloses a device convenient for holding a VR handle, which comprises a VR handle shell; the VR handle housing includes a first housing body and a second housing body; the first shell body is a hard shell, and the second shell body is a soft shell; three first anti-slip groove parts are sequentially arranged along the surface of the first shell body from top to bottom; an annular buckling finger part is further arranged on the outer side surface of the first shell body corresponding to the first anti-skidding groove part in the middle; a main supporting frame is arranged along the interior of the first shell body and used for supporting the inner wall of the first shell body; the center of the main supporting frame is connected with a through shaft lever; the penetrating shaft lever is a three-section structural lever; the hard structural rod penetrating through the shaft lever at the tail end is also connected with a tail support adjusting block; the handle device can adapt to more hand types of operators and provide better holding hand feeling, thereby improving the holding performance of handle operation.

Description

VR handle device convenient to hold

Technical Field

The utility model relates to the technical field of VR handle equipment, in particular to a device convenient for holding a VR handle.

Background

Virtual reality technology is technology for providing an immersive sensation in an interactive three-dimensional environment generated on a computer using a computer graphics system and various interface devices for reality and control. It utilizes computer to generate a simulated environment, and utilizes the system simulation of interactive three-dimensional dynamic visual and entity behaviors of multi-source information fusion to immerse the user in the environment.

Virtual Reality (VR) technology mainly includes multiple technologies in terms of simulation environment, perception, natural skills, and sensing devices, input devices, etc.; wherein, the VR handle also is used as the most extensive input device, handle among the prior art, when using, often because operator's hand type is different, handheld feeling descends, some hand palms are big on the large side wide, some operator palms then narrow on the small side, so it is often not good to hold the feeling when different operators operate the VR handle device among the prior art, and hold the power then cause the handle to throw away the scheduling problem easily, other personnel can be pounded to the handle of throwing away, cause certain injury to personnel on every side, not safe enough, so prior art can't satisfy people's use needs.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a VR handle device which is convenient to hold, and solves the problems that the holding force is insufficient, and the VR handle device is easy to slip and fall off when in use in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides a device convenient for holding a VR handle, which comprises a VR handle shell; the VR handle housing includes a first housing body at a front end and a second housing body connected to a rear portion of the first housing body;

the first shell body is a hard shell, and the second shell body is a soft shell; three first anti-slip groove parts are sequentially arranged along the surface of the first shell body from top to bottom; the first anti-slip groove portion is arranged around the inner side surface of the first shell body, and a plurality of '>' shaped anti-slip lines are arranged along the inner groove wall of the first anti-slip groove portion; an annular buckling finger part is further arranged on the outer side surface of the first shell body corresponding to the first anti-slip groove part in the middle;

a main supporting frame is arranged along the interior of the first shell body and is used for supporting the inner wall of the first shell body; the center of the main supporting frame is connected with a through shaft lever; the penetrating shaft lever is a three-section structural lever; the top end section of the penetrating shaft rod is a hard structural rod, the middle section of the penetrating shaft rod is a bendable plastic structural rod, and the tail end section of the penetrating shaft rod is a hard structural rod; the installation position of the bendable plastic structural rod at the middle section position corresponds to the installation position of the second shell body;

the hard structural rod penetrating through the shaft lever at the tail end is also connected with a tail support adjusting block; a second anti-skid groove part is arranged on the outer surface of the tail support adjusting block; the second anti-slip groove portion is arranged around the inner side surface of the second housing body; and a plurality of anti-slip lines shaped like the Chinese character 'ji' are arranged along the inner groove wall of the second anti-slip groove part.

Preferably, as one possible embodiment; the first shell body is a hard plastic shell, and the second shell body is a rubber soft shell.

Preferably, as one possible embodiment; the annular finger-buckling part comprises an annular finger ring and anti-skid grains arranged on the inner surface of the annular finger ring.

Preferably, as one possible embodiment; the outer side surface of the first shell body is further provided with a plurality of anti-skidding salient points which are evenly distributed on the outer side surface of the first shell body in a matrix form.

Preferably, as one possible embodiment; the anti-skid salient points are convex parts in the shape of a regular triangular pyramid.

The VR handle device convenient to hold provided by the utility model has the advantages that the anti-sliding performance is obviously improved, the use effect of the VR handle is improved, and the stable operation effect is realized.

Preferably, as one possible embodiment; the VR handle housing further includes an outer adhesive layer; an inner bonding layer is arranged at the joint between the first shell body and the second shell body; the outer adhesive layer surrounds the inner adhesive layer at an outer surface thereof.

Preferably, as one possible embodiment; the outer bonding layer comprises an outer sweat absorbing layer and a magic tape layer sewn at the bottom of the outer sweat absorbing layer; the inner bonding layer is a magic tape parent layer; the magic tape layer is in bonding fit with the magic tape female layer.

Preferably, as one possible embodiment; the outer sweat absorbing layer comprises a PU sweat absorbing layer and a base layer arranged at the bottom of the PU sweat absorbing layer; the base layer is a non-woven fabric layer; the PU sweat absorbing layer is connected with the base layer in an adhesive mode.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model provides a VR handle device convenient to hold, and the main structure of the VR handle device convenient to hold is analyzed to know that: the handle device mainly comprises a VR handle shell; meanwhile, the VR handle shell mainly comprises a first shell body positioned at the front end and a second shell body connected to the tail part of the first shell body;

the first shell body is a hard shell, and the second shell body is a soft shell; three first anti-slip groove portions (the three first anti-slip groove portions are finger anti-slip portions, and grooves formed by the first anti-slip groove portions can be matched with finger bellies (or finger inner sides)) are sequentially arranged from top to bottom along the surface of the first shell body; the first anti-slip groove part is arranged around the inner side surface of the first shell body, and a plurality of anti-slip lines shaped like Chinese character 'ji' are arranged along the inner groove wall of the first anti-slip groove part (the anti-slip lines shaped like Chinese character 'ji' ensure that finger bellies can form a better anti-slip fit relation with the inner side of the handle); an annular buckling finger part is further arranged on the outer side surface of the first shell body corresponding to the first anti-slip groove part in the middle; it should be further noted that the first three first anti-slip groove portions are respectively in contact with the index finger, the middle finger and the ring finger, and respectively perform anti-slip function on the above portions, however, the first anti-slip groove portion located at the middle position is provided with a ring-shaped fastening finger portion corresponding to the back surface, and the ring-shaped fastening finger portion is used for ensuring that the middle finger is connected more firmly, and ensuring that the back surface of the handle device can be connected and fixed. The second anti-skid groove part is arranged on the second shell body and corresponds to the small finger for skid prevention. The annular buckling finger part is used for sleeving the middle finger of the operator, and the stress of the middle finger is obvious, so that the sleeving is convenient for the operator to better, more reliably and firmly grip the outer side of the first shell body more tightly.

In a specific structural scheme, the center of the main supporting frame is connected with a through shaft lever; the penetrating shaft rod is a three-section structural rod, free bending of the three-section structural rod at a certain angle can be realized through the bendable plastic structural rod at the middle section position, and after the three-section structural rod is bent, the second shell body can be bent at a certain angle relative to the first shell body, and the second shell body can be deformed within a certain range due to the fact that the second shell body is of a soft structure as a whole; in this way, after the overall position of the second housing body is changed, the second anti-slip groove portion on the surface is also changed in position, so that the palm of different operators can be adapted; researches show that when the handle is held, the index finger, the middle finger and the ring finger are close to each other, and the small finger and the ring finger are often placed everywhere due to different sizes of palms, the second housing body is adjusted to be in a more bent shape, so that the holding performance of the handle can be indirectly enhanced, and the holding is more reliable.

Drawings

Fig. 1 is a schematic perspective view of a VR handle device that is convenient to hold and bend at a certain angle according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of another perspective view of a VR handle device that is convenient to hold according to an embodiment of the present invention;

fig. 3 is a schematic perspective view of a VR handle device that is convenient to hold in a different view according to an embodiment of the present invention;

FIG. 4 is a schematic view of a half-section view of a VR handle device that is easy to hold according to an embodiment of the present invention;

FIG. 5 is an exploded view of FIG. 4;

FIG. 6 is a schematic diagram of a portion of a VR handle device that is easy to hold according to an embodiment of the present invention;

fig. 7 is a schematic view of the VR handle set of fig. 1 with an outer adhesive layer and an inner adhesive layer attached for easy holding of the VR handle set.

Reference numbers: 10-a first housing body; 11-a first anti-slip groove portion; 12-finger skid resistance; 13-ring-shaped finger-clasping part; 14-a main support frame; 15-a through shaft; 16-anti-slip bumps; 20-a second housing body; 21-a tail stock adjusting block; 22-a second anti-slip groove portion; 30-an outer adhesive layer; 40-inner adhesive layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1-6, in one embodiment, a device for facilitating holding a VR handle includes a VR handle housing; the VR handle housing includes a first housing body 10 at a front end and a second housing body 20 attached to a rear portion of the first housing body;

the first shell body 10 is a hard shell, and the second shell body 20 is a soft shell; three first anti-slip groove portions 11 are sequentially arranged along the surface of the first housing body 10 from top to bottom; the first anti-slip groove portion 11 is arranged around the inner side surface of the first shell body, and a plurality of ">" shaped anti-slip lines (namely, finger anti-slip lines 12) are arranged along the inner groove wall of the first anti-slip groove portion 11; an annular buckling finger part 13 is further arranged on the outer side surface of the first shell body corresponding to the first anti-slip groove part in the middle; it should be noted that the first three first anti-slip groove portions are respectively a contact anti-slip index finger, a middle finger and a ring finger. The second anti-slip groove part is anti-slip corresponding to the little finger. The annular finger-buckling part is used for sleeving the middle finger of the operator; because the fingers are stressed obviously, the sleeving connection of the fingers is convenient for an operator to better, more reliably and firmly hold the outer side of the first shell body more tightly.

A main supporting frame 14 is arranged along the inside of the first shell body 10 and is used for supporting the inner wall of the first shell body; the center of the main supporting frame is connected with a through shaft lever 15; the penetrating shaft lever 15 is a three-section structural lever; the top end section of the penetrating shaft rod is a hard structural rod, the middle section of the penetrating shaft rod is a bendable plastic structural rod, and the tail end section of the penetrating shaft rod is a hard structural rod; the installation position of the bendable plastic structural rod at the middle section position corresponds to the installation position of the second shell body;

the hard structural rod of the penetrating shaft rod 15 at the tail end is also connected with a tail support adjusting block 21, and the main installation position of the tail support adjusting block 21 is arranged at the second shell body; a second anti-slip groove portion 22 is arranged on the outer surface of the tail support adjusting block; the second anti-slip groove portion 22 is provided around the second housing body inner surface; a plurality of ">" shaped anti-slip threads (i.e., finger anti-slip threads) are provided along the inner groove wall of the second anti-slip groove portion 22.

It can be known to analyze the above-mentioned VR handle device's of being convenient for to grip major structure: the handle device mainly comprises a VR handle shell; meanwhile, the VR handle shell mainly comprises a first shell body positioned at the front end and a second shell body connected to the tail part of the first shell body;

the first shell body is a hard shell, and the second shell body is a soft shell; three first anti-slip groove portions (the three first anti-slip groove portions are finger anti-slip portions, and grooves formed by the first anti-slip groove portions can be matched with finger bellies (or finger inner sides)) are sequentially arranged from top to bottom along the surface of the first shell body; the first anti-slip groove part is arranged around the inner side surface of the first shell body, and a plurality of anti-slip lines shaped like Chinese character 'ji' are arranged along the inner groove wall of the first anti-slip groove part (the anti-slip lines shaped like Chinese character 'ji' ensure that finger bellies can form a better anti-slip fit relation with the inner side of the handle); an annular buckling finger part is further arranged on the outer side surface of the first shell body corresponding to the first anti-slip groove part in the middle; it should be further noted that the first three first anti-slip groove portions are respectively in contact with the index finger, the middle finger and the ring finger, and respectively perform anti-slip function on the above portions, however, the first anti-slip groove portion located at the middle position is provided with a ring-shaped fastening finger portion corresponding to the back surface, and the ring-shaped fastening finger portion is used for ensuring that the middle finger is connected more firmly, and ensuring that the back surface of the handle device can be connected and fixed. The second anti-skid groove part is arranged on the second shell body and corresponds to the small finger for skid prevention. The annular buckling finger part is used for sleeving the middle finger of the operator, and the stress of the middle finger is obvious, so that the sleeving is convenient for the operator to better, more reliably and firmly grip the outer side of the first shell body more tightly.

In a specific structural scheme, the center of the main supporting frame is connected with a through shaft lever; the penetrating shaft rod is a three-section structural rod, free bending of the three-section structural rod at a certain angle can be realized through the bendable plastic structural rod at the middle section position, and after the three-section structural rod is bent, the second shell body can be bent at a certain angle relative to the first shell body, and the second shell body can be deformed within a certain range due to the fact that the second shell body is of a soft structure as a whole; in this way, after the overall position of the second housing body is changed, the second anti-slip groove portion on the surface is also changed in position, so that the palm of different operators can be adapted; researches show that when the handle is held, the index finger, the middle finger and the ring finger are close to each other, and the small finger and the ring finger are often placed everywhere due to different sizes of palms, the second housing body is adjusted to be in a more bent shape, so that the holding performance of the handle can be indirectly enhanced, and the holding is more reliable.

The following detailed description is provided for the specific structure and the specific technical effects of the VR handle device convenient to hold according to the embodiment of the present invention:

in a specific technical solution of the embodiment of the present invention, the first housing body 10 is a hard plastic housing, and the second housing body 20 is a soft rubber housing.

It should be noted that, the first housing body may adopt various structural forms, but researchers consider that the hard plastic housing is superior in hardness and wear resistance, and it is most critical that the second housing body is preferably a rubber housing, and the second housing body needs to be adjusted according to the position deformation of the tail support adjusting block so that the position of the second housing body is also adjusted and changed, and finally, the position of the whole second housing body and the position of the second anti-slip groove portion are changed;

in a specific technical solution of the embodiment of the present invention, the annular finger fastening part 13 includes an annular finger ring and an anti-slip pattern disposed on an inner surface of the annular finger ring.

The annular buckling finger part mainly plays a role of sleeving a middle finger, and avoids the phenomenon that the middle finger is separated from the handle due to excessive throwing in the use process; meanwhile, in order to further enhance the surface friction force of the annular finger ring, a plurality of effective anti-skid lines are arranged on the inner surface of the annular finger ring.

In a specific technical solution of the embodiment of the present invention, the outer side surface of the first housing body 10 is further provided with a plurality of anti-slip bumps 16, and the plurality of anti-slip bumps 16 are uniformly distributed on the outer side surface of the first housing body in a matrix form.

It should be noted that the outer side surface of the first shell body is further provided with a plurality of anti-slip protruding points, and the anti-slip protruding points are used for further enhancing the surface wear resistance and the surface friction of the first shell body and ensuring that the holding is more tight.

In a specific technical solution of the embodiment of the present invention, the anti-slip bump 16 is a convex portion in a regular triangular pyramid shape.

It should be noted that, researchers believe that it is more appropriate that the anti-slip bumps are preferably protrusions in the shape of a regular triangular pyramid, on one hand, because the protrusions on the surface of the anti-slip bumps are sharper, the anti-wear performance of the anti-slip bumps is better, and on the other hand, an anti-slip area formed by combining a plurality of anti-slip bumps in a matrix form ensures that the anti-slip characteristics of the area are superior.

In a specific solution of the embodiment of the present invention, the VR handle housing further includes an outer adhesive layer 30; an inner bonding layer 40 is arranged at the joint between the first shell body and the second shell body; the outer adhesive layer is surrounded on the outer surface of the inner adhesive layer, that is, the outer adhesive layer 30 and the inner adhesive layer 40 are both configured to be wound around the bending bend between the first case body and the second case body in fig. 1.

It should be noted that the VR handle housing of this embodiment is equivalent to a two-section structural housing, and the first part is a hard structural shell, and the second part is a soft housing, and the two can realize free position adjustment and change.

Meanwhile, in a further technical scheme, the second shell body and the first shell body can be wound and fastened through an adhesive layer, namely, the second shell body can be bent at a certain angle through a bendable plastic structural rod at the middle section position, so that an operator is required to bend the second shell body with force if the simplicity is changed; certainly, after the bending is well carried out, the fastening and winding of the connecting part can be realized through the matching of the outer bonding layer and the inner bonding layer, so that the bending angle is ensured to be fixed, and the second shell body is further ensured not to have obvious position change even if the second shell body is bent forcibly.

In the specific technical scheme of the embodiment of the utility model, the outer bonding layer comprises an outer sweat absorbing layer and a magic tape layer sewn at the bottom of the outer sweat absorbing layer; the inner bonding layer is a magic tape parent layer; the magic tape layer is in bonding fit with the magic tape female layer.

What need explain, outer adhesive linkage includes outer sweat-absorbing layer and sews up the magic sticker layer of outer sweat-absorbing layer bottom, the design on this outer sweat-absorbing layer can adsorb the sweat of landing on the handle, so can promote the sweat-absorbing performance of traditional VR handle device, and the guarantee handle is more dry, grips more steadily, avoids leading to VR handle device to skid because of sweat, and the problem that the power of gripping is not enough takes place.

In the specific technical scheme of the embodiment of the utility model, the outer sweat absorbing layer comprises a PU sweat absorbing layer and a base layer arranged at the bottom of the PU sweat absorbing layer; the base layer is a non-woven fabric layer; the PU sweat absorbing layer is connected with the base layer in an adhesive mode.

The outer sweat absorbing layer preferably includes a PU sweat absorbing layer and a nonwoven fabric layer disposed on the bottom of the PU sweat absorbing layer; the non-woven fabric layer does not have obvious water absorption and is mainly realized through the PU sweat absorption layer, so that the outer sweat absorption layer can always guarantee the sweat absorption effect, and the water of the outer sweat absorption layer can be guaranteed to flow into the magic tape layer at the bottom of the outer sweat absorption layer, so that the bonding performance reduction caused by the water content of the magic tape layer is avoided. Through promoting the sweat-absorbing effect, indirectly played the antiskid effect, ensured to grip more firmly.

In summary, the VR handle device convenient to hold provided by the utility model is adjustable in the tail position, so that the anti-slip performance of the VR handle device is remarkably improved in multiple aspects such as the anti-slip specific design and the finger buckling structure design of fingers, and the using effect and the stable operation effect of the VR handle are improved.

Those not described in detail in this specification are within the skill of the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A VR handle assembly for easy gripping, comprising a VR handle housing; the VR handle housing includes a first housing body at a front end and a second housing body connected to a rear portion of the first housing body;

the first shell body is a hard shell, and the second shell body is a soft shell; three first anti-slip groove parts are sequentially arranged along the surface of the first shell body from top to bottom; the first anti-slip groove portion is arranged around the inner side surface of the first shell body, and a plurality of '>' shaped anti-slip lines are arranged along the inner groove wall of the first anti-slip groove portion; an annular buckling finger part is further arranged on the outer side surface of the first shell body corresponding to the first anti-slip groove part in the middle;

a main supporting frame is arranged along the interior of the first shell body and is used for supporting the inner wall of the first shell body; the center of the main supporting frame is connected with a through shaft lever; the penetrating shaft lever is a three-section structural lever; the top end section of the penetrating shaft rod is a hard structural rod, the middle section of the penetrating shaft rod is a bendable plastic structural rod, and the tail end section of the penetrating shaft rod is a hard structural rod; the installation position of the bendable plastic structural rod at the middle section position corresponds to the installation position of the second shell body;

the hard structural rod penetrating through the shaft lever at the tail end is also connected with a tail support adjusting block; a second anti-skid groove part is arranged on the outer surface of the tail support adjusting block; the second anti-slip groove portion is arranged around the inner side surface of the second housing body; and a plurality of anti-slip lines shaped like the Chinese character 'ji' are arranged along the inner groove wall of the second anti-slip groove part.

2. The device of claim 1, wherein the VR handle is configured to facilitate gripping of the VR handle by: the first shell body is a hard plastic shell, and the second shell body is a rubber soft shell.

3. The device of claim 2, wherein the VR handle is configured to facilitate gripping of the VR handle by: the annular finger-buckling part comprises an annular finger ring and anti-skid grains arranged on the inner surface of the annular finger ring.

4. The device of claim 3, wherein the handle to facilitate gripping the VR handle device is: the outer side surface of the first shell body is further provided with a plurality of anti-skidding salient points which are evenly distributed on the outer side surface of the first shell body in a matrix form.

5. The device of claim 4, wherein the handle to facilitate gripping the VR handle device is: the anti-skid salient points are convex parts in the shape of a regular triangular pyramid.

6. The device of claim 1, wherein the VR handle is configured to facilitate gripping of the VR handle by: the VR handle housing further includes an outer adhesive layer; an inner bonding layer is arranged at the joint between the first shell body and the second shell body; the outer adhesive layer surrounds the inner adhesive layer at an outer surface thereof.

7. The device of claim 6, wherein the handle to facilitate gripping the VR handle comprises: the outer bonding layer comprises an outer sweat absorbing layer and a magic tape layer sewn at the bottom of the outer sweat absorbing layer; the inner bonding layer is a magic tape parent layer; the magic tape layer is in bonding fit with the magic tape female layer.

8. The device of claim 7, wherein the VR handle is configured to facilitate gripping of the VR handle by: the outer sweat absorbing layer comprises a PU sweat absorbing layer and a base layer arranged at the bottom of the PU sweat absorbing layer; the base layer is a non-woven fabric layer; the PU sweat absorbing layer is connected with the base layer in an adhesive mode.

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