CN206311840U - A kind of virtual implementing helmet with dust reduction capability - Google Patents

Abstract

The utility model is on a kind of virtual implementing helmet with dust reduction capability, including virtual implementing helmet shell, the display device on virtual implementing helmet shell, one or more transparency cover for being fixed on virtual implementing helmet enclosure in fixed or detachable manner and two optical mirror slips or optics module for being fixed on virtual implementing helmet enclosure in fixed or detachable manner, the transparency cover is located between display device and optical mirror slip or optics module.After said structure, its advantage is simple structure, easy to use, optical mirror slip or optics module good dustproof effect, can improve the service life of optical mirror slip or optics module.

Description

A kind of virtual implementing helmet with dust reduction capability

Technical field

The utility model belongs to technical field of virtual reality, is with the virtual of dust reduction capability on a kind of specifically The real helmet.

Background technology

All there is the pollution of optical mirror slip dust in existing virtual reality device (including handset mounting and all-in-one) major part Problem, is not completely cut off eyeglass completely with air the reason for cause this problem, so that dust sticks to light by gap Learn on eyeglass, user does not see picture when using, be not felt by high grade picture and the feeling of immersion experience of virtual implementing helmet, from And have a strong impact on the experience sense of user；

In addition, existing display device to the space between optical mirror slip be V-arrangement, it is wide outside and narrow inside, therefore closer to optics The more bad cleaning of eyeglass.Importantly, the surface of optical mirror slip is curved surface, and the surface of optical mirror slip would generally plate tunic, Abrasion is easily caused during cleaning.Therefore the cleaning of existing optical mirror slip is cumbersome with maintenance.

Utility model content

The purpose of this utility model is to provide a kind of virtual implementing helmet with dust reduction capability, existing virtual to solve The real helmet can not dust-proof, optical mirror slip or the big and easy to wear problem of optics module cleaning amount.

To achieve the above object, the utility model uses following technical scheme：

A kind of virtual implementing helmet with dust reduction capability, including virtual implementing helmet shell, located at virtual implementing helmet Display device on shell, one or more be fixed on virtual implementing helmet enclosure in fixed or detachable manner Transparency cover and two optical mirror slips or optical mode for being fixed on virtual implementing helmet enclosure in fixed or detachable manner Group, the transparency cover is located between display device and optical mirror slip or optics module and near optical mirror slip or the position of optics module Put, for preventing the dust in air to be attached to optical mirror slip or optics module.Wherein, optics module is by multiple optical frames The laminated structure that piece is constituted.

According to the utility model, one or more is provided between the optical mirror slip or optics module and transparency cover First cushion block so that one section of confined space being hedged off from the outer world, a side are formed between transparency cover and optical mirror slip or optics module Face can prevent optical mirror slip or optics module from wearing and tearing, and on the other hand may insure the reflectivity of optical mirror slip or optics module.

Further, first cushion block is packing ring, foam rubber, double faced adhesive tape or rubber blanket etc..

According to the utility model, the inside of the virtual implementing helmet shell is provided with left chamber and right chamber room, described virtual One or more flanges are respectively equipped with the inwall of real helmet shell, are sequentially provided with from front to back described in one on the flange Transparency cover, one or more first cushion block and two optical mirror slips or optics module, the transparency cover are located at left chamber With the outside of right chamber room, two optical mirror slips or optics module are respectively arranged on the inside of left chamber and right chamber room.

According to the utility model, the inside of the virtual implementing helmet shell is provided with left chamber and right chamber room, the left chamber It is respectively equipped with one or more flanges on the inwall of room and right chamber room, it is each from front to back on the flange of the left chamber and right chamber room It is sequentially provided with the transparency cover, the first cushion block and optical mirror slip or optics module.

Further, the flange is collar flange, and its is easy for installation, transparency cover, the first cushion block and optical mirror slip or light Learn more stable when module is placed, reliable.

According to the utility model, the rear end of each optical mirror slip or optics module is additionally provided with one for compressing optical mirror slip Or the gland of optics module, the first cushion block and transparency cover, the gland is fixed on outside virtual implementing helmet by removably On shell so that gland installation and removal are convenient.

According to the utility model, the second cushion block is provided between the flange and transparency cover.

Further, second cushion block is packing ring, foam rubber, double faced adhesive tape or rubber blanket etc..

According to the utility model, the rear end of each optical mirror slip or optics module is additionally provided with one for compressing optical mirror slip Or optics module, the first cushion block and transparency cover, the gland of the second cushion block, the gland is fixed on virtual existing by removably On real helmet shell.

According to the utility model, the inwall of the gland is provided with internal thread, and the virtual implementing helmet shell correspondence is pressed The internal thread position of lid is provided with the external screw thread matched with internal thread, and during installation, gland and virtual implementing helmet shell pass through spiral shell Line cooperation is fixedly connected.

Further, the inside of the gland is additionally provided with one or more limited blocks, when outside gland and virtual implementing helmet When shell is connected, limited block withstands optical mirror slip or optics module just, so as to by transparency cover, the first cushion block and optical mirror slip or light Module is learned to be fixed on virtual implementing helmet shell, or by the second cushion block, transparency cover, the first cushion block and optical mirror slip or optical mode Group is fixed on virtual implementing helmet shell.

Further, the limited block on the gland is one, and the limited block is ring-type limited block, compresses effect more It is good.

According to the utility model, the gland is provided with draw-in groove, and the virtual implementing helmet shell is provided with buckle, described Buckle matches with draw-in groove.

According to the utility model, the front end of the virtual implementing helmet shell is provided with the receiving space for accommodating display device.

According to the utility model, a fixing device is provided with the receiving space, the display device is filled by fixed Put and be detachably secured on virtual implementing helmet shell so that display device installation and removal are convenient.

According to the utility model, the fixing device includes a torsion spring and a scalable folder lid, and the display device is located at Between folder lid and virtual implementing helmet shell.

Further, the folder is covered and is provided with a slipmat, with increasing friction force, prevents display device from sliding.

According to the utility model, the fixing device includes a chute, and the display device is inserted in the chute, institute State and posted on the inwall of chute one layer of rubber layer, with high clamping force, it is to avoid display device slides the generation of phenomenon.

Further, the outside of the chute is provided with position-limit mechanism, is fixed on virtually display device by position-limit mechanism On real helmet shell, the position-limit mechanism can be rotary block, movable pusher dog etc..

According to the utility model, the display device is flat board, smart mobile phone etc..

According to the utility model, the transparency cover is using PMMA (polymethyl methacrylate), transparent PC, glass etc..

Virtual implementing helmet with dust reduction capability of the present utility model, its advantage is：

1st, its simple structure, using the design of two panels transparency cover, its part processing cost is low；

2nd, the setting of transparency cover, plays dust-proof effect, it is adaptable to the occasion of many dirt, and pole is brought to maintenance works such as cleanings Big facility, while optical mirror slip or optics module can be protected, prevents the surface abrasion of optical mirror slip or optics module and prevents Only the film plating layer on the surface of optical mirror slip or optics module comes off；

3rd, its installation and removal is convenient, and optical mirror slip or optics module, the first cushion block, transparency cover etc. can be tieed up individually Shield and repairing etc..

Brief description of the drawings

Fig. 1 is the structural representation of the virtual implementing helmet for carrying the first cushion block of the present utility model.

Fig. 2 is the structural representation of the shell of the virtual implementing helmet of Fig. 1.

Fig. 3 is another structural representation of the virtual implementing helmet with the first cushion block.

Fig. 4 is the structural representation of the shell of the virtual implementing helmet of Fig. 3.

Fig. 5 is the structural representation that virtual implementing helmet shell is snapped connection with gland.

Fig. 6 is the schematic enlarged-scale view of the part A of Fig. 5.

Fig. 7 is the structural representation of fixing device of the present utility model.

Fig. 8 is another structural representation of fixing device of the present utility model.

Fig. 9 is the structural representation of the virtual implementing helmet with the first cushion block and the second cushion block.

Figure 10 is another structural representation of the virtual implementing helmet with the first cushion block and the second cushion block.

Specific embodiment

Below in conjunction with accompanying drawing, the virtual implementing helmet with dust reduction capability of the present utility model is made further specifically It is bright.

As shown in Figure 1, Figure 2, Figure 3 and Figure 4, it is a kind of virtual implementing helmet with dust reduction capability of the present utility model, Including virtual implementing helmet shell 1, the display device on virtual implementing helmet shell, one or more with fixed or Removably is fixed on transparency cover 3 inside virtual implementing helmet shell 1 and two are fixed in fixed or detachable manner Optical mirror slip or optics module 4 inside virtual implementing helmet shell 1, the transparency cover 3 are located at display device and optical frames Between piece or the display device of optics module 4 and near optical mirror slip or the position of optics module 4, for preventing the dust in air It is attached in optical mirror slip or optics module 4.

As shown in figures 1 and 3, be provided between the optical mirror slip or optics module 4 and transparency cover 3 one or two with Upper first cushion block 5 so that one section of confined space being hedged off from the outer world is formed between transparency cover 3 and optical mirror slip or optics module 4 6, on the one hand can prevent optical mirror slip or optics module 4 from wearing and tearing, on the other hand may insure optical mirror slip or optics module 4 Reflectivity.

First cushion block 5 can be packing ring, foam rubber, double faced adhesive tape or rubber blanket etc..

As depicted in figs. 1 and 2, it is only to carry a virtual implementing helmet for transparency cover, the virtual implementing helmet shell 1 Inside be provided with left chamber 11 and right chamber room 12, be respectively equipped with one or more on the inwall of the virtual implementing helmet shell 1 Flange 7, it is preferred that the flange 7 be collar flange, be sequentially provided with from front to back on the flange 7 transparency cover 3, One or more first cushion block 5 and two optical mirror slips or optics module 4, the transparency cover 3 are located at the He of left chamber 11 The outside of right chamber room 12, two optical mirror slips or optics module 4 are respectively arranged on the inside of left chamber 11 and right chamber room 12, described first Cushion block is preferably located at the inside of left chamber 11 and right chamber room 12 located at the outside or inside of left chamber 11 and right chamber room 12.

As shown in Figure 3 and Figure 4, be with two virtual implementing helmets of transparency cover, the virtual implementing helmet shell 1 Inside is provided with left chamber 11 and right chamber room 12, and it is convex to be respectively equipped with one or more on the inwall of the left chamber 11 and right chamber room 12 Edge 7, it is preferred that the flange 7 is collar flange, on the flange 7 of the left chamber 11 and right chamber room 12 it is each from front to back successively It is provided with the transparency cover 3, the first cushion block 5 and optical mirror slip or optics module 4.

As shown in Fig. 1, Fig. 3 and Fig. 5, the rear end of each optical mirror slip or optics module 4 is additionally provided with one for compressing light The gland 8 of eyeglass or optics module 4, the first cushion block 5 and transparency cover 3 is learned, the gland 8 is fixed on virtually by removably On real helmet shell 1.

As shown in Figure 9 and Figure 10, the second cushion block 50 is provided between the flange 7 and transparency cover 3, second cushion block 50 is Packing ring, foam rubber, double faced adhesive tape or rubber blanket etc..

The rear end of each optical mirror slip or optics module 4 is additionally provided with one for compressing optical mirror slip or optics module 4, the The gland 8 of one cushion block 5 and transparent 3, second cushion block 50, the gland 8 is fixed on outside virtual implementing helmet by removably On shell 1.

As shown in Figure 9 and Figure 10, the inwall of the gland 8 is provided with internal thread, the correspondence of virtual implementing helmet shell 1 The internal thread position of gland 8 is provided with the external screw thread matched with internal thread, and during installation, gland 8 and virtual implementing helmet shell 1 are logical Screw thread cooperation is crossed to be fixedly connected.When gland 8 and virtual implementing helmet shell 1 are connected, gland 8 compresses optical mirror slip or light just Module 4 is learned, so as to transparency cover 3, the first cushion block 5 and optical mirror slip or optics module 4 are fixed on into virtual implementing helmet shell 1 On, or the second cushion block 50, transparency cover 3, the first cushion block 5 and optical mirror slip or optics module 4 are fixed on outside virtual implementing helmet On shell 1.

As shown in figures 1 and 3, the inside of the gland 8 is additionally provided with one or more limited blocks 9, it is preferred that described spacing Block 9 and gland 8 are integrally formed, when gland 8 and virtual implementing helmet shell 1 are connected, limited block 9 withstand just optical mirror slip or Optics module 4, so as to transparency cover 3, the first cushion block 5 and optical mirror slip or optics module 4 are fixed on into virtual implementing helmet shell 1 On, or the second cushion block 50, transparency cover 3, the first cushion block 5 and optical mirror slip or optics module 4 are fixed on outside virtual implementing helmet On shell 1.When the limited block 9 on the gland 8 is one, the limited block 9 is ring-type limited block, compresses effect more preferable.

As shown in Figure 5 and Figure 6, the gland 8 is provided with draw-in groove 10, and the virtual implementing helmet shell 1 is provided with buckle 20, the buckle 20 matches with draw-in groove 10.

As shown in Figure 2 and Figure 4, the front end of the virtual implementing helmet shell is provided with the receiving space for accommodating display device 2 30。

As shown in Figure 2 and Figure 4, a fixing device is provided with the receiving space 30, the display device 2 is by fixing Device is detachably secured on virtual implementing helmet shell 1.

As shown in fig. 7, the fixing device includes a torsion spring 31 and a scalable folder lid 32, the display device 2 is located at Between folder lid 32 and virtual implementing helmet shell 1.Preferably, the folder lid 32 is provided with a slipmat (not shown on figure).

As shown in figure 8, the fixing device includes a chute 33, the display device 2 is inserted in the chute 33.It is excellent Choosing, one layer of rubber layer 34 is posted on the inwall of the chute 33, with high clamping force, it is to avoid display device 2 slides phenomenon Occur.It should be understood that after the insertion chute 33 of display device 2, position-limit mechanism (not shown on figure) can also be used by display device It is fixed on virtual implementing helmet shell 1, the position-limit mechanism can be rotary block, movable pusher dog etc..

The transparency cover is using PMMA, transparent PC, glass etc..

The display device is flat board, smart mobile phone etc..

When using, display device 2 is placed in fixing device, then wears virtual implementing helmet.When transparency cover 3 On when being attached with dust, transparency cover 3 is directly wiped, so that it is guaranteed that the optical frame of virtual implementing helmet is clear.Work as needs Change transparency cover 3, the first cushion block 5, optical mirror slip or during optics module 4, it is only necessary to remove gland 8, then as needed according to It is secondary to take out optical mirror slip or optics module 4, the first cushion block 5 and transparency cover 3, after the completion of waiting to safeguard or change, on flange 7 in the past Transparency cover 3, the first cushion block 5 and optical mirror slip or optics module 4 are sequentially placed after, are then compressed with gland 8.It is provided with The virtual implementing helmet of one cushion block 5 and the second cushion block 50, its mounting means is：Second is sequentially placed from front to back on flange 7 Cushion block 50, transparency cover 3, the first cushion block 5 and optical mirror slip or optics module 4, are then compressed with gland 8.

Virtual implementing helmet with dust reduction capability of the present utility model, its good dustproof effect, simple structure pacifies installation and dismantling Unload conveniently, low cost of manufacture.

The above is only preferred embodiment of the present utility model, it is noted that for the common skill of the art For art personnel, on the premise of the utility model principle is not departed from, some improvements and modifications can also be made.These improve and Retouching also should be regarded as protection domain of the present utility model.

Claims (22)

1. a kind of virtual implementing helmet with dust reduction capability, it is characterised in that including virtual implementing helmet shell, located at virtual Display device on real helmet shell, one or more is fixed on outside virtual implementing helmet in fixed or detachable manner Transparency cover and two optical mirror slips for being fixed on virtual implementing helmet enclosure in fixed or detachable manner inside shell Or optics module, the transparency cover is located between display device and optical mirror slip or optics module, for preventing the ash in air Dirt is attached in optical mirror slip or optics module.

2. virtual implementing helmet as claimed in claim 1, it is characterised in that the optical mirror slip or optics module and transparency cover Between be provided with one or more the first cushion block so that between transparency cover and optical mirror slip or optics module formed one section with The confined space of isolation.

3. virtual implementing helmet as claimed in claim 2, it is characterised in that first cushion block is packing ring, foam rubber, two-sided Glue or rubber blanket.

4. virtual implementing helmet as claimed in claim 2, it is characterised in that the inside of the virtual implementing helmet shell is provided with Left chamber and right chamber room, are respectively equipped with one or more flanges, on the flange on the inwall of the virtual implementing helmet shell A transparency cover, one or more first cushion block and two optical mirror slips or optical mode are sequentially provided with from front to back Group, located at the outside of left chamber and right chamber room, two optical mirror slips or optics module are respectively arranged on left chamber and the right side to the transparency cover The inside of chamber.

5. virtual implementing helmet as claimed in claim 2, it is characterised in that the inside of the virtual implementing helmet shell is provided with Be respectively equipped with one or more flanges on the inwall of left chamber and right chamber room, the left chamber and right chamber room, the left chamber and The transparency cover, the first cushion block and optical mirror slip or optics module are respectively sequentially provided with the flange of right chamber room from front to back.

6. the virtual implementing helmet as described in claim 4 or 5, it is characterised in that the flange is collar flange.

7. the virtual implementing helmet as described in claim 4 or 5, it is characterised in that after each optical mirror slip or optics module End is additionally provided with a gland for compressing optical mirror slip or optics module, the first cushion block and transparency cover, and the gland passes through can Dismounting mode is fixed on virtual implementing helmet shell.

8. the virtual implementing helmet as described in claim 4 or 5, it is characterised in that is provided between the flange and transparency cover Two cushion blocks.

9. virtual implementing helmet as claimed in claim 8, it is characterised in that second cushion block is packing ring, foam rubber, two-sided Glue or rubber blanket.

10. virtual implementing helmet as claimed in claim 9, it is characterised in that the rear end of each optical mirror slip or optics module One is additionally provided with for compressing optical mirror slip or optics module, the first cushion block and transparency cover, the gland of the second cushion block, the gland It is fixed on virtual implementing helmet shell by removably.

11. virtual implementing helmet as described in claim 9 or 10, it is characterised in that the inwall of the gland is provided with interior spiral shell Line, the internal thread position of the virtual implementing helmet shell correspondence gland is provided with the external screw thread matched with internal thread, the pressure Lid is fixedly connected with virtual implementing helmet shell by screw thread cooperation, so as to transparency cover and optical mirror slip or optics module be fixed On virtual implementing helmet shell.

Virtual implementing helmet described in 12. claims 11, it is characterised in that the inside of the gland is additionally provided with one or more Limited block, when gland and virtual implementing helmet cage connection, limited block withstands optical mirror slip or optics module just, so that will Transparency cover and optical mirror slip or optics module are fixed on virtual implementing helmet shell.

13. virtual implementing helmets as claimed in claim 12, it is characterised in that the limited block on the gland is one, and The limited block is ring-type limited block.

14. virtual implementing helmet as described in claim 9 or 10, it is characterised in that the gland is provided with draw-in groove, the void Intend real helmet shell and be provided with buckle, the buckle matches with draw-in groove.

15. virtual implementing helmet as described in claim 1-5,9-10, any one of 12-13, it is characterised in that described virtual existing Real helmet shell is provided with the receiving space for accommodating display device.

16. virtual implementing helmets as claimed in claim 15, it is characterised in that a fixed dress is provided with the receiving space Put, the display device is detachably secured on virtual implementing helmet shell by fixing device.

17. virtual implementing helmets as claimed in claim 16, it is characterised in that the fixing device can including a torsion spring and Telescopic clamp lid, the display device is between folder lid and virtual implementing helmet shell.

18. virtual implementing helmets as claimed in claim 17, it is characterised in that the folder is covered and is provided with a slipmat.

19. virtual implementing helmets as claimed in claim 16, it is characterised in that the fixing device includes a chute, described Display device is inserted in the chute, and one layer of rubber layer is posted on the inwall of the chute.

20. virtual implementing helmets as claimed in claim 19, it is characterised in that the outside of the chute is provided with position-limit mechanism, Display device is fixed on virtual implementing helmet shell by position-limit mechanism.

21. virtual implementing helmets as claimed in claim 20, it is characterised in that the position-limit mechanism is rotary block or activity Pusher dog.

22. virtual implementing helmet as described in claim any one of 16-21, it is characterised in that the display device is flat board Or smart mobile phone.