CN206378639U - A kind of virtual implementing helmet - Google Patents
A kind of virtual implementing helmet Download PDFInfo
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- CN206378639U CN206378639U CN201621307884.6U CN201621307884U CN206378639U CN 206378639 U CN206378639 U CN 206378639U CN 201621307884 U CN201621307884 U CN 201621307884U CN 206378639 U CN206378639 U CN 206378639U
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- touch
- housing
- touch panel
- virtual implementing
- implementing helmet
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Abstract
A kind of virtual implementing helmet that the utility model is provided, including main body frame, functional module group and housing;The functional module group is fixedly mounted on the main body frame;The housing is fixedly mounted on the outside of the main body frame and the functional module group;In addition, the Virtual Reality Head-mounted Displays also include the touch panel electrically connected with the functional module group;The housing is provided with panel mounting hole;The touch panel is fixedly mounted at the panel mounting hole;The housing outer surface is set around the touch recognition portion of the touch panel around the region of the panel mounting hole.The structure in touch recognition portion is differed with surface of shell, therefore user can quickly determine the installation site of functional module group when interacting formula experience by sense of touch difference, precisely manipulate touch panel and carry out interactive operation.
Description
Technical field
The utility model is related to field of virtual reality, more particularly to a kind of virtual implementing helmet.
Background technology
Virtual implementing helmet is that a kind of projected respectively by right eye to the left is carried with discrepant image, is handled and schemed by human eye
As and produce the helmet of stereo perception.Virtual implementing helmet mainly includes main body frame, functional module group, housing and wears group
Part;Wherein:Functional module group is fixedly mounted on main body frame;Housing is arranged on the outside of functional module and main body frame, to cover
Main body frame and functional module so that virtual implementing helmet has preferable outward appearance.
It is also equipped with connecting with control energy module on functional module, housing to ensure that user adjusts according to demand in use
The mechanical key connect;Found in practical application, the mechanical oscillation produced when mechanical key is pressed are so that virtual implementing helmet
Occurs slight vibration, influence user's wearing is felt and user is produced spinning sensation;Optionally, using touch surface
Plate has become a kind of of virtual implementing helmet manufacturing firm as the control unit of control function module and selected.
But, formula experience behaviour is interacted as the virtual implementing helmet of control unit using touch panel in user's wearing
When making, because touch panel position can not be determined by Visual Observations Observations, multiple trial and error is needed just to can determine that touch panel
Accurate location, causes user's use feeling not good;Particularly when needing user's trick to carry out the application of highly sensitive interoperation,
As control unit it is even more user can not be made quickly to be operated, to complete corresponding action using touch panel.
Utility model content
Formula experience behaviour is interacted as the wearing virtual implementing helmet of control unit using touch panel to solve user
When making, it is impossible to which the problem of quickly determining touch panel, the utility model provides a kind of new virtual implementing helmet.
A kind of virtual implementing helmet that the utility model is provided, including main body frame, functional module group and housing;
The functional module group is fixedly mounted on the main body frame;The housing be fixedly mounted on the main body frame and
On the outside of the functional module group;In addition, the Virtual Reality Head-mounted Displays also include the touch panel electrically connected with the functional module group;
The housing is provided with panel mounting hole;The touch panel is fixedly mounted at the panel mounting hole;
The housing outer surface around the region setting of the panel mounting hole, around the touch panel, distinguish by sense of touch
In the touch recognition portion of the housing.
Optionally, the touch recognition portion includes the venthole in outside in multiple connection housings;
The housing and/or the main body frame are provided with air admission hole;
The functional module group includes fan;The air-flow that the fan is produced when rotating enters the housing by the air admission hole
Inner side, discharged by venthole each described.
Optionally, by the medial surface of the housing to the lateral surface of the housing, each described venthole is to described tactile
Touch panel side inclination.
Optionally, the touch recognition portion also includes touching projection;
Described touch raised is to be arranged on the annular protrusion on the outside of each described venthole.
Optionally, in addition to elastic sealing element;
Raised and/or described venthole is touched described in the elastic sealing element clamping and the touch panel is fixedly installed on
Outside.
Optionally, the touch recognition portion also includes touching groove;
The touch groove is to be arranged on the annular groove on the outside of each described venthole.
Optionally, in addition to elastic sealing element;Groove and/or the venthole are touched described in the elastic sealing element clamping
And be fixedly installed on the outside of the touch panel.
Optionally, the touch recognition portion also includes connecting each described venthole and touches the connectivity slot of groove.
Optionally, the touch panel and the touch recognition portion are arranged on the vertical side of the housing.
The virtual implementing helmet that the utility model is provided, the control unit experienced to interact formula uses touch panel,
Touch panel is fixedly installed on the touch panel at shell bores;Housing outer surface sets ring around the position of panel mounting hole
Around the touch recognition portion of touch panel.The structure in touch recognition portion is differed with surface of shell, therefore user is interacting formula
During experience, the installation site of functional module group can be quickly determined by sense of touch difference, touch panel is precisely manipulated and carries out interactive operation.
Brief description of the drawings
To be illustrated more clearly that background technology or the technical solution of the utility model, below to prior art or specific implementation
The accompanying drawing being used in combination in mode is briefly described;It should be evident that the accompanying drawing below in conjunction with embodiment is only to use
In conveniently understanding the utility model embodiment, for those of ordinary skill in the art, before creative work is not paid
Put, other accompanying drawings can also be obtained according to these accompanying drawings;
Fig. 1 is the utility model embodiment virtual implementing helmet schematic appearance;
Fig. 2 is the utility model embodiment virtual implementing helmet side view;
Fig. 3 is a-quadrant enlarged diagram in Fig. 2;
Fig. 4 is section B-B schematic diagram in Fig. 3;
Fig. 5 is touch panel and touch-control identification part schematic diagram in another embodiment virtual implementing helmet of the utility model;
Fig. 6 is C-C schematic cross-sections in Fig. 5;
Wherein:1- virtual implementing helmets, 11- housings, 111- touch recognitions portion, 112- ventholes, 113- touch it is raised,
114- touches groove, 115- connectivity slots, 116- air admission holes, 12- main body frames, 13- and wears component, 14- touch panels.
Embodiment
The utility model provides a kind of virtual implementing helmet, is interacted using touch panel as user when formula is experienced
Control unit.To make user after wearing virtual implementing helmet, the position that finger allodynia confirms touch panel can be quickly move through
Put, the region close to touch panel on housing is additionally provided with touch recognition portion.
In order that those skilled in the art more fully understand the technical scheme in the utility model, below in conjunction with this reality
With the accompanying drawing in new embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that
Described embodiment is only a part of embodiment of the utility model, rather than whole embodiments.Based on the utility model
In embodiment, the every other implementation that those of ordinary skill in the art are obtained under the premise of creative work is not made
Example, should all belong to the scope of the utility model protection.
Fig. 1 is the utility model embodiment virtual implementing helmet schematic appearance, and Fig. 2 is that the utility model embodiment is virtual
Real helmet side view.Fig. 1 and Fig. 2 are referred to, the virtual implementing helmet 11 that the present embodiment is provided includes housing 11, main body frame
12 and wear component 13.Housing 11 is fixedly mounted on the outside of main body frame 12 and functional module group, and covering main body frame 12 is installed
The region of functional module group and functional module group, so that the tailored appearance of virtual implementing helmet 1 is generous.Wear component 13 and main body frame
12 connections, for virtual implementing helmet 1 to be worn to head.
The control unit that virtual implementing helmet 1 in the present embodiment is interacted using touch panel as user with functional module group
Part.As depicted in figs. 1 and 2, panel mounting hole is provided with housing 11, touch panel 14 is fixedly mounted at panel mounting hole,
And (namely with the flush of housing 11) substantially concordant with panel mounting hole side.For the convenience of the user in wearing virtual reality
The position of touch panel more can be efficiently and easily determined after the helmet 1, is set in housing 11 around the outer surface of panel mounting hole
Put around the touch recognition portion 111 of touch panel 14;The structure in touch recognition portion 111 is differed with the surface of housing 11, therefore is used
Family can determine the position of touch panel 14 by sense of touch difference.
Fig. 3 is a-quadrant enlarged diagram in Fig. 2, and Fig. 4 is section B-B schematic diagram in Fig. 3.Refer to Fig. 3 and Fig. 4, this reality
Apply in example, touch recognition portion 111 includes the venthole 112 arranged along the edge of touch panel 14, venthole 112 runs through housing 11,
So that the air conducting inside and outside housing 11.Fig. 1 is referred to, the top of housing 11 of virtual implementing helmet 1 is additionally provided with air admission hole
116, air admission hole 116 connects the circulation that the inner air of housing 11 can be achieved with venthole 112.In addition, the printing in functional module group
Fan is provided with circuit board, fan rotates and drives air to flow into the internal cavity of housing 11, absorption function module from air admission hole 116
The heat that middle heater element is produced;Then, air flows out housing 11 from venthole 112.
Because human finger has certain susceptibility to air flow and Air Temperature Difference, user is at the edge of housing 11
Air current flow, air-flow and the extraneous temperature difference can be felt by brandishing palm, determine the general location of each venthole 112.And because
Multiple ventholes 112 are set around touch panel 14, so it is determined that after each general location of venthole 112, user can be fast
The position of touch panel 14 is determined fastly, and touch panel 14 is found in then positioning.Formula behaviour is interacted in operating touch panel 14
When making, if the finger of user slides into the fringe region of touch panel 14, the air current flow that user can also be experienced by finger tip
Finger is determined to be moved to the edge of touch panel 14.
The virtual implementing helmet 1 provided using the utility model embodiment, user (is such as entered when interacting formula experience
During row interactive entertainment), it can relatively rapid find touch panel;And because touch panel 14 can reach higher control essence
Degree, so preferable Interactive Experience effect can be realized by precisely manipulating touch panel 14;Carried out compared to existing use mechanical key
Mode of operation, substantially increases the use feeling of user.
In the aforementioned embodiment, air admission hole 116 is arranged on the upper surface of housing 11 as shown in Figure 1;Certainly, implement at other
In example, air admission hole 116 can both be arranged on the other positions of housing 11, may also be arranged on main body frame 12.Such as Fig. 3, this reality
Apply and more venthole 112 is set in example, and the size of each venthole 112 is relatively small, can shape at each venthole 112
Into the faster air-flow of flow velocity.
Refer in Fig. 4, the present embodiment, by the medial surface of housing 11 to the lateral surface of housing 11, each venthole 112 is simultaneously
It is not the normal orientation setting on the surface of housing 11, but is rolled tiltedly to touch panel 14.In this way, discharged by venthole 112
Air-flow can be gathered in the outside of touch panel 14.It is higher compared to outside air temperature during user uses touch panel 14
Air it is sprayable to user's finger, dry up user's finger sweat, it is ensured that the precision and reliability of touch control operation, it is to avoid because of sweat
The faulty operation that liquid sticks to the surface of touch panel 14 and caused.
It should be noted that being obliquely installed for above-described venthole 112 is only that virtual implementing helmet 1 is in the utility model
The more excellent design for reaching more preferable application effect and carrying out, can not turn into the limitation to the utility model central inventive point;
In other embodiment, venthole 112 can also be set along the normal orientation on the surface of housing 11.
Continuing with referring to Fig. 3 and Fig. 4, in the present embodiment, touch recognition portion 111 also includes touching projection 113, touches raised
113 annular protrusion to be arranged on the outside of each venthole 112.In practical application, in addition to air draught is perceived, user can also lead to
The surface of touch housing 11 is crossed, the position for perceiving touch projection 113 determines the position of touch panel;This mode is particularly suitable for use in void
The functional module group temperature intended in the real helmet 1 is relatively low, and fan is not rotated or the rotating speed less stage.In other implementations, touch
Touch projection 113 and be not limited in annular, can also be to have spaced section of shape projection each other.
In addition, the virtual implementing helmet 1 in the utility model embodiment may also include elastic sealing element, elastic sealing element
Size is more slightly larger than the groove size that annular protrusion is formed;When without using virtual implementing helmet 1, elastic sealing element can be connected to
Touch panel 14 is covered in groove in annular protrusion, protective action is played, prevents touch panel 14 by unexpected scratch.Specifically
In use, the material that elastic sealing element can have larger elastic deformation characteristics by rubber or polyurethane etc. is made, to ensure more
Securely it is connected in the inboard groove of annular protrusion.
Fig. 5 is touch panel and touch-control identification part schematic diagram, Fig. 6 in another embodiment virtual implementing helmet of the utility model
It is C-C schematic cross-sections in Fig. 5.Fig. 5 and Fig. 6 are referred to, in another embodiment of the present utility model, touch recognition portion 111
In addition to venthole 112 as in the foregoing embodiment, touch groove 114 is additionally provided with;Groove 114 is touched to be arranged on out
The annular groove in the outside of stomata 112.Raised 113 practical approach is touched as the aforementioned similar, in practical application, except perception air gas
Stream is outer, and user can also be by touching the surface of housing 11, and the position for perceiving touch groove 114 determines the position of touch panel;It is this
The functional module group temperature that mode is also particularly useful in virtual implementing helmet 1 is relatively low, and fan is not rotated or the less rank of rotating speed
Section.
As shown in Figure 5 and Figure 6, in another embodiment, annular touch groove 114 can pass through with each venthole 112
Connectivity slot 115 is turned on.If the finger of user is moved to the position close to edge venthole 112 and is pressed against the surface of housing 11
When, the air-flow flowed out from venthole 112 will flow to touch groove 114 from connectivity slot 115, user is experienced air flow direction change
Change, it is to avoid user because finger block part venthole 112, on the contrary can not by air-flow detect 14 edge of touch panel the problem of.
It is similar with previous embodiment, elastic sealing element is may also set up in another embodiment.This elastic sealing element has
Have with touching the annular clamping projection that groove 114 is matched, the raised cocker contact of annular clamping touches groove 114, makes elastic sealing element
The outside of touch panel 14 is fixed on, plays a part of protecting touch panel 14.
In addition, in other embodiments, can have the needle-like of each venthole 112 of correspondence raised on elastic sealing element,
In the case of not having aforementioned touch projection 113 or touching groove 114, elastic sealing element can and venthole 112 raised by needle-like
Coordinate the surface for being attached to touch panel 14.
Certainly, in other embodiments, touch recognition portion 111 also can be only foregoing touch raised 113 or touch groove
114;User position for determining touch panel 14 by feel sensing touch convex 113 or touch groove 114.
Refer in Fig. 1 Fig. 2, concrete application, the horizontal stroke of the housing 11 of the virtual implementing helmet 1 in the utility model embodiment
Section is substantially rectangular in cross section, and is provided for the rounded corners seamlessly transitted in the corner areas of rectangle.Operate for the convenience of the user,
Touch panel 14 and touch recognition portion 111 are arranged on the vertical side of housing 11.As shown in figure 1, referring to sideways vertically
After user's wearing virtual implementing helmet 1, the corresponding plane substantially with user temple zone;According to routine use custom it is contemplated that
Touch panel 14, which is arranged on vertical side, to be easy to user to manipulate, and improve the convenience of operation.Certainly, according to concrete application not
Together, touch panel 14 and touch mark part can be also arranged in the other surfaces of housing 11.
The virtual implementing helmet in the utility model embodiment is described in detail above.This part is using specific real
Apply example to be set forth principle of the present utility model and embodiment, the explanation of above example is only intended to help and understands this
The core concept of utility model, in the case where not departing from the utility model principle, those of ordinary skill in the art are not doing
Go out the every other embodiment obtained under the premise of creative work, belong to the scope of the utility model protection.
Claims (9)
1. a kind of virtual implementing helmet, including main body frame (12), functional module group and housing (11);
The functional module group is fixedly mounted on the main body frame (12);The housing (11) is fixedly mounted on the body frame
On the outside of frame (12) and the functional module group;It is characterized in that:Also include the touch panel (14) electrically connected with the functional module group;
The housing (11) is provided with panel mounting hole;The touch panel (14) is fixedly mounted at the panel mounting hole;
Housing (11) outer surface is set around the touch panel (14) and sense of touch around the region of the panel mounting hole
It is different from the touch recognition portion (111) of the housing (11).
2. virtual implementing helmet according to claim 1, it is characterised in that:
The touch recognition portion (111) includes the venthole (112) in outside in multiple connection housings (11);
The housing (11) and/or the main body frame (12) are provided with air admission hole (116);
The functional module group includes fan;The air-flow that the fan is produced when rotating enters the shell by the air admission hole (116)
Discharged on the inside of body (11), by venthole each described (112).
3. virtual implementing helmet according to claim 2, it is characterised in that:
By the medial surface of the housing (11) to the lateral surface of the housing (11), each described venthole (112) is to described
Touch panel (14) rolls oblique.
4. the virtual implementing helmet according to Claims 2 or 3, it is characterised in that:
The touch recognition portion (111) also includes touching raised (113);
It is described to touch raised (113) to be arranged on the annular protrusion on the outside of each described venthole (112).
5. virtual implementing helmet according to claim 4, it is characterised in that:
Also include elastic sealing element;
Raised (113) and/or the venthole (112) are touched described in the elastic sealing element clamping and are fixedly installed on described touch
Touch on the outside of panel (14).
6. the virtual implementing helmet according to Claims 2 or 3, it is characterised in that:
The touch recognition portion (111) also includes touching groove (114);
The groove (114) that touches is to be arranged on the annular groove on the outside of each described venthole (112).
7. virtual implementing helmet according to claim 6, it is characterised in that:
Also include elastic sealing element;Groove (114) and/or the venthole (112) are touched described in the elastic sealing element clamping
And be fixedly installed on the outside of the touch panel (14).
8. virtual implementing helmet according to claim 6, it is characterised in that:
The touch recognition portion (111) also includes connecting each described venthole (112) and touches the connectivity slot of groove (114)
(115)。
9. the virtual implementing helmet according to claim any one of 1-3, it is characterised in that:
The touch panel (14) and the touch recognition portion (111) are arranged on the vertical side of the housing (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621307884.6U CN206378639U (en) | 2016-11-30 | 2016-11-30 | A kind of virtual implementing helmet |
Applications Claiming Priority (1)
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CN201621307884.6U CN206378639U (en) | 2016-11-30 | 2016-11-30 | A kind of virtual implementing helmet |
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CN206378639U true CN206378639U (en) | 2017-08-04 |
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CN201621307884.6U Active CN206378639U (en) | 2016-11-30 | 2016-11-30 | A kind of virtual implementing helmet |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111751992A (en) * | 2019-03-26 | 2020-10-09 | 精工爱普生株式会社 | Wearable display device |
-
2016
- 2016-11-30 CN CN201621307884.6U patent/CN206378639U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111751992A (en) * | 2019-03-26 | 2020-10-09 | 精工爱普生株式会社 | Wearable display device |
CN111751992B (en) * | 2019-03-26 | 2022-05-17 | 精工爱普生株式会社 | Wearable display device |
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