CN206594861U - Virtual reality simulation cockpit - Google Patents
Virtual reality simulation cockpit Download PDFInfo
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- CN206594861U CN206594861U CN201621433576.8U CN201621433576U CN206594861U CN 206594861 U CN206594861 U CN 206594861U CN 201621433576 U CN201621433576 U CN 201621433576U CN 206594861 U CN206594861 U CN 206594861U
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- drive mechanism
- pedestal
- virtual reality
- rotary
- reality simulation
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Abstract
The utility model provides a kind of virtual reality simulation cockpit, including base, described base is provided with the pedestal that can be moved under control device driving according to the track of setting, described control device includes rotary drive mechanism and lift drive mechanism, described rotary drive mechanism is connected with pedestal and pedestal can be driven to be rotated, described lift drive mechanism can drive pedestal to carry out elevating movement, and the rotary drive mechanism described in when pedestal carries out elevating movement together carries out elevating movement with pedestal.The utility model have it is simple in construction, it is reasonable in design, can really simulate the advantage of the space operation in virtual reality.
Description
Technical field
The utility model belongs to the technical field of virtual reality, more particularly, to a kind of virtual reality simulation cockpit.
Background technology
Virtual reality technology is that an important directions of emulation technology are emulation technology and computer graphics man-machine interface
The set of the multiple technologies such as technology multimedia technology sensing technology network technology is a challenging interleaving techniques forward position
Subject and research field.Virtual reality technology (VR) mainly includes simulated environment, perception, the natural side such as technical ability and sensing equipment
Face.Simulated environment is dynamic 3 D stereo photorealism generated by computer, real-time.Perception refers to that preferable VR should have
There is the perception that all people have.In addition to the visually-perceptible that computer graphics techniques are generated, also the sense of hearing, tactile, power are felt, transported
Dynamic wait perceives, or even also includes smell and sense of taste etc., also referred to as to perceive more.Natural technical ability refers to the head rotation of people, eyes, hand
Gesture or other human body behavior acts, the data adaptable with the action of participant are handled by computer, and to the input of user
Real-time response is made, and feeds back to the face of user respectively.In order to make user strengthen the experience sense of virtual reality, it is necessary to
A kind of virtual reality simulation cabin is proposed, motion conditions that can be in virtual reality make experiencer's realization synchronous with virtual reality
The experience of motion.
The content of the invention
The purpose of this utility model be in view of the above-mentioned problems, provide a kind of virtual reality simulation cockpit, with simple in construction,
It is reasonable in design, it can really simulate the advantage of the space operation in virtual reality.
To reach above-mentioned purpose, the utility model employs following technical proposal:This virtual reality simulation cockpit, including bottom
Seat, described base is provided with the pedestal that can be moved under control device driving according to the track of setting, described control
Device processed includes rotary drive mechanism and lift drive mechanism, and described rotary drive mechanism is connected with pedestal and can driven
Pedestal is rotated, and described lift drive mechanism can drive pedestal to carry out elevating movement, when pedestal carries out lifting fortune
Rotary drive mechanism described in when dynamic together carries out elevating movement with pedestal.
Preferably, described control device includes the casing being arranged on base, the rotation driving in casing is arranged at
Mechanism is connected with rotary shaft, and described rotary shaft is detachably connected with pedestal, is additionally provided with described housing and rotation driving
The lift drive mechanism that mechanism is connected.
Preferably, described casing offers the sliding groove for the vertical activity of rotary shaft close to the side of pedestal, it is described
Rotary shaft end be connected through sliding groove with rotary drive mechanism, when lift drive mechanism drive rotary drive mechanism in machine
When carrying out elevating movement in shell, described rotary shaft can carry out elevating movement in sliding groove and then drive pedestal to be lifted
Motion.
Preferably, described pedestal includes installing plate, described installing plate is connected with rotary shaft.
Sat preferably, described pedestal includes being provided with the nacelle that at least one supplies user to enter, described nacelle
Provided with the fixation kit that user can be fixed on cushion in pad, described nacelle, the both sides of described nacelle are equipped with
Groove is shelved provided with placement both feet in baffle plate, the front side of cushion.
Preferably, the both sides of described cushion are arranged with two height less than the shoulder body in the middle part of cushion, described consolidates
Determining component includes being arranged at the rotary head being articulated and connected with pedestal above shoulder body, two rotary heads respectively with safety pressure lever two
End is fixedly connected;When safety pressure lever is lifted, the into/out nacelle of user, when safety pressure lever is pushed, user is arranged in
Between safety pressure lever and cushion.
Preferably, described safety pressure lever includes U-shaped pressure chest section, the two ends of described pressure chest section pass through pressure shoulder respectively
Section is connected with rotary head;When safety pressure lever is pushed, described U-shaped pressure chest section is located at user through the head of user
Front, described pressure shoulder section is located above the shoulder of user.
Preferably, described control device also includes the control system for being capable of input motion track, described control system
System is connected and controlled the motion rail of rotary drive mechanism and lift drive mechanism with rotary drive mechanism and lift drive mechanism
Mark.
Preferably, described rotary drive mechanism includes rotary cylinder, described lift drive mechanism includes lifting air
Cylinder.
Preferably, described base is provided with two symmetrical control devices, two control devices distinguish pedestal
Both sides be connected.
Compared with prior art, the utility model has the advantage of:User in pedestal can rotary drive mechanism,
Realized under the driving of lift drive mechanism elevating movement or rotary motion and two kinds motion combinations, specific movement locus with
And motion state can be edited by computer system, to realize the work of control rotary drive mechanism, lift drive mechanism
Make state, and then motion conditions that can be in virtual reality allow experiencer to realize the experience being synchronized with the movement with virtual reality.
Brief description of the drawings
Fig. 1 is the virtual reality simulation cockpit dimensional structure diagram that the utility model is provided.
Fig. 2 is the rearview for the virtual reality simulation cockpit that the utility model is provided.
In figure, base 1, control device 2, pedestal 4, rotary drive mechanism 21, lift drive mechanism 22, casing 23, rotation
Axle 5, sliding groove 51, installing plate 8, nacelle 41, cushion 42, baffle plate 43, shelve groove 44, shoulder body 6, rotary head 7, safety pressure lever 71,
Press chest section 72, pressure shoulder section 73.
Embodiment
As shown in Figure 1 and Figure 2, the virtual reality simulation cockpit in this programme, including base 1, base 1 is provided with can be
The pedestal 4 that control device 2 is moved under driving according to the track of setting, control device 2 includes rotary drive mechanism 21 and risen
Drive mechanism 22 drops, rotary drive mechanism 21 is connected with pedestal 4 and pedestal 4 can be driven to be rotated, lifting driving
Mechanism 22 can drive pedestal 4 to carry out elevating movement, rotary drive mechanism 21 and pedestal 4 one when pedestal 4 carries out elevating movement
With progress elevating movement.User in the present embodiment in pedestal can be under rotary drive mechanism, the driving of lift drive mechanism
The combination of elevating movement or rotary motion and two kinds of motions is realized, specific movement locus and motion state can pass through meter
Calculation machine system is edited, to realize the working condition of control rotary drive mechanism, lift drive mechanism, and then can be according to void
Intending the motion conditions in reality allows experiencer to realize the experience being synchronized with the movement with virtual reality.
Specifically, control device 2 includes the casing 23 being arranged on base 1, is arranged at the rotation driving in casing 23
Mechanism 21 is connected with rotary shaft 5, and rotary shaft 5 is detachably connected with pedestal 4, is additionally provided with casing 23 and rotary drive mechanism 21
The lift drive mechanism 22 being connected.
Specifically, casing 23 is offered for the vertical movable sliding groove 51 of rotary shaft 5, rotation close to the side of pedestal 4
The end of axle 5 is connected through sliding groove 51 with rotary drive mechanism 21, when lift drive mechanism 22 drives rotary drive mechanism 21
When carrying out elevating movement in casing 23, rotary shaft 5 can carry out elevating movement in sliding groove 51 and then drive pedestal 4 to carry out
Elevating movement.
Specifically, pedestal 4 includes installing plate 8, and installing plate 8 is connected with rotary shaft 5, and pedestal 4 includes at least one for using
It is provided with to be provided with cushion 42, nacelle 41 in the nacelle 41 that person enters, nacelle 41 and user can be fixed on to consolidating on cushion 42
Determine component, preferably user can be fixed for fixation kit, prevent user from departing from nacelle 41 when nacelle 41 is moved,
The both sides of nacelle 41 are equipped with baffle plate 43, and groove 44 is shelved in the front side of cushion 42 provided with placement both feet.
Specifically, the both sides of cushion 42 are arranged with shoulder body 6 of two height less than the middle part of cushion 42, fixation kit bag
Include the rotary head 7 being articulated and connected with pedestal 4 for being arranged at the top of shoulder body 6, the two ends of two rotary heads 7 respectively with safety pressure lever 71
It is fixedly connected;When safety pressure lever 71 is lifted, the into/out nacelle 41 of user, when safety pressure lever 71 is pushed, user's card
Between safety pressure lever 71 and cushion 42.
Specifically, safety pressure lever 71 includes U-shaped pressure chest section 72, the two ends of pressure chest section 72 respectively by pressure shoulder section 73 with
Rotary head 7 is connected;When safety pressure lever 71 is pushed, U-shaped pressure chest section 72 is located at the chest of user through the head of user
Before, pressure shoulder section 73 is located above the shoulder of user.
Specifically, control device 2 also includes the control system for being capable of input motion track, control system and rotation driving
Mechanism 21 is connected and controlled the movement locus of rotary drive mechanism 21 and lift drive mechanism 22 with lift drive mechanism 22.
Specifically, rotary drive mechanism 21 includes rotary cylinder, and lift drive mechanism 22 includes lift cylinder, base 1
Provided with two symmetrical control devices 2, the both sides of two control devices 2 pedestal 4 respectively are connected.
Specific embodiment described herein is only to the utility model spirit explanation for example.The utility model institute
Category those skilled in the art can make various modifications or supplement or using similar to described specific embodiment
Mode substitute, but without departing from spirit of the present utility model or surmount scope defined in appended claims.
Although more having used base 1, control device 2, pedestal 4, rotary drive mechanism 21, lift drive mechanism herein
22nd, casing 23, rotary shaft 5, sliding groove 51, installing plate 8, nacelle 41, cushion 42, baffle plate 43, shelve groove 44, shoulder body 6, rotary head
7th, safety pressure lever 71, pressure chest section 72, the pressure shoulder section terms such as 73, but be not precluded from the possibility using other terms.Use these
Term is construed as any additional limit just for the sake of more easily describing and explaining essence of the present utility model
System is all disagreed with the utility model spirit.
Claims (10)
1. a kind of virtual reality simulation cockpit, including base (1), it is characterised in that described base (1) is provided with can be in control
The pedestal (4) moved under device (2) driving processed according to the track of setting, described control device (2) includes rotation driving
Mechanism (21) and lift drive mechanism (22), described rotary drive mechanism (21) are connected with pedestal (4) and can drive seat
Body (4) is rotated, and described lift drive mechanism (22) can drive pedestal (4) to carry out elevating movement, when pedestal (4)
Rotary drive mechanism (21) described in when carrying out elevating movement together carries out elevating movement with pedestal (4).
2. virtual reality simulation cockpit according to claim 1, it is characterised in that:Described control device (2) includes setting
The casing (23) being placed on base (1), the rotary drive mechanism (21) being arranged in casing (23) is connected with rotary shaft (5),
Described rotary shaft (5) is detachably connected with pedestal (4), is additionally provided with and rotary drive mechanism (21) phase in described casing (23)
The lift drive mechanism (22) of connection.
3. virtual reality simulation cockpit according to claim 2, it is characterised in that:Described casing (23) is close to pedestal
(4) side offers the sliding groove (51) for the vertical activity of rotary shaft (5), and described rotary shaft (5) end passes through sliding groove
(51) it is connected with rotary drive mechanism (21), when lift drive mechanism (22) drives rotary drive mechanism (21) in casing (23)
During interior progress elevating movement, described rotary shaft (5) can carry out elevating movement in sliding groove (51) and then drive pedestal (4)
Carry out elevating movement.
4. virtual reality simulation cockpit according to claim 3, it is characterised in that:Described pedestal (4) includes installing plate
(8), described installing plate (8) is connected with rotary shaft (5).
5. virtual reality simulation cockpit as claimed in any of claims 1 to 4, it is characterised in that:Described pedestal
(4) include being provided with cushion (42), described nacelle in the nacelle (41) that at least one supplies user to enter, described nacelle (41)
(41) provided with user can be fixed on to the fixation kit on cushion (42) in, the both sides of described nacelle (41) are equipped with gear
Groove (44) is shelved provided with placement both feet in plate (43), the front side of cushion (42).
6. virtual reality simulation cockpit according to claim 5, it is characterised in that:The both sides of described cushion (42) are symmetrical
Be less than the shoulder body (6) in the middle part of cushion (42) provided with two height, described fixation kit include being arranged above shoulder body (6) with
The rotary head (7) that pedestal (4) is articulated and connected, two ends of two rotary heads (7) respectively with safety pressure lever (71) are fixedly connected;Work as peace
When total head bar (71) is lifted, the into/out nacelle of user (41), when safety pressure lever (71) is pushed, user is arranged in peace
Between total head bar (71) and cushion (42).
7. virtual reality simulation cockpit according to claim 6, it is characterised in that:Described safety pressure lever (71) includes U
The pressure chest section (72) of type, the two ends of described pressure chest section (72) are connected by pressure shoulder section (73) with rotary head (7) respectively;Work as peace
When total head bar (71) is pushed, described U-shaped pressure chest section (72) is located at the front of user through the head of user, described
Pressure shoulder section (73) is located above the shoulder of user.
8. virtual reality simulation cockpit as claimed in any of claims 1 to 4, it is characterised in that:Described control
Device (2) also includes the control system for being capable of input motion track, described control system and rotary drive mechanism (21) and liter
Drop drive mechanism (22) is connected and controlled the movement locus of rotary drive mechanism (21) and lift drive mechanism (22).
9. virtual reality simulation cockpit according to claim 8, it is characterised in that:Described rotary drive mechanism (21) bag
Rotary cylinder is included, described lift drive mechanism (22) includes lift cylinder.
10. virtual reality simulation cockpit as claimed in any of claims 1 to 4, it is characterised in that:Described base
(1) provided with two symmetrical control devices (2), the both sides of two control devices (2) difference pedestals (4) are connected.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621433576.8U CN206594861U (en) | 2016-12-26 | 2016-12-26 | Virtual reality simulation cockpit |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621433576.8U CN206594861U (en) | 2016-12-26 | 2016-12-26 | Virtual reality simulation cockpit |
Publications (1)
Publication Number | Publication Date |
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CN206594861U true CN206594861U (en) | 2017-10-27 |
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Family Applications (1)
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CN201621433576.8U Active CN206594861U (en) | 2016-12-26 | 2016-12-26 | Virtual reality simulation cockpit |
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CN (1) | CN206594861U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111260991A (en) * | 2018-12-03 | 2020-06-09 | 技嘉科技股份有限公司 | Pneumatic multi-degree-of-freedom simulation device |
-
2016
- 2016-12-26 CN CN201621433576.8U patent/CN206594861U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111260991A (en) * | 2018-12-03 | 2020-06-09 | 技嘉科技股份有限公司 | Pneumatic multi-degree-of-freedom simulation device |
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