CN209879816U - VR analog simulation device for ship driver training - Google Patents
VR analog simulation device for ship driver training Download PDFInfo
- Publication number
- CN209879816U CN209879816U CN201920586547.2U CN201920586547U CN209879816U CN 209879816 U CN209879816 U CN 209879816U CN 201920586547 U CN201920586547 U CN 201920586547U CN 209879816 U CN209879816 U CN 209879816U
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- shell
- nacelle
- simulation device
- training
- navigating mate
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Abstract
The utility model belongs to the technical field of training ship navigating mate's VR emulation, concretely relates to VR analog simulation device for ship navigating mate training. The utility model discloses wholly be the cydariform, projection screen can present ball curtain projection effect, and whole nacelle suspension is in the midair, and the simulation boats and ships cockpit floats in the driving sense on sea. The utility model discloses a 3D projecting apparatus is with surface of water image projection on the sphere projection screen, utilizes the multichannel of software's the fusion technique to realize the projection effect of seamless concatenation, through combining producing with the driving effect that is the same with reality of emulation image and audio to driving accuse appearance operation, and then improves boats and ships navigating mate's operating skill through the operation to equipment, shortens navigating mate cultivation cycle, reduces and cultivates the cost.
Description
Technical Field
The utility model belongs to the technical field of training ship navigating mate's VR emulation, concretely relates to VR analog simulation device for ship navigating mate training.
Background
The VR simulation device for training ship drivers is essentially used for enabling the ship drivers to be familiar with the operation skills of ships under various simulated natural conditions by utilizing a virtual projection technology and efficiently training the driving skills of the ship drivers.
Training of modern ship pilots is a long process, and requires that pilots continuously accumulate experience and be familiar with equipment during work. The existing training method is rigid memory, low in efficiency, needs a large amount of time for experience accumulation, and is long in time consumption and high in training cost for cultivating a qualified ship driver.
Therefore, to the above problem, the utility model provides a VR analog simulation equipment for ship pilot training utilizes the analogue means of VR panorama projection technique, and virtual ship drives the operation. The operation skill of ship drivers can be rapidly improved, the culture time is shortened, and the training cost is reduced.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a VR analogue simulation device for boats and ships navigating mate training.
The purpose of the utility model is realized through the following technical scheme:
a VR simulation device for ship pilot training comprises a shell, a base and a nacelle; the pod is arranged in the shell and integrally hung on a top cover of the shell; the shell is arranged on the base, and the shell and the base are of drum-shaped structures integrally; the outermost layer of the shell is provided with an outer sound insulation layer, and a projection screen is arranged in the shell along the drum-shaped inner wall; the bottom of the pod is provided with a 3D projector and an audio device; a panoramic observation window and a seat are arranged in the nacelle, and a driving console is arranged in front of the seat; the shell is provided with an electric door; the pod is connected to the electric door through a suspension overbridge.
The utility model discloses can also include:
the nacelle is provided with a circle of gallery bridges surrounding the bottom surface of the whole nacelle.
The bottom surface and the top surface of the nacelle are both octagonal, and the octagonal area of the top surface of the nacelle is larger than that of the bottom surface; a peripheral support rod connected to the corresponding vertex of the octagon on the bottom surface is arranged at each vertex of the octagon on the top surface of the nacelle; and each vertex and each side of the octagon of the nacelle top surface are provided with a suspension support rod connected to the shell top cover.
The top cover of the shell is composed of three concentric rings, eight plane supporting rods connected to the outermost ring are arranged at the position of the innermost ring along the circumference, and the included angles of the two adjacent plane supporting rods are the same.
The beneficial effects of the utility model reside in that:
the utility model discloses wholly be the cydariform, projection screen can present ball curtain projection effect, utilizes the multichannel's of software to fuse the projection effect that the technique realized seamless concatenation, and the projection goes out complete continuous picture on a spherical screen, improves resolution ratio, makes the projection picture and has the third dimension and brings lifelike visual experience for the driver, has strong vision and immerses sense and impact force. The whole pod is suspended in the air to simulate the driving feeling of the ship cockpit floating on the sea surface. The utility model discloses a 3D projecting apparatus combines producing of emulation image and audio with the operation of driving accuse appearance and drives the driving effect the same with reality with surface of water image projection on the sphere projection screen, and then improves boats and ships navigating mate's operating skill through the operation to equipment, shortens navigating mate cultivation cycle, reduces and cultivates the cost.
Drawings
Fig. 1 is a front view of a VR simulation apparatus for vessel pilot training.
FIG. 2 is a schematic view of a pod of a VR simulation device for vessel crew training.
FIG. 3 is a schematic diagram of a housing of a VR simulation device for marine driver training.
Detailed Description
The present invention will be further described with reference to the accompanying drawings.
The utility model provides a VR simulation device for ship pilot training, which comprises a shell, a base 1 and a nacelle 6; the pod is arranged in the shell and integrally hung on a top cover of the shell; the shell is arranged on the base, and the shell and the base are of drum-shaped structures integrally; the outermost layer of the shell is provided with an outer sound insulation layer 2, and a projection screen is arranged inside the shell along the drum-shaped inner wall; the 3D projector 3 and the sound device 8 are arranged at the bottom of the pod; a seat 7 is arranged in the nacelle, and a driving console 4 is arranged in front of the seat; the shell is provided with an electric door 12; the pod is connected to the door by a suspension bridge 11.
The nacelle is arranged with a ring of bridges 9 surrounding the entire nacelle bottom surface.
The bottom surface and the top surface of the nacelle are both octagonal, and the octagonal area of the top surface of the nacelle is larger than that of the bottom surface; a peripheral support rod connected to the corresponding vertex of the octagon on the bottom surface is arranged at each vertex of the octagon on the top surface of the nacelle; each vertex and each side of the octagon of the nacelle top surface is provided with a suspension support bar 5 connected to the housing roof.
The top cover of the shell is composed of three concentric rings, eight plane supporting rods connected to the outermost ring are arranged at the position of the innermost ring along the circumference, and the included angles of the two adjacent plane supporting rods are the same.
The utility model provides a VR analogue simulation device for boats and ships navigating mate training. The whole device is drum-shaped, the outermost layer of the shell is an outer sound-proof layer 2 and is coated with tetrafluoroethylene coating to make the appearance attractive, and the bottommost part of the shell is a base 1 used for connecting and fixing the whole device. The top of the housing is provided with a plurality of groups of suspension support rods 5 for supporting the nacelle. The spherical glass fiber reinforced plastic projection screen is arranged on the inner layer of the device, and the drum-shaped projection screen is based on the principle that the holographic projection technology is realized on a curved surface with radian, so that the device has a good visual immersion effect, and a driver can have strong visual impact as if he is personally on the scene;
a nacelle is arranged in the device and is suspended in the middle of the device. The nacelle external connection polygonal gallery bridge surrounds the nacelle for installation and maintenance of the nacelle. The pod is connected with a suspension overpass for a driver to get in and out of the pod, and a projector and a sound device are suspended at the bottom of the pod; a driving control instrument and a seat are arranged in the nacelle; and panoramic observation windows are arranged around the pod and used for simulating observation windows of a ship cockpit.
The utility model discloses profitable technological effect: the whole device is drum-shaped, so that the projection screen presents a spherical screen projection effect, the projection effect of seamless splicing is realized by using a multichannel fusion technology of software, complete and continuous pictures are projected on one spherical screen, the high resolution is improved, the projection pictures and the stereoscopic impression bring vivid visual experience to a driver, and the strong visual immersion feeling and impact force are realized. The whole pod is suspended in the air to simulate the driving feeling of the ship cockpit floating on the sea surface. The utility model discloses a 3D projecting apparatus combines producing of emulation image and audio with the operation of driving accuse appearance and drives the driving effect the same with reality with surface of water image projection on the sphere projection screen, and then improves boats and ships navigating mate's operating skill through the operation to equipment, shortens navigating mate cultivation cycle, reduces and cultivates the cost.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (5)
1. The utility model provides a VR analogue simulation device for boats and ships navigating mate training, includes shell, base, its characterized in that: also includes a nacelle; the pod is arranged in the shell and integrally hung on a top cover of the shell; the shell is arranged on the base, and the shell and the base are of drum-shaped structures integrally; the outermost layer of the shell is provided with an outer sound insulation layer, and a projection screen is arranged in the shell along the drum-shaped inner wall; the bottom of the pod is provided with a 3D projector and an audio device; a panoramic observation window and a seat are arranged in the nacelle, and a driving console is arranged in front of the seat; the shell is provided with an electric door; the pod is connected to the electric door through a suspension overbridge.
2. The VR simulation device of claim 1, wherein the VR simulation device is configured to: the nacelle is provided with a circle of gallery bridges surrounding the bottom surface of the whole nacelle.
3. The VR simulation device of claim 1 or 2, wherein the VR simulation device is configured to be used for training a ship pilot: the bottom surface and the top surface of the nacelle are both octagonal, and the octagonal area of the top surface of the nacelle is larger than that of the bottom surface; a peripheral support rod connected to the corresponding vertex of the octagon on the bottom surface is arranged at each vertex of the octagon on the top surface of the nacelle; and each vertex and each side of the octagon of the nacelle top surface are provided with a suspension support rod connected to the shell top cover.
4. The VR simulation device of claim 1 or 2, wherein the VR simulation device is configured to be used for training a ship pilot: the top cover of the shell is composed of three concentric rings, eight plane supporting rods connected to the outermost ring are arranged at the position of the innermost ring along the circumference, and the included angles of the two adjacent plane supporting rods are the same.
5. The VR simulation device of claim 3 for marine driver training, wherein: the top cover of the shell is composed of three concentric rings, eight plane supporting rods connected to the outermost ring are arranged at the position of the innermost ring along the circumference, and the included angles of the two adjacent plane supporting rods are the same.
Priority Applications (1)
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CN201920586547.2U CN209879816U (en) | 2019-04-26 | 2019-04-26 | VR analog simulation device for ship driver training |
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CN201920586547.2U CN209879816U (en) | 2019-04-26 | 2019-04-26 | VR analog simulation device for ship driver training |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109935131A (en) * | 2019-04-26 | 2019-06-25 | 哈尔滨工程大学 | A kind of VR simulation device for marine navigator's training |
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2019
- 2019-04-26 CN CN201920586547.2U patent/CN209879816U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109935131A (en) * | 2019-04-26 | 2019-06-25 | 哈尔滨工程大学 | A kind of VR simulation device for marine navigator's training |
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