CN220137658U - 3D simulation device - Google Patents

Abstract

The utility model relates to the technical field of somatosensory simulation, and discloses a 3D simulation device. Including main part mechanism, base mechanism, analog mechanism and control mechanism, analog mechanism is located base mechanism upper surface one side, control mechanism is located one side that analog mechanism was kept away from to base mechanism upper surface, main part mechanism is located analog mechanism upper end, and this 3D analog device has adopted the dual protection of safety belt and main part safety cover, and wherein the safety belt adopts the structure of three shrink safety belts, can more be favorable to fixed operating personnel truck, and control panel and experience district also are divided into two parts, have avoided the possibility that the mistake touched, last one has added the bradyseism gasket at the junction, so not only can reduce and cause the damage to movable connecting rod and connecting port when experiencing, also can increase frictional force, avoid appearing the phenomenon of skidding, and the hydraulic movable rod also can be better control angle and dynamics simultaneously, and both combine together, effectually improved the effect that the body feel was experienced.

Description

3D simulation device

Technical Field

The utility model relates to the technical field of somatosensory simulation, in particular to a 3D simulation device.

Background

The virtual reality technology is a computer simulation system capable of creating and experiencing a virtual world, and utilizes a computer to generate a simulation environment, so that a user is immersed in the environment through system simulation of multi-source information fusion, interactive three-dimensional dynamic views and entity behaviors.

Most of the somatosensory simulation devices on the market at present lack a protection cabin, only one safety belt is used for protecting operators, the safety coefficient is low, meanwhile, the distance between the control device and an experience area is relatively short, and false touch is easy, and because of the problems, the 3D simulation device is provided.

Disclosure of Invention

(one) solving the technical problems

The utility model aims to provide a 3D simulation device to solve the problems of low safety coefficient, easy false touch and poor somatosensory experience effect in the background technology.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: including main part mechanism, base mechanism, simulation mechanism and control mechanism, simulation mechanism is located base mechanism upper surface one side, control mechanism is located one side that simulation mechanism was kept away from to base mechanism upper surface, main part mechanism is located simulation mechanism upper end, main part mechanism includes main part safety cover, main part body, main part seat, safety belt, safety buckle, safety draw-in groove, button, handrail that opens and shuts, places recess, simulation glasses, connecting port and bradyseism gasket, main part safety cover upper end is articulated with the main part body, main part seat fixed connection is inside the main part body, the safety belt upper end sets up on main part body inner wall, safety buckle fixed connection is in the safety belt lower extreme, the button that opens and shuts sets up at the safety draw-in groove and is the upper surface, handrail lower extreme fixed connection is on main part body inner wall, simulation glasses set up inside placing the recess, bradyseism gasket sets up inside the connecting port, and main part safety cover not only can protect personal safety, still can protect oneself privacy.

Preferably, the safety clamping groove is formed in the lower end of the main body seat, the armrests are arranged on two sides of the main body seat, the inside of the main body is provided with a placement groove, the placement groove is located on one side, far away from the main body seat, of the armrests, the connecting port is formed in the lower end of the outer surface of the main body, and the connecting port is conveniently connected with the base mechanism through the simulation mechanism.

Preferably, the base mechanism comprises a fixed chassis and a wire plugging hole, wherein the wire plugging hole is formed in one side of the rear end of the fixed chassis, and the wire plugging hole is formed in the fixed chassis, so that the defect that an electric wire is easy to expose when the wire is plugged is avoided.

Preferably, the simulation mechanism comprises a hydraulic movable rod and a movable connecting rod, wherein the bottom of the movable connecting rod is arranged inside the hydraulic movable rod, and the hydraulic movable rod is beneficial to detail control of the movement of the main body mechanism.

Preferably, the hydraulic movable rod is fixedly connected to the upper surface of the fixed chassis, and the hydraulic movable rod is positioned in the middle of the fixed chassis, so that the hydraulic movable rod is beneficial to control through the control mechanism.

Preferably, the upper end of the movable connecting rod is sleeved with the connecting port through a damping gasket, and the damping gasket not only reduces the abrasion of the movable connecting rod and the connecting port, but also increases the friction force and avoids the slipping problem.

Preferably, the control mechanism comprises a control base, a control module and a control button, wherein the lower end of the control base is fixedly connected to one side, far away from the hydraulic movable rod, of the upper surface of the fixed chassis, so that a control area is separated from an experience area.

Preferably, the control module is fixedly connected to the upper end of the control base, and the control button is arranged at the upper end of the rear part of the control base and controlled by the control module outside the machine body, so that the situation of false touch in the machine body is avoided.

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

1. the 3D simulation device adopts double protection of the safety belt and the main body protection cover, wherein the safety belt adopts a structure of three shrinkage safety belts, which is more beneficial to fixing the trunk of an operator, and then the main body protection cover also adopts a non-transparent design, so that the personal privacy can be protected while the safety is ensured;

2. according to the 3D simulation device, the control panel and the experience are divided into two parts, namely the control module and the main body, the control module is arranged before use, then an experienter enters the machine body, and after the 3D simulation device is ready, an operator clicks the control switch to start the experience travel, so that false touch is avoided, and the possibility of randomly operating the control device by someone is also prevented;

3. this 3D analogue means has added the bradyseism gasket in the junction, not only can reduce like this and cause the damage to movable connecting rod and connecting port when experiencing, also can increase frictional force, avoids appearing the phenomenon that skids, and the hydraulic movable rod also can be better control angle and dynamics simultaneously, and both combine together, the effectual effect that has improved the somatosensory experience.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of the back structure of the device of the present utility model;

FIG. 3 is a schematic view of the internal structure of the main body mechanism of the present utility model;

fig. 4 is a schematic view of a connecting cross-section structure of the present utility model.

In the figure: 1. a main body mechanism; 101. a body protection cover; 102. a main body; 103. a main body seat; 104. a safety belt; 105. a safety buckle; 106. a safety slot; 107. an opening and closing button; 108. an armrest; 109. placing the groove; 110. simulating glasses; 111. a connection port; 112. damping gaskets; 2. a base mechanism; 201. a fixed chassis; 202. a plug wire hole; 3. a simulation mechanism; 301. a hydraulic movable rod; 302. a movable connecting rod; 4. a control mechanism; 401. a control base; 402. a control module; 403. control buttons.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: including main part mechanism 1, base mechanism 2, simulation mechanism 3 and control mechanism 4, simulation mechanism 3 is located base mechanism 2 upper surface one side, control mechanism 4 is located one side that simulation mechanism 3 was kept away from to base mechanism 2 upper surface, main part mechanism 1 is located simulation mechanism 3 upper end, main part mechanism 1 includes main part safety cover 101, main part body 102, main part seat 103, the safety belt 104, safety buckle 105, safety clamping groove 106, open and close button 107, handrail 108, place recess 109, simulated glasses, connecting port 111 and damping pad 112, main part safety cover 101 upper end is articulated with main part body 102, main part seat 103 fixed connection is inside main part body 102, the safety belt 104 upper end sets up on main part body 102 inner wall, safety buckle 105 fixed connection is in the safety belt 104 lower extreme, open and close button 107 sets up at safety clamping groove 106 and is the upper surface, handrail 108 lower extreme fixed connection is on main part body 102 inner wall, simulated glasses set up inside placing recess 109, damping pad 112 sets up inside connecting port 111.

The safety clamping groove 106 is formed in the lower end of the main body seat 103, the armrests 108 are arranged on two sides of the main body seat 103, the placing grooves 109 are formed in the main body 102, the placing grooves 109 are located on one side, far away from the main body seat 103, of the armrests 108, and the connecting ports 111 are formed in the lower end of the outer surface of the main body 102.

The base unit 2 includes a fixed chassis 201 and a plug wire hole 202, and the plug wire hole 202 is provided on one side of the rear end of the fixed chassis 201.

The simulation mechanism 3 comprises a hydraulic movable rod 301 and a movable connecting rod 302, and the bottom of the movable connecting rod 302 is arranged inside the hydraulic movable rod 301.

The hydraulic movable rod 301 is fixedly connected to the upper surface of the fixed chassis 201, and the hydraulic movable rod 301 is located in the middle of the fixed chassis 201.

The upper end of the movable connecting rod 302 is sleeved with the connecting port 111 through the damping gasket 112.

The control mechanism 4 comprises a control base 401, a control module 402 and a control button 403, wherein the lower end of the control base 401 is fixedly connected to the upper surface of the fixed chassis 201 at the side far away from the hydraulic movable rod 301.

The control module 402 is fixedly connected to the upper end of the control base 401, and the control button 403 is arranged at the upper end of the rear part of the control base 401.

Working principle: when the 3D simulation device needs to be used, firstly, plug wire holes 202 on one side of the rear end of a fixed chassis 201 are plugged to electrify the whole device, then an operator and experienters stand on the fixed chassis 201 and are connected with the whole device through an operation control module 402, after the required experience project is set, the experienters can open a main body protection cover 101, then enter a main body 102 and sit on a main body seat 103, a safety buckle 105 is inserted into a safety clamping groove 106 through pulling a safety belt 104, then the safety buckle 105 is taken out of a placing groove 109 and is carried on a simulated glasses 110, a handrail 108 is held, then the operator is shown to close the main body protection cover 101, a motor control button 403 is used for opening the device, the four hydraulic movable rods 301 are controlled to move up and down through a control module 402, the main body 102 is driven to produce an up-down and left-right fluctuation effect, after the experienters completely stop the main body 102, the experienters firstly put the simulated glasses 110 into the placing groove 109 again, then the opening button 107 is pressed down, the safety belt 104 is taken out, and finally, the operator opens the main body protection cover 101.

Finally, it should be noted that the above description is only for illustrating the technical solution of the present utility model, and not for limiting the scope of the present utility model, and that the simple modification and equivalent substitution of the technical solution of the present utility model can be made by those skilled in the art without departing from the spirit and scope of the technical solution of the present utility model.

Claims (8)

1. The utility model provides a 3D analogue means, includes main part mechanism (1), base mechanism (2), analog mechanism (3) and control mechanism (4), analog mechanism (3) are located base mechanism (2) upper surface one side, control mechanism (4) are located one side that analog mechanism (3) were kept away from to base mechanism (2) upper surface, main part mechanism (1) are located analog mechanism (3) upper end, its characterized in that: the utility model provides a main part mechanism (1) is including main part safety cover (101), main part body (102), main part seat (103), safety belt (104), safety buckle (105), safety draw-in groove (106), button (107), handrail (108), place recess (109), simulation glasses (110), connection port (111) and buffering gasket (112), main part safety cover (101) upper end is articulated with main part body (102), main part seat (103) fixed connection is inside main part body (102), safety belt (104) upper end sets up on main part body (102) inner wall, safety buckle (105) fixed connection is in safety belt (104) lower extreme, button (107) set up at safety draw-in groove (106) are the upper surface, handrail (108) lower extreme fixed connection is on main part body (102) inner wall, simulation glasses (110) set up inside placing recess (109), buffering gasket (112) set up inside connection port (111).

2. A 3D simulation device according to claim 1, wherein: the safety clamping groove (106) is formed in the lower end of the main body seat (103), the armrests (108) are arranged on two sides of the main body seat (103), the placing grooves (109) are formed in the main body (102), the placing grooves (109) are formed in one side, far away from the main body seat (103), of the armrests (108), and the connecting ports (111) are formed in the lower end of the outer surface of the main body (102).

3. A 3D simulation device according to claim 2, characterized in that: the base mechanism (2) comprises a fixed chassis (201) and a plug wire hole (202), and the plug wire hole (202) is formed in one side of the rear end of the fixed chassis (201).

4. A 3D simulation device according to claim 3, characterized in that: the simulation mechanism (3) comprises a hydraulic movable rod (301) and a movable connecting rod (302), and the bottom of the movable connecting rod (302) is arranged inside the hydraulic movable rod (301).

5. The 3D simulation apparatus according to claim 4, wherein: the hydraulic movable rod (301) is fixedly connected to the upper surface of the fixed chassis (201), and the hydraulic movable rod (301) is located in the middle of the fixed chassis (201).

6. The 3D simulation apparatus according to claim 5, wherein: the upper end of the movable connecting rod (302) is sleeved with the connecting port (111) through the damping gasket (112).

7. The 3D simulation apparatus according to claim 6, wherein: the control mechanism (4) comprises a control base (401), a control module (402) and a control button (403), wherein the lower end of the control base (401) is fixedly connected to one side, far away from the hydraulic movable rod (301), of the upper surface of the fixed chassis (201).

8. The 3D simulation apparatus according to claim 7, wherein: the control module (402) is fixedly connected to the upper end of the control base (401), and the control button (403) is arranged at the upper end of the rear part of the control base (401).