CN209895536U - Virtual VR imaging-based lead sealing process simulation training operation system - Google Patents

Abstract

The utility model discloses a seal plumbous technology emulation training operating system based on virtual formation of image of VR, it is big to current lead sealing technology emulation training system area based on VR, after not using, very occupation space has reduced space utilization's problem, now proposes following scheme, and it includes the base, be fixed with left riser, right riser on the base, all install the VR host computer on left riser, the right riser, the equal electric connection of two VR host computers has the helmet, the side that deviates from of left riser, right riser is equipped with left gag lever post, right gag lever post respectively. The utility model discloses a setting of electronic jar, connecting rod, rack, gear, pivot, left gag lever post, right gag lever post and rail guard can protect the student when the training, and when not using, left gag lever post and right gag lever post can draw close each other and be in erect the state, and then make the system not occupation space when idle to can improve space utilization.

Description

Virtual VR imaging-based lead sealing process simulation training operation system

Technical Field

The invention relates to the field of teaching and training, in particular to a virtual imaging-based lead sealing process simulation training operation system.

Background

The virtual reality technology is a computer simulation system capable of creating and experiencing a virtual world, which utilizes a computer to generate a simulation environment, and is a system simulation of multi-source information fusion, interactive three-dimensional dynamic views and entity behaviors to immerse a user in the environment. Virtual reality technology (VR) mainly includes aspects of simulating environment, perception, natural skills, sensing equipment and the like. The simulated environment is a three-dimensional realistic image generated by a computer and dynamic in real time. Perception means that an ideal VR should have the perception that everyone has. The natural skill refers to the head rotation, eyes, gestures or other human body behavior actions of a human, and data adaptive to the actions of the participants are processed by the computer, respond to the input of the user in real time and are respectively fed back to the five sense organs of the user. However, most of the existing VR-based lead sealing process simulation training systems are large in size, occupy a large ground space when not in use, and seriously reduce the space utilization rate.

Disclosure of Invention

The invention provides a virtual imaging-based VR (virtual reality) -based lead sealing process simulation training operating system, which solves the problems that the existing VR-based lead sealing process simulation training system is large in occupied area, occupies a large space after not being used, and reduces the space utilization rate

In order to achieve the purpose, the invention adopts the following technical scheme:

a virtual VR imaging-based lead sealing process simulation training operation system comprises a base, wherein a left vertical plate and a right vertical plate are fixed on the base, VR hosts are respectively installed on the left vertical plate and the right vertical plate, the two VR hosts are electrically connected with a helmet, a left limiting rod and a right limiting rod are respectively arranged on the deviating sides of the left vertical plate and the right vertical plate, supporting blocks arranged on the left side and the right side are fixed on the base, the two supporting blocks are respectively positioned below the left limiting rod and the right limiting rod, two ends of the left limiting rod and the right limiting rod are respectively provided with a rotating shaft, a gear is fixedly installed on each rotating shaft, the two rotating shafts arranged on the left limiting rod are respectively hinged with the front side edge and the rear side edge of the left vertical plate, the two rotating shafts arranged on the right limiting rod are respectively hinged with the front side edge and the rear side edge of the right vertical plate, two electric cylinders arranged in front and rear directions are fixed on the base, and piston, the left end and the right end of the two connecting rods are respectively fixed with a rack, the lower end of each rack is respectively fixed with a limiting block below the gear, the two gears on the left vertical plate and the right vertical plate are respectively meshed with the two racks at the left end and the right end of the connecting rod, and the left limiting rod and the right limiting rod are respectively provided with a U-shaped protective guard.

Preferably, the limiting block is perpendicular to the rack, and when the limiting block is in contact with the gear, the left limiting rod and the right limiting rod are in a transverse state.

Preferably, the left limiting rod and the right limiting rod are consistent in size, the guard rail comprises vertical rods arranged along the length direction of the left limiting rod or the right limiting rod, and cross rods are fixed between the vertical rods along the height direction.

Preferably, a controller and a power supply which are respectively positioned at two sides of the electric cylinder are fixed on the base, the output end of the controller is electrically connected with the electric cylinder, and the model of the controller is ATMEGA 16.

Preferably, all be fixed with the helmet on left riser, the right riser and place the case, and the helmet is located the helmet that corresponds and places the incasement, and the side of left riser, right riser all be equipped with the mounting hole of pivot size adaptation, the pivot is rotated and is installed in the mounting hole that matches.

Preferably, the left vertical plate and the right vertical plate are consistent in size, and the distance between the two ends of the left limiting rod and the right limiting rod is matched with the width of the left vertical plate and the width of the right vertical plate respectively.

According to the invention, through the arrangement of the electric cylinder, the connecting rod, the rack, the gear, the rotating shaft, the left limiting rod, the right limiting rod and the protective guard, students can be protected during training, when the electric cylinder is not used, the left limiting rod and the right limiting rod can be mutually closed and are in a vertical state, so that the system does not occupy space when being idle, and the space utilization rate can be improved; can make the student put into the study of virtual reality through current VR host computer and helmet and seal plumbous technology, adopt immersive study, make things convenient for the student to understand, and the VR host computer quantity that sets up is two, can two people train simultaneously.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the left stop lever of the present invention.

Fig. 3 is a schematic view of the gathering of the guard rail of the present invention.

Reference numbers in the figures: the helmet comprises a base 1, a left vertical plate 2, a right vertical plate 3, a 4 VR host, a helmet 5, a helmet placing box 6, a left limiting rod 7, a right limiting rod 8, a rotating shaft 9, a gear 10, a rack 11, a connecting rod 12, an electric cylinder 13, a limiting block 14, a supporting block 15, a controller 16, a power supply 17 and a protective guard 18.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, a virtual imaging based virtual lead sealing process simulation training operation system comprises a base 1, wherein a left vertical plate 2 and a right vertical plate 3 are fixed on the base 1, VR hosts 4 are respectively installed on the left vertical plate 2 and the right vertical plate 3, a helmet 5 is electrically connected with the two VR hosts 4, a left limiting rod 7 and a right limiting rod 8 are respectively arranged at the deviated sides of the left vertical plate 2 and the right vertical plate 3, supporting blocks 15 arranged at the left side and the right side are fixed on the base 1, the two supporting blocks 15 are respectively positioned below the left limiting rod 7 and the right limiting rod 8, rotating shafts 9 are respectively arranged at the two ends of the left limiting rod 7 and the right limiting rod 8, gears 10 are respectively and fixedly installed on the rotating shafts 9, the two rotating shafts 9 arranged on the left limiting rod 7 are respectively hinged with the front side and the rear side of the left vertical plate 2, the two rotating shafts 9 arranged on the right limiting rod 8 are respectively hinged with the front side and the, two electric cylinders 13 which are arranged in front and back are fixed on the base 1, piston rods of the two electric cylinders 13 are respectively fixed with a connecting rod 12, racks 11 are respectively fixed at the left end and the right end of the two connecting rods 12, a limiting block 14 positioned below a gear 10 is respectively fixed at the lower end of each rack 11, the two gears 10 positioned on a left vertical plate 2 and a right vertical plate 3 are respectively meshed with the two racks 11 at the left end and the right end of the matched connecting rod 12, and U-shaped protective guards 18 are respectively installed on the left limiting rod 7 and the right limiting rod 8;

the limiting block 14 is perpendicular to the rack 11, when the limiting block 14 contacts with the gear 10, the left limiting rod 7 and the right limiting rod 8 are in a transverse state, the left limiting rod 7 and the right limiting rod 8 are identical in size, the guard rail 18 comprises vertical rods arranged along the length direction of the left limiting rod 7 or the right limiting rod 8, cross rods are fixed between the vertical rods along the height direction, a controller 16 and a power supply 17 which are respectively located on two sides of an electric cylinder 13 are fixed on the base 1, the output end of the controller 16 is electrically connected with the electric cylinder 13, the model of the controller 16 is ATMEGA16, helmet containing boxes 6 are fixed on the left vertical plate 2 and the right vertical plate 3, the helmets 5 are located in the corresponding helmet containing boxes 6, mounting holes matched with the rotating shafts 9 in size are formed in the side edges of the left vertical plate 2 and the right vertical plate 3, the rotating shafts 9 are rotatably mounted in the matching mounting holes, the left vertical plate 2 and the right vertical plate 3 are identical in size, the, The distance between the two ends of the right limiting rod 8 is respectively matched with the widths of the left vertical plate 2 and the right vertical plate 3.

When the lead sealing device is used, the connecting rod 12 can be driven to move upwards through the electric cylinder 13, the rack 11 is driven to move upwards, at the moment, under the meshing action, the arranged gear 10 rotates to drive the rotating shaft 9 to rotate, so that the left limiting rod 7 and the right limiting rod 8 rotate simultaneously, when the left limiting rod 7 and the right limiting rod 8 are in contact with the supporting block 15, the arranged left limiting rod 7 and the right limiting rod 8 are in a horizontal state, at the moment, after people walk into the protective guard 18, a lead sealing process simulation video is loaded in the existing VR host 4, then the existing helmet 5 can be worn to learn the lead sealing process in virtual reality, the number of the arranged VR host 4 is two, two people can be trained simultaneously, at the moment, the arranged protective guard 18 has a protective effect on the people, and the arranged helmet placing box 6 can be used for placing the helmet 5 when the helmet is not used; after learning is finished, the controller 16 controls the electric cylinder 13 to drive the connecting rod 12 to return to the original position, at the moment, the left limiting rod 7 and the right limiting rod 8 are mutually close and in an upright state, and therefore the system does not occupy space when being idle, and the space utilization rate can be improved.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. The utility model provides a seal plumbous technology emulation training operating system based on virtual formation of image of VR, includes base (1), its characterized in that, be fixed with left riser (2), right riser (3) on base (1), all install VR host computer (4) on left riser (2), right riser (3), the equal electrically connected with helmet (5) of two VR host computers (4), the side that deviates from of left riser (2), right riser (3) is equipped with left gag lever post (7), right gag lever post (8) respectively, be fixed with left and right supporting shoe (15) that set up on base (1), two supporting shoe (15) are located the below of left gag lever post (7), right gag lever post (8) respectively, the both ends of left gag lever post (7), right gag lever post (8) all have pivot (9), equal fixed mounting has gear (10) on each pivot (9), two pivot (9) that are located on the left gag lever post (7) respectively with the preceding of left riser (2), The back side is articulated, and two pivot (9) that are located on right gag lever post (8) are articulated with preceding, the back side of right riser (3) respectively, be fixed with two preceding, electronic jar (13) that set up after on base (1), the piston rod of two electronic jar (13) all is fixed with connecting rod (12), and the left and right-hand member of two connecting rod (12) all is fixed with rack (11), and the lower extreme of each rack (11) all is fixed with stopper (14) that are located gear (10) below, and two gear (10) that are located on left riser (2), right riser (3) mesh with two rack (11) of assorted connecting rod (12) left and right-hand member respectively, all install rail guard (18) of U-shaped on left side gag lever post (7) and right gag lever post (8).

2. The VR virtual imaging-based lead sealing process simulation training operating system of claim 1, wherein the limiting block (14) is perpendicular to the rack (11), and when the limiting block (14) is in contact with the gear (10), the left limiting rod (7) and the right limiting rod (8) are in a horizontal state.

3. The VR virtual imaging-based lead sealing process simulation training operation system as claimed in claim 1, wherein the left limiting rod (7) and the right limiting rod (8) are identical in size, the guard rail (18) comprises vertical rods arranged along the length direction of the left limiting rod (7) or the right limiting rod (8), and a cross rod is fixed between the vertical rods along the height direction.

4. The VR virtual imaging based lead sealing process simulation training operating system as claimed in claim 1, wherein a controller (16) and a power supply (17) are fixed to the base (1) and located on two sides of the electric cylinder (13), an output end of the controller (16) is electrically connected with the electric cylinder (13), and the model of the controller (16) is ATMEGA 16.

5. The VR virtual imaging-based lead sealing process simulation training operation system according to claim 1, wherein helmet placing boxes (6) are fixed on the left vertical plate (2) and the right vertical plate (3), the helmets (5) are located in the corresponding helmet placing boxes (6), mounting holes matched with the rotating shafts (9) in size are formed in the side edges of the left vertical plate (2) and the right vertical plate (3), and the rotating shafts (9) are rotatably mounted in the matched mounting holes.

6. The VR virtual imaging-based lead sealing process simulation training operating system of claim 1, wherein the left vertical plate (2) and the right vertical plate (3) are identical in size, and the distance between the two ends of the left limiting rod (7) and the right limiting rod (8) is matched with the width of the left vertical plate (2) and the width of the right vertical plate (3) respectively.

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