WO2018082108A1 - Virtual reality elevator collision device - Google Patents

Abstract

A virtual reality elevator collision device, comprising: a device body (1) and a built-in circuit (8), wherein a sprinkler device (2) is arranged on an upper surface of the device body (1), a speaker (3) is arranged on a side surface of the device body (1), a display (4) is arranged on a front surface of the device body (1), an air outlet (5) is arranged at an edge of a side surface of the device body (1), a virtual elevator (6) is arranged in an inner portion of the device body (1), a bottom portion of the virtual elevator (6) is arranged with a simulation jolt device (7), and an internal circuit (8) is arranged in the inner portion of the device body (1). The virtual reality elevator collision device is environment-friendly and safe, and may simulate a crash test by means of the virtual elevator without the participation of a human, may, to the largest extent, eliminate and solve the problem of potential safety hazards when an elevator is in use, and may also be used for evaluating the passive safety performance of an elevator after collision.

Description

Virtual reality elevator collision device Technical field

The utility model relates to the field of virtual technology, in particular to a virtual reality elevator collision device.

Background technique

Since the mid-1980s, the world's elevators have developed very rapidly. Modern elevators based on microelectronics, micromachines, bioengineering and new materials are characterized by low cost, short development cycle and high performance. In the fierce and global market competition, China is facing severe challenges in the elevator industry. The focus of competition is how to use new technologies that are emerging to develop high-quality, low-cost, high value-added new products in the shortest possible time to respond to market demands as quickly as possible. Due to the rigid structure of the traditional elevator R&D organization and management, the personnel structure is huge, the management scope is large, the level is many, the decision-making and execution speed is relatively slow, and it is difficult to adapt to the requirements of modern elevator development. This requires breaking through the inherent thinking and making major adjustments in the elevator R&D model.

At present, the industry's impact test equipment for elevators needs to be equipped with a high-power power source to give the elevator to be tested an impact force, which will result in a higher cost and complexity of the elevator test machine, and is inconvenient to use and maintain. As a part of virtual manufacturing technology, virtual test technology is being used more and more widely in the research of elevator passive safety.

Therefore, the emergence of the virtual reality crash device solves the above problems well. The virtual elevator simulation crash test can eliminate and solve the safety hazard problem of the elevator during use, and can also be used to evaluate the elevator after the collision. The passive safety performance problem greatly saves the research cost of elevator manufacturers, which is environmentally friendly and safe.

Utility model content

The purpose of the utility model is to simulate the crash test through the virtual elevator, and to eliminate and solve the safety hazard problem existing in the elevator during use, thereby evaluating the passive after the collision of the elevator. The safety performance problem greatly saves the research cost of the elevator manufacturer, and is environmentally friendly and safe.

In order to achieve the above object, the present invention provides a technical solution comprising: a device body and a built-in circuit, wherein a top of the device body is provided with a water sprinkling device, and a speaker is disposed on a side of the device body, and a front surface of the device body is disposed There is a display, an air outlet is arranged at an edge of the side of the device body, a virtual elevator is arranged inside the device body, a bottom of the virtual elevator is provided with a simulated bumper, and a built-in circuit is arranged inside the device body. .

Preferably, the built-in circuit is provided with a power module, one side of the power module is provided with a main control circuit, and one side of the main control circuit is provided with a processor, the power module, the main control circuit and the processor One end of the processor is provided with a wireless network module, and one side of the wireless network module is provided with a signal receiving module, and the wireless network module and the signal receiving module are connected in parallel with each other.

Preferably, one side of the processor is provided with a virtual scene module, and one end of the virtual scene module is provided with a sound synthesis module, and one end of the sound synthesis module is provided with a speed monitoring module, the virtual scene module and the sound synthesis The module and the speed monitoring module are connected in parallel with each other, and one side of the speed monitoring module is provided with a wind speed calculator, and one side of the wind speed calculator is provided with a wind speed controller, and the speed monitoring module, the wind speed calculator and the wind speed controller are mutually In series.

Preferably, one end of the speed monitoring module is provided with a relative speed calculation module, one side of the relative speed calculation module is provided with an impact feedback module, and one side of the impact feedback module is provided with a signal transmission module, and the signal is transmitted. One side of the module is provided with a signal feedback module, the relative speed calculation module, the impact feedback module, the signal transmission module and the signal feedback module are connected in series, and one end of the relative speed calculation module is provided with an automatic pop-up module, the automatic bomb One end of the open module is provided with an impact calculation module, and the virtual scene module, the sound synthesis module, the speed monitoring module, the relative speed calculation module, the automatic pop-up module and the impact calculation module are connected in parallel with each other, and one end of the impact calculation module has an effect Analog module.

Compared with the prior art, the beneficial effects of the utility model are:

(1) Virtual reality crash device, through the virtual elevator simulation crash test, can maximize the elimination and solve the safety hazard problem of the elevator during use, thereby evaluating the passive safety performance problem after the elevator collision, great It saves the research cost of the elevator manufacturer and is environmentally friendly and safe.

(2) Virtual reality crash device can effectively reduce costs, reduce the risk of elevator R&D and technological innovation, and shorten the elevator development cycle.

DRAWINGS

Figure 1 is a schematic view of the structure of the present invention;

2 is a schematic diagram of a built-in circuit of the present invention.

In the figure: 1, the device body; 2, sprinkler device; 3, speaker; 4, display; 5, air outlet; 6, virtual elevator; 7, analog bumper; 8, built-in circuit; 9, power module; Control circuit; 11, processor; 12, wireless network module; 13, signal receiving module; 14, virtual scene module; 15, sound synthesis module; 16, speed monitoring module; 17, relative speed calculation module; Module; 19, impact calculation module; 20, wind speed calculator; 21, impact feedback module; 22, signal transmission module; 23, signal feedback module; 24, wind speed controller; 25, effect simulation module.

detailed description

The technical solutions in the embodiments of the present invention will be clearly and completely described in conjunction with the drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. example. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

Referring to FIG. 1 , the present invention provides a technical solution: a virtual reality elevator collision device, comprising a device body and a built-in circuit, and a water sprinkling device 2 is disposed on an upper surface of the device body 1 on a side of the device body 1 A speaker 3 is provided, and a display 4 is disposed on the front surface of the device body 1 at the device body 1 An air outlet 5 is provided at the edge of the side surface, and a virtual elevator 6 is provided inside the apparatus body 1. The bottom of the virtual elevator 6 is provided with a simulated bumper 7, and a built-in circuit 8 is provided inside the apparatus body 1.

Referring to FIG. 2, a power module 9 is disposed on the built-in circuit 8. One side of the power module 9 is provided with a main control circuit 10, and one side of the main control circuit 10 is provided with a processor 11, a power module 9, and a main control circuit 10. The processor 11 is connected in series with each other. A wireless network module 12 is disposed at one end of the processor 11. One side of the wireless network module 12 is provided with a signal receiving module 13, and the wireless network module 12 and the signal receiving module 13 are connected in parallel with each other.

A virtual scene module 14 is disposed on one side of the processor 11. One end of the virtual scene module 14 is provided with a sound synthesizing module 15, and one end of the sound synthesizing module 15 is provided with a speed monitoring module 16, a virtual scene module 14, a sound synthesizing module 15 and The speed monitoring modules 16 are connected in parallel with each other. On one side of the speed monitoring module 16, a wind speed calculator 20 is provided. One side of the wind speed calculator 20 is provided with a wind speed controller 24, a speed monitoring module 16, a wind speed calculator 20 and a wind speed controller 24 Connected in series.

A speed calculation module 17 is disposed at one end of the speed monitoring module 16, and one side of the relative speed calculation module 17 is provided with an impact feedback module 21, and one side of the impact feedback module 21 is provided with a signal transmission module 22, and one of the signal transmission modules 22 The side is provided with a signal feedback module 23, and the relative speed calculation module 17, the impact feedback module 21, the signal transmission module 22 and the signal feedback module 23 are connected in series with each other, and an automatic pop-up module 18 is provided at one end of the relative speed calculation module 17, which automatically pops open. One end of the module 18 is provided with an impact calculation module 19, a virtual scene module 14, a sound synthesis module 15, a speed monitoring module 16, a relative speed calculation module 17, an automatic pop-up module 18 and an impact calculation module 19 in parallel with each other, in the impact calculation module 19 One end is provided with an effect simulation module 25.

The virtual reality crash device, through the virtual elevator simulation crash test, can eliminate and solve the safety hazard problem of the elevator during use, and can also be used to evaluate the passive safety performance problem after the elevator collides, which greatly saves the economy. The research cost of elevator manufacturers is both environmentally friendly and safe.

Although the embodiments of the present invention have been shown and described, it will be understood by those skilled in the art The scope of the invention is defined by the appended claims and their equivalents.

Claims (4)

1. A virtual reality elevator collision device comprises a device body and a built-in circuit, characterized in that: a top of the device body (1) is provided with a water sprinkling device (2), and a speaker is arranged on a side of the device body (1) ( 3) a display (4) is disposed on a front surface of the device body (1), and an air outlet (5) is disposed at an edge of a side surface of the device body (1), and an inner portion of the device body (1) is disposed There is a virtual elevator (6), and the bottom of the virtual elevator (6) is provided with a simulated bumper (7), and the inside of the device body (1) is provided with a built-in circuit (8).
2. The virtual reality elevator collision device according to claim 1, wherein the built-in circuit (8) is provided with a power module (9), and one side of the power module (9) is provided with a main control circuit. (10), a processor (11) is disposed on one side of the main control circuit (10), and the power module (9), the main control circuit (10) and the processor (11) are connected in series with each other, and the processor One end of (11) is provided with a wireless network module (12), and one side of the wireless network module (12) is provided with a signal receiving module (13), and the wireless network module (12) and the signal receiving module (13) are mutually connected. in parallel.
3. The virtual reality elevator collision device according to claim 2, wherein one side of the processor (11) is provided with a virtual scene module (14), and one end of the virtual scene module (14) is provided. a sound synthesizing module (15), one end of the sound synthesizing module (15) is provided with a speed monitoring module (16), and the virtual scene module (14), the sound synthesizing module (15) and the speed monitoring module (16) are connected in parallel with each other. One side of the speed monitoring module (16) is provided with a wind speed calculator (20), one side of the wind speed calculator (20) is provided with a wind speed controller (24), the speed monitoring module (16), The wind speed calculator (20) and the wind speed controller (24) are connected in series with each other.
4. The virtual reality elevator collision device according to claim 3, wherein one end of the speed monitoring module (16) is provided with a relative speed calculation module (17), and one of the relative speed calculation modules (17) The side is provided with an impact feedback module (21), one side of the impact feedback module (21) is provided with a signal transmitting module (22), and one side of the signal transmitting module (22) is provided with a signal feedback module (23). The relative speed calculation module (17), the impact feedback module (21), the signal transmission module (22) and the signal feedback module (23) are connected in series with each other, and one end of the relative speed calculation module (17) is provided with an automatic pop-up module. (18), one end of the automatic pop-up module (18) is provided with an impact calculation module (19), the virtual scene module (14), the sound synthesis module (15), the speed monitoring module (16), and the relative speed calculation The module (17), the automatic pop-up module (18) and the impact calculation module (19) are connected in parallel with each other, and one end of the impact calculation module (19) is provided with an effect simulation module (25).

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