CN209859466U - Building worker safety education VR experiences device - Google Patents

Abstract

The utility model discloses a building workman safety education VR experiences device, including base, mainframe box, support frame, display, locator, high altitude weight thing simulation subassembly, electric shock simulation bracelet, VR glasses empty the simulation subassembly, the mainframe box is installed at the base upper surface, and its inside is equipped with the host computer, the support frame is installed in the mainframe box top, and the terminal surface before the support frame is installed to the display, first horizontal pole is installed to the terminal surface before the support frame top, and the second horizontal pole is installed to the bilateral symmetry, the lower terminal surface at second horizontal pole free end is installed to the locator, and high altitude weight thing simulation unit mount is at the lower terminal surface of first horizontal pole free end, it is subaerial that the simulation subassembly is located under the high altitude weight thing simulation subassembly to empty. The utility model discloses a VR experiences device can realize that the high-altitude thing that falls among the work progress, and the simulation that electric shock and platform were emptyd is experienced, improves workman's safety consciousness.

Description

Building worker safety education VR experiences device

Technical Field

The utility model relates to a device is experienced to VR, concretely relates to device is experienced to construction worker safety education VR.

Background

At present, Chinese construction workers mainly adopt farmer workers, and the overall safety awareness is low. Although building enterprises have strengthened the strength of safety education and training for workers in recent years, there are still some problems in general:

1. Safety education training work does not fall to the ground and takes root: the attention degree of building enterprises to safety education and training work is insufficient, and some enterprises are unwilling to invest too much manpower, financial resources and material resources, so that the training work cannot be normally carried out; some enterprises do not carry out elaborate planning and design on the training process, so that the training work becomes formal and meaningful; as a result, the safety education training works are performed faithfully but it is difficult to achieve the expected effect.

2. The safety awareness of construction workers is slight: most of construction workers have low cultural degree, the safety consciousness and the self-protection consciousness are thin, some basic safety common knowledge on a construction site is not understood, some safety technical measures, safety operation regulations, fire fighting skills and other safety protection knowledge are rarely understood, most of the construction workers know to do things by themselves and rarely abide by the safety operation regulations, and others think that the construction workers have nothing at all, even if the clear operation is dangerous, most of the construction workers still have lucky psychology and my elements.

3. Lack of an effective safety education training mode: at present, the safety education of a plurality of enterprises is dry and tasteless, cannot arouse the attention of farmers, lacks knowledge and interest, has no novelty in old people, and cannot permeate into the daily work, life and entertainment of workers in the form of safety education, thereby failing to achieve the profound education effect.

4. The enthusiasm of farmers for training is not high: a considerable proportion of farmers do not pay attention to the improvement of self culture and operation skills, have low training attention degree, have little enthusiasm for improving the safe operation skill level, the related safety and other aspects, and have little understanding on the importance of safe education and training.

Relevant research shows that the effect of receiving safety education and training by first-line workers in the construction industry is very important for reducing safety accidents. However, the importance of safety education and training work is often ignored, so that the safety quality of part of building constructors is low, and a plurality of defects exist, so that unsafe behaviors of people are caused, and the safety education and training work is a fundamental source of building construction safety accidents.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: in order to solve the not enough of prior art, the utility model provides a device is experienced to construction worker safety education VR utilizes VR to experience and realizes building worker's safety education, and with safety education incorporate daily amusement, improve workman's enthusiasm, realize the education of moving invincingly, reduce the incident in the actual construction.

The technical scheme is as follows: a VR experiencing device for safety education of construction workers comprises a base, a mainframe box, a support frame, a display, a positioner, a high-altitude falling object simulating assembly, an electric shock simulating hand ring, VR glasses and a falling object simulating assembly, wherein the mainframe box is installed on the upper surface of the base and internally provided with a mainframe and a control circuit board, the support frame is installed above the mainframe box, the display is installed on the front end surface of the support frame, a first cross rod is installed on the front end surface of the top of the support frame, a second cross rod is symmetrically installed on two side surfaces of the support frame, the positioner is installed on the lower end surface of the free end of the second cross rod, the high-altitude falling object simulating assembly is installed on the lower end surface of the free end of the first cross rod and comprises an electromagnet and a simulator adsorbed at the bottom of the electromagnet, the falling object simulating assembly is located on the ground under the, the display, the locator, VR glasses and control circuit board pass through the signal line with the host computer and are connected, the electro-magnet, touch electric simulation bracelet and cylinder pass through signal line connection control circuit board.

Preferably, the support frame, the first cross rod and the second cross rod are of hollow structures, a signal line connected with the host machine of the positioner penetrates through the second cross rod and the support frame, and a signal line connected with the host machine of the electromagnet penetrates through the first cross rod and the support frame.

Preferably, the number of the cylinders is four, and the cylinders are distributed at four positions of the pedal, namely front, rear, left and right positions, so as to simulate four toppling conditions of the front, rear, left and right positions.

Preferably, the electricity-touch simulation bracelet is the copper ring, and the gripping is in experience person's hand.

Preferably, the device further comprises a wiring groove located between the pedal and the base, and a signal wire connected with the main machine by the cylinder is located in the wiring groove.

Preferably, the simulant is an iron sheet.

Preferably, a sound box is further arranged in the main case and connected with the main machine.

Has the advantages that: the utility model discloses a building worker safety education VR experiences device, except let experience person experience different construction dangers in the VR world, still through the simulation of the high worker's weight, the simulation of electric shock and toppling over the simulation and make experience person really experience various dangers in the real world, strengthen experience person's experience impression to strengthen its safety consciousness.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a front view of an embodiment of the present invention;

fig. 2 is a side view of an embodiment of the invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1-2, the VR experience device for the safety education of construction workers comprises a base 1, a main case 2, a support frame 3, a display 4, a positioner 5, a high-altitude falling object simulation component, an electric shock simulation hand ring 6, VR glasses 7 and a dumping simulation component, wherein the main case is positioned on the upper surface of the base, the support frame is arranged above the main case, which is a hollow structure, the display is arranged on the front end surface of the support frame, the front end surface of the top of the support frame is provided with a first cross rod 8 with a hollow structure, the two side surfaces are symmetrically provided with second cross rods 9 with a hollow structure, the falling object simulation component is arranged on the lower end surface of the free end of the first cross rod to realize falling object simulation for the testee below, the positioner is arranged on the lower end surface of the free end of the second cross rod, and obtaining and determining the position of the experiencer, wherein the dumping simulation component is positioned on the ground right below the high-altitude falling object simulation component.

Specifically speaking, inside host computer 10, control circuit board 11 and the stereo set 12 of being equipped with of mainframe box, a plurality of wiring holes 13 have been seted up to the mainframe box upper surface simultaneously, display and VR glasses pass through the signal line with the host computer and are connected, and the signal line passes the wiring hole on mainframe box surface, the locator passes through the signal line with the host computer and is connected, and inside this signal line passed through second horizontal pole and support frame, touch electric simulation bracelet and control circuit board passing signal line and be connected 14, this signal line passes the wiring hole on mainframe box surface, control circuit board is connected with the host computer electricity, sends corresponding control signal by the host computer.

The high-altitude falling object simulation assembly comprises an electromagnet 15 and a simulation object 16, the electromagnet penetrates through a first cross rod and a support frame through a signal line and then is connected with a control circuit board, the electromagnet is electrified to attract the issued simulation object in the use process, when a VR scene is switched to the high-altitude falling scene, a host sends a disconnection signal to the control circuit board, and the control circuit board disconnects the power supply of the electromagnet, so that the simulation object falls off and is hit on the head of an experiencer.

The simulation bracelet that electrocutes is the copper ring, and the gripping is in experience person's hand, and when the VR scene switched to the scene of electrocuteeing, the host computer took place to electrocute the signal to control circuit board, and built-in battery discharges on the control circuit board, forms little electric current on the bracelet and lets experience person experience.

Toppling simulation subassembly includes pedal 17 and installs a plurality of cylinders 18 at the pedal board back, and a plurality of cylinders distribute and distribute four positions around the pedal, four kinds of circumstances of toppling around simulating, the cylinder is connected with control circuit board passing signal line, in order to prevent that the signal line from damaging, sets up wiring groove 19 between pedal and base, protection signal line.

The utility model discloses the circuit that relates to among the control circuit board disclosed is current conventional circuit, and prior art personnel are according to the utility model discloses in the battery that mentions discharge, the electro-magnet break-make function combines current circuit can learn, so the utility model discloses do not do and describe repeatedly, simultaneously the utility model discloses an improve on the basis of device is experienced to current VR, so do not do repeatedly to the theory of operation of all the other structures (including VR glasses, locator, display) that the VR was experienced, can refer to prior art.

The utility model discloses a device is experienced to construction worker safety education VR, its application method is: experience person stands on the pedal, take VR glasses, gripping electric-shock simulation bracelet, the host computer carries out VR scene switching, when falling object simulation in the high altitude, except the experience in the VR scene, the iron sheet at experience person's top of the head can drop and pound on experience person's head, make it experience article in the real world pound the head, when electric shock simulation, except the experience in the VR scene, little electric current can be released to the simulation bracelet of gripping, make experience person really experience the electric shock, and when empting and experiencing, except the experience in the VR scene, the pedal of experience person's foot can corresponding slope, let experience person really empty the impression.

The utility model discloses a building worker safety education VR experiences device combines building worker's safety education to let experience person experience different construction dangers in the VR world, and through the high worker's simulation of weighing down, the simulation of electric shock is simulated and is emptyd the simulation and make experience person really experience various dangers in the real world simultaneously, strengthens experience person's experience impression to strengthen its safety consciousness.

The foregoing will clearly and completely describe the technical solutions in the embodiments of the present invention, so that those skilled in the art can better understand the advantages and features of the present invention, thereby making a more clear definition of the protection scope of the present invention. The described embodiments of the present invention are only some embodiments, but not all embodiments, and all other embodiments obtained by the person skilled in the art without creative work belong to the scope protected by the present invention based on the embodiments of the present invention.

Claims (7)

1. The utility model provides a device is experienced to construction worker safety education VR which characterized in that: the falling object simulation device comprises a base, a mainframe box, a support frame, a display, a positioner, a falling object simulation assembly, an electric shock simulation hand ring, VR glasses and a dumping simulation assembly, wherein the mainframe box is arranged on the upper surface of the base, a host and a control circuit board are arranged in the mainframe box, the support frame is arranged above the mainframe box, the display is arranged on the front end surface of the support frame, a first cross rod is arranged on the front end surface of the top of the support frame, a second cross rod is symmetrically arranged on two side surfaces of the support frame, the positioner is arranged on the lower end surface of the free end of the second cross rod, the falling object simulation assembly is arranged on the lower end surface of the free end of the first cross rod, and comprises an electromagnet and a simulation object adsorbed at the bottom of the electromagnet, the dumping simulation assembly is arranged on the ground right below the falling object simulation assembly and comprises a pedal and a plurality of air cylinders arranged on, the electro-magnet, touch electric simulation bracelet and cylinder and pass through signal line connection control circuit board.

2. The construction worker safety education VR experience device of claim 1, wherein: the supporting frame, the first cross rod and the second cross rod are of hollow structures, a signal line connected with the host through the positioner passes through the second cross rod and the supporting frame, and a signal line connected with the host through the electromagnet passes through the first cross rod and the supporting frame.

3. The construction worker safety education VR experience device of claim 1, wherein: the number of the cylinders is four, the cylinders are distributed at four positions of the pedal, namely front, back, left and right positions, and four dumping conditions of the pedal, namely front, back, left and right positions, are simulated.

4. The construction worker safety education VR experience device of claim 1, wherein: the electricity-touch simulation bracelet is a copper ring, and the gripping is in the hand of the experience person.

5. The construction worker safety education VR experience device of claim 1, wherein: the wiring groove is positioned between the pedal and the base, and the signal wire connected with the main machine by the cylinder is positioned in the wiring groove.

6. The construction worker safety education VR experience device of claim 1, wherein: the simulant is an iron sheet.

7. The construction worker safety education VR experience device of claim 1, wherein: and a sound box is arranged in the mainframe box and connected with the mainframe.