CN216412483U - Safe somatosensory training equipment - Google Patents

Abstract

The utility model provides a safe power consumption somatosensory training device which comprises a digital quantity acquisition unit, an overload control unit, an overload demonstration unit, a leakage control unit, a leakage demonstration unit, a communication unit and a touch control all-in-one machine, wherein the digital quantity acquisition unit is respectively in communication connection with the overload demonstration unit and the leakage demonstration unit, and is also in communication connection with the touch control all-in-one machine through the communication unit; the touch control integrated machine is further in communication connection with the overload control unit and the electric leakage control unit through the communication unit respectively, the overload control unit is further in communication connection with the overload demonstration unit, and the electric leakage control unit is further in communication connection with the electric leakage demonstration unit.

Description

Safe somatosensory training equipment

Technical Field

The utility model relates to a simulation experience device for safety training in the power industry, in particular to a safety electric body sensing practical training device.

Background

Along with the continuous development of national economy, the dependence of people on electric power is stronger and stronger, the safe operation of a power grid is very important, the property loss and casualties caused by electric power accidents in China are countless, and the reason for summarizing the electric power is that the safety consciousness is thin, the illegal operation is carried out, and the like. Safety production is a permanent theme of power enterprises, and for reducing and avoiding safety accidents, safety production education and training is one of main means, and the traditional power safety training mode has old training content and single training means, and mainly adopts the traditional teaching mode and the power safety accident case training mode to carry out education and training, so that the requirements of modern power grids are not met.

Due to the limitation of production conditions in the power industry, safety education and training are unlikely to be carried out on a production operation site in consideration of the safety of power grid safe operation and training, and in order to enable various fault phenomena occurring during line operation to be presented to students in a training room, a safety power utilization sensing device is designed, starting from two aspects of safe power utilization and electric shock warning, and enabling visitors to know basic knowledge of safe power utilization, consequences of illegal power utilization and basic knowledge of electric shock.

In order to solve the above problems, people are always seeking an ideal technical solution.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a safe power consumption body sensing practical training device to solve the problems that no entity is available for operation and experience during the existing safe education training, and the training effect is poor.

In order to achieve the purpose, the utility model adopts the technical scheme that: a safe power consumption somatosensory practical training device comprises a digital quantity acquisition unit, an overload control unit, an overload demonstration unit, a leakage control unit, a leakage demonstration unit, a communication unit and a touch control all-in-one machine, wherein the digital quantity acquisition unit is respectively in communication connection with the overload demonstration unit and the leakage demonstration unit, and is also in communication connection with the touch control all-in-one machine through the communication unit; the touch control integrated machine is also respectively in communication connection with the overload control unit and the electric leakage control unit through the communication unit, the overload control unit is also in communication connection with the overload demonstration unit, and the electric leakage control unit is also in communication connection with the electric leakage demonstration unit;

the digital quantity acquisition unit acquires the state signal of the overload demonstration unit and uploads the state signal to the touch control all-in-one machine through the communication unit; the touch control integrated machine sends a control instruction to the overload control unit according to the state signal of the overload demonstration unit, and the overload control unit controls the overload demonstration unit to carry out overload demonstration according to the control instruction;

the digital quantity acquisition unit is used for acquiring a state signal of the electric leakage demonstration unit and uploading the state signal to the touch control all-in-one machine through the communication unit; the touch control integrated machine issues a control instruction to the electric leakage demonstration unit according to the state signal of the electric leakage demonstration unit, and the electric leakage demonstration unit controls the electric leakage demonstration unit to perform electric leakage demonstration according to the control instruction.

Based on the above, the overload demonstration unit comprises demonstration wires with different diameters, a plurality of high-power electric appliance demonstration modules, a current generation module and a thermal induction module, and each high-power household electric appliance demonstration module comprises a lamp box and a button attached with high-power household electric appliance pictures; the button and the heat sensing module are respectively in communication connection with the digital quantity acquisition unit, and the lamp box, the heat sensing module and the current generator are respectively in communication connection with the overload control unit; the current generator is also electrically connected with the demonstration lead.

Based on the above, the electric leakage demonstration unit comprises a demonstration panel and an electric shock bracelet, wherein an electric leakage breaker, a demonstration bulb, a demonstration socket, a distance sensor, a screen printing water faucet and a special effect simulation device are arranged on the demonstration panel, and buttons are correspondingly arranged below the demonstration bulb, the demonstration socket and the screen printing water faucet; the digital quantity acquisition unit is respectively in communication connection with the demonstration bulb, the demonstration socket, the button below the silk-screen faucet, the leakage circuit breaker and the circuit breaker; the electric leakage circuit breaker, the electric shock bracelet, the special effect analogue means with distance sensor respectively with electric leakage control unit communication connection.

Compared with the prior art, the electric shock warning system has substantive characteristics and progress, and particularly, the electric shock warning system starts from two aspects of safe power utilization and electric shock warning respectively, so that visitors can know basic knowledge of safe power utilization, consequences of illegal power utilization and basic knowledge of electric shock, and students can experience the importance of safe power utilization in a training room; the method is used for solving the problems that no entity is available for operation and experience during the existing safety education training and the training effect is poor.

Drawings

Fig. 1 is a schematic block diagram of the present invention.

Fig. 2 is a schematic block diagram of an overload demonstration unit according to the utility model.

Fig. 3 is a schematic block diagram of the leakage demonstrating unit according to the present invention.

Detailed Description

The technical solution of the present invention is further described in detail by the following embodiments.

Example 1

As shown in fig. 1, the embodiment provides a practical training device for sensing a safe power supply, which includes a power supply, a digital quantity acquisition unit, an overload control unit, an overload demonstration unit, a leakage control unit, a leakage demonstration unit, a communication unit and a touch control all-in-one machine, wherein the digital quantity acquisition unit is respectively in communication connection with the overload demonstration unit and the leakage demonstration unit, and is also in communication connection with the touch control all-in-one machine through the communication unit; the touch control integrated machine is also respectively in communication connection with the overload control unit and the electric leakage control unit through the communication unit, the overload control unit is also in communication connection with the overload demonstration unit, and the electric leakage control unit is also in communication connection with the electric leakage demonstration unit;

the digital quantity acquisition unit acquires the state signal of the overload demonstration unit and uploads the state signal to the touch control all-in-one machine through the communication unit; the touch control integrated machine sends a control instruction to the overload control unit according to the state signal of the overload demonstration unit, and the overload control unit controls the overload demonstration unit to carry out overload demonstration according to the control instruction;

the digital quantity acquisition unit is used for acquiring a state signal of the electric leakage demonstration unit and uploading the state signal to the touch control all-in-one machine through the communication unit; the touch control integrated machine issues a control instruction to the electric leakage demonstration unit according to the state signal of the electric leakage demonstration unit, and the electric leakage demonstration unit controls the electric leakage demonstration unit to perform electric leakage demonstration according to the control instruction.

When the digital quantity demonstration device is specifically implemented, the digital quantity demonstration device further comprises a power supply, and the power supply respectively supplies power to the digital quantity acquisition unit, the communication unit, the overload control unit, the overload demonstration unit, the electric leakage control unit and the electric leakage demonstration unit.

In specific implementation, the power supply comprises a 220V mains supply connection, a leakage circuit breaker and a voltage converter which are connected in sequence, wherein the voltage converter is used for converting the 220V mains supply into a working power supply of the digital quantity acquisition unit, the communication unit, the overload control unit, the overload demonstration unit, the leakage control unit and the leakage demonstration unit; the electric leakage circuit breaker is used for preventing the electric leakage of the digital quantity acquisition unit, the communication unit, the overload control unit, the overload demonstration unit, the electric leakage control unit and the electric leakage demonstration unit.

In specific implementation, as shown in fig. 2, the overload demonstration unit includes demonstration wires with different diameters, a plurality of high-power electrical appliance demonstration modules, a current generation module and a thermal induction module, and each high-power household electrical appliance demonstration module includes a lamp box and a button attached with a high-power household electrical appliance picture; specifically, the lamp box is pasted with high-power household electric pictures such as an electromagnetic oven, a microwave oven, an electric cooker, a washing machine, an electric kettle, a television, an electric heating fan, an air conditioner, an electric oven or a refrigerator, and different lamp boxes correspond to different high-power household appliances, and each household appliance has respective power; preferably, the button is a touch button; the button and the heat sensing module are respectively in communication connection with the digital quantity acquisition unit, and the lamp box, the heat sensing module and the current generator are respectively in communication connection with the overload control unit; the current generator is also electrically connected with the demonstration lead.

In particular use, the thermal sensing module is disposed proximate to the current generator and the demonstration lead for sensing temperature information about the demonstration lead.

The working principle of the overload demonstration is as follows:

when the demonstration instrument is used, a student selects a demonstration lead with one diameter and connects the demonstration lead with the current generator;

pressing the button corresponding to the high-power electric appliance display module, and detecting the button states of a plurality of high-power household high-power display modules in real time by the digital quantity acquisition unit and uploading the acquired button state information to the touch control integrated machine;

the built-in PC software on the touch control integrated machine determines the type of a high-power electric appliance display module according to the button state information, analyzes the current load of the high-power electric appliance, sends a control instruction to the overload control unit, lights a corresponding lamp box of the high-power electric appliance display module, and controls the current generation module to regulate the voltage and output corresponding current;

when the demonstration lead selected by the student is not matched with the load of the current high-power electric appliance, the demonstration lead automatically burns to generate an overheating phenomenon; after the thermal sensing module collects the overheating state, the overheating state is uploaded to the touch control integrated machine through the digital quantity collecting unit; after receiving the state information of the thermal sensing module, built-in PC software on the touch all-in-one machine sends a cutting-off instruction to the overload control unit to cut off a power supply loop between the power supply and the high-power electric appliance display module;

and when the trainee selects the lead and the high-power electrical equipment, the operation process of the trainee is displayed through a software picture, and the consequence of a fire caused by overload is displayed by using the 3D animation, so that the trainee has a realistic sense closer to a real scene and has an effect of shocking the trainee closer to the real scene.

In specific implementation, as shown in fig. 3, the electric leakage demonstration unit comprises a demonstration panel, an electric leakage breaker, a circuit breaker, a demonstration bulb, a demonstration socket, a distance sensor, a silk-screen faucet, a special effect simulation device and an electric shock bracelet are arranged on the demonstration panel, and buttons are correspondingly arranged below the demonstration bulb, the demonstration socket and the silk-screen faucet; specifically, when a button corresponding to the demonstration bulb is pressed, the demonstration bulb is turned on; when a button corresponding to the demonstration socket is pressed, the demonstration socket is used; and when a button corresponding to the silk-screen faucet is pressed, the simulated hot water faucet is opened.

The digital quantity acquisition unit is respectively in communication connection with the demonstration bulb, the demonstration socket, the button below the silk-screen faucet, the leakage circuit breaker and the circuit breaker; the electric leakage circuit breaker, the electric shock bracelet, the special effect analogue means with distance sensor respectively with electric leakage control unit communication connection.

The working principle of the electric leakage demonstration is as follows: during demonstration, a student selects to open one of the circuit breakers, and the digital quantity acquisition unit detects the type of the opened circuit breaker in real time and uploads the type of the opened circuit breaker to the touch control all-in-one machine;

when the built-in PC software on the touch control all-in-one machine judges that the leakage circuit breaker is opened, if the state information of opening a demonstration bulb and using a demonstration socket or a water heater faucet uploaded by the digital quantity acquisition unit is further received, a control instruction is issued to the leakage control unit to control the leakage circuit breaker to trip, so that the protection effect is achieved;

when the built-in PC software on the touch all-in-one machine judges that a common circuit breaker is opened, if state information of opening a demonstration bulb or using a demonstration socket uploaded by the digital quantity acquisition unit is further received, a control instruction is issued to the electric leakage control unit to control the special effect simulation device to generate special effects of light, sound and the like so as to demonstrate electric arcs generated by electric leakage, and at the moment, the circuit breaker does not trip;

if the state information of opening the water heater faucet uploaded by the digital quantity acquisition unit is further received, the electric leakage control unit controls the distance sensing module to work so as to detect the state information of whether hands of a student approach the water outlet of the water heater faucet;

when the built-in PC software on the touch all-in-one machine receives the state information that hands of a student are close to a water outlet of a faucet, a control instruction is sent to the electric leakage control unit to trigger the electric shock bracelet to work, so that an experiencer can perceive the electric leakage electric shock effect, meanwhile, a 3D animation is used for showing that the virtual character is fallen down after the electric leakage electric shock, and a sound of a sound "o" is sent out, so that the electric shock bracelet has a sense of reality closer to a real site and has an effect of shocking the student closer to the real site.

Example 2

This embodiment provides a specific embodiment, the overload control unit and the leakage control unit are 8-way switching value control modules, the digital quantity acquisition circuit is a 16-way digital quantity acquisition module, the touch all-in-one machine is a borui i5 sixth-generation touch computer, the communication unit is an ethernet and 485 repeater, the ethernet and 485 repeater communicate with the touch all-in-one machine through the ethernet, the ethernet and 485 repeater communicate with the overload control unit, the leakage control unit and the digital quantity acquisition circuit through a 485 bus.

And the overload control unit, the leakage control unit and the communication unit are installed in a box.

Finally, it should be noted that the above examples are only used to illustrate the technical solutions of the present invention and not to limit the same; although the present invention has been described in detail with reference to preferred embodiments, those skilled in the art will understand that: modifications to the specific embodiments of the utility model or equivalent substitutions for parts of the technical features may be made; without departing from the spirit of the present invention, it is intended to cover all aspects of the utility model as defined by the appended claims.

Claims (7)

1. The utility model provides a real standard equipment of electricity body is felt to safe power consumption which characterized in that: the touch control integrated machine comprises a digital quantity acquisition unit, an overload control unit, an overload demonstration unit, a leakage control unit, a leakage demonstration unit, a communication unit and a touch control integrated machine, wherein the digital quantity acquisition unit is respectively in communication connection with the overload demonstration unit and the leakage demonstration unit, and is also in communication connection with the touch control integrated machine through the communication unit; the touch control integrated machine is also respectively in communication connection with the overload control unit and the electric leakage control unit through the communication unit, the overload control unit is also in communication connection with the overload demonstration unit, and the electric leakage control unit is also in communication connection with the electric leakage demonstration unit;

the digital quantity acquisition unit acquires the state signal of the overload demonstration unit and uploads the state signal to the touch control all-in-one machine through the communication unit; the touch control integrated machine sends a control instruction to the overload control unit according to the state signal of the overload demonstration unit, and the overload control unit controls the overload demonstration unit to carry out overload demonstration according to the control instruction;

the digital quantity acquisition unit is used for acquiring a state signal of the electric leakage demonstration unit and uploading the state signal to the touch control all-in-one machine through the communication unit; the touch control integrated machine issues a control instruction to the electric leakage demonstration unit according to the state signal of the electric leakage demonstration unit, and the electric leakage demonstration unit controls the electric leakage demonstration unit to perform electric leakage demonstration according to the control instruction.

2. The safe somatosensory practical training device according to claim 1, characterized in that: the overload demonstration unit comprises demonstration wires with different diameters, a plurality of high-power electric appliance demonstration modules, a current generation module and a heat induction module, and each high-power household electric appliance demonstration module comprises a lamp box and a button attached with high-power household electric appliance pictures; the button and the thermal sensing module are respectively in communication connection with the digital quantity acquisition unit, and the lamp box, the thermal sensing module and the current generation module are respectively in communication connection with the overload control unit; the current generation module is also electrically connected with the demonstration lead.

3. The safety somatosensory practical training device according to claim 1 or 2, wherein: the electric leakage demonstration unit comprises a demonstration panel and an electric shock bracelet, wherein an electric leakage breaker, a demonstration bulb, a demonstration socket, a distance sensor, a silk-screen faucet and a special effect simulation device are arranged on the demonstration panel, and buttons are correspondingly arranged below the demonstration bulb, the demonstration socket and the silk-screen faucet; the digital quantity acquisition unit is respectively in communication connection with the demonstration bulb, the demonstration socket, the button below the silk-screen faucet, the leakage circuit breaker and the circuit breaker; the electric leakage circuit breaker, the electric shock bracelet, the special effect analogue means with distance sensor respectively with electric leakage control unit communication connection.

4. The safe somatosensory practical training device according to claim 1, characterized in that: the power supply supplies power to the digital quantity acquisition unit, the communication unit, the overload control unit, the overload demonstration unit, the electric leakage control unit and the electric leakage demonstration unit respectively.

5. The safe somatosensory practical training device according to claim 1, characterized in that: the overload control unit, the leakage control unit and the communication unit are arranged in a box body.

6. The safe somatosensory practical training device according to claim 2, characterized in that: the button is a touch button.

7. The safe somatosensory practical training device according to claim 1, characterized in that: the overload control unit with the leakage control unit is 8 ways switching value control module, digital quantity acquisition circuit is 16 ways digital quantity acquisition module, the communication unit is ethernet and 485 forwarder, ethernet and 485 forwarder pass through the ethernet with the touch-control all-in-one communicates, ethernet and 485 forwarder pass through the 485 bus with the overload control unit leakage control unit with digital quantity acquisition circuit communicates.

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