CN219872610U - Fire hydrant practical training simulation device - Google Patents

Abstract

The utility model relates to a fire hydrant practical training simulation device, which relates to the field of fire-fighting equipment, and comprises a fire-fighting cabinet, wherein the fire-fighting cabinet is internally provided with: the starting button is detachably and fixedly connected with the fire-fighting cabinet and is used for outputting a starting signal; the sensing module is in signal connection with the starting button and is used for receiving the starting signal, detecting the connection state between the water gun and the fire hydrant and outputting a water gun state signal, detecting the connection state between the water gun and the fire hydrant and outputting a water pipe state signal, detecting the state of the control valve and outputting a control valve state signal; and the display is in signal connection with the sensing module and is used for playing operation demonstration animation, and simultaneously receiving and displaying a water gun state signal, a water pipe state signal and a control valve state signal. The intelligent fire control system has the advantages of improving the efficiency of fire control training, saving the time and effort required by professional firefighters to guide fire control practical training, and guiding trained personnel to correctly use the fire control cabinet.

Description

Fire hydrant practical training simulation device

Technical Field

The utility model relates to the field of fire-fighting equipment, in particular to a fire hydrant practical training simulation device.

Background

With the gradual progress of the construction of emergency management systems in recent years, the popularity of reinforcing emergency safety education is continuously emphasized. The method has the advantages that the construction of an emergency management system with response from top to bottom and classification is established, meanwhile, the public is more focused on education propaganda for emergency prevention and coping, and the emergency capacity training and stock emergency materials of the masses are positively promoted.

The fire control cabinet is arranged in a common residential building, a production workshop or an equipment bin, the fire hydrant, the fire water pipe and the water gun are arranged in the fire control cabinet, and when the fire control is actually trained, professional fire fighters are often required to conduct instruction training one by one after the special fire fighters conduct instruction in advance so as to ensure that the trained personnel are skilled in mastering the use of the fire hydrant, and when a fire disaster occurs, the trained personnel can quickly take fire control measures.

In the process of carrying out the fire-fighting practical training, the inventor finds that because the installation operation of the fire hydrant, the fire-fighting water pipe and the water gun is complicated, professional fire-fighting personnel are required to conduct guidance, when the number of practical training persons is large, the professional fire-fighting personnel are required to consume more time and force for the installation operation, the training efficiency is low, and improvement exists.

Disclosure of Invention

In order to improve the efficiency of fire control training, save the time and effort that specialized firefighters need to spend to instruct the real training of fire control, guide the trained personnel to use the fire control cabinet correctly, the utility model provides a real training simulator of fire hydrant.

The utility model provides a fire hydrant practical training simulation device which adopts the following technical scheme:

the fire hydrant practical training simulation device comprises a fire hydrant cabinet, wherein a water gun, a fire hydrant pipe and a fire hydrant are detachably and fixedly connected in the fire hydrant cabinet, and a control valve is arranged on the fire hydrant; and:

the starting button is detachably and fixedly connected with the fire-fighting cabinet and is used for outputting a starting signal;

the sensing module is in signal connection with the starting button and is used for receiving the starting signal, detecting the connection state between the water gun and the fire hydrant and outputting a water gun state signal, detecting the connection state between the fire hydrant and outputting a water pipe state signal, detecting the state of the control valve and outputting a control valve state signal;

and the display is in signal connection with the sensing module and is used for playing operation demonstration animation, and simultaneously receiving and displaying the water gun state signal, the water pipe state signal and the control valve state signal.

Through adopting above-mentioned technical scheme, in carrying out actual fire control training simulation, the personnel of trainee closes the start button earlier, and according to demonstration animation installation squirt on the display, fire-fighting water pipe and fire hydrant, make the interior water of fire hydrant flow through fire-fighting water pipe, squirt through the control valve afterwards, can effectively reduce professional fire-fighting personnel and instruct the time power that the installation operation needs to spend, promote the personnel of trainee to master the efficiency of fire hydrant use flow, meanwhile, through the display, the operating personnel can know between squirt and the fire-fighting water pipe, between fire-fighting water pipe and the fire hydrant, the state of control valve, remind operating personnel to install the careless of squirt and fire-fighting water pipe in-process appearance, promote the efficiency of personnel of trainee correctly installing squirt, fire-fighting water pipe.

Preferably, the sensing module comprises a first electromagnetic sensor fixedly connected with the water inlet end of the fire-fighting water pipe, and outputs the water gun state signal when the water gun is detachably and fixedly connected with the water inlet end of the fire-fighting water pipe;

the display is in signal connection with the first electromagnetic sensor, and the display receives and displays the water gun state signal.

Through adopting above-mentioned technical scheme, through first electromagnetic sensor, can be to the detection of the connected state between the water inlet end of squirt and fire hose to carry out squirt connected state through the display and show.

Preferably, the sensing module comprises a second electromagnetic sensor which is fixedly connected with the water outlet end of the fire-fighting water pipe, and outputs the water pipe state signal when the water outlet end of the fire-fighting water pipe is connected with the fire hydrant;

the display is in signal connection with the second electromagnetic sensor, and the display receives and displays the water pipe state signal.

Through adopting above-mentioned technical scheme, through the second electromagnetic sensor, can be to the detection of the connected state between fire control water pipe's the water outlet end and the fire hydrant to carry out fire control water piping connection state through the display and show.

Preferably, the control valve comprises a signal valve, a signal output end of the signal valve is in signal connection with the display, when the signal valve is opened, the signal valve status signal is output, and the display receives and displays the control valve status signal.

Through adopting above-mentioned technical scheme, through the signal valve, the state that the display can show the fire hydrant in real time is in the intercommunication or blocks, the personnel of being convenient for receive the training knows the state of fire hydrant.

Preferably, the signal output ends of the first electromagnetic sensor and the second electromagnetic sensor are connected with a singlechip in a signal way, the signal output end of the singlechip is connected with a locking mechanism in a signal way, the locking mechanism is detachably and fixedly connected with the fire hydrant, and the locking mechanism controls the fire hydrant to be in a controllable state or a locking state;

when the singlechip receives the water gun state signal and the water pipe state signal at the same time, the singlechip outputs a first control signal, and the locking mechanism receives the first control signal and controls the signal valve to be in a controllable state;

when the singlechip receives the water gun state signal or the water pipe state signal, the singlechip outputs a second control signal, and the locking mechanism receives the second control signal and controls the signal valve to be in an uncontrollable state.

Through adopting above-mentioned technical scheme, through mutual overlap and use between first electromagnetic sensor, second electromagnetic sensor, singlechip and the locking mechanical system, when the personnel of trained carry out the real simulation of instructing of fire control, need reach two conditions of squirt and fire control water piping connection, fire control water piping and fire hydrant connection simultaneously, just can control the signal valve and open, avoid the personnel of trained open the signal valve under the condition of not installing fire control water piping and squirt, in the water flow that reduces in the fire hydrant enters the fire control cabinet, form good protection effect to the mechanism in the fire control cabinet.

In summary, the utility model comprises at least one of the following beneficial technical effects:

1. through mutual overlapping and use among the first electromagnetic sensor, the second electromagnetic sensor, the signal valve and the display, when the trained personnel perform the fire training simulation, the operation demonstration animation can be watched through the display, the water gun, the fire water pipe and the fire hydrant are sequentially installed, the connection state between the water gun and the fire water pipe, the connection state between the fire water pipe and the fire hydrant and the state of the signal generation can be displayed through the display, the trained personnel can conveniently observe the omission occurring in the installation process, the fire cabinet is quickly, conveniently and correctly used, the efficiency of the training skill is improved, and meanwhile, the time force required by the professional fire fighter in the real training simulation is effectively reduced;

2. through mutual match and use between first electromagnetic sensor, second electromagnetic sensor, singlechip and the locking mechanical system, when the personnel of receiving training carries out the real standard simulation of fire control, need reach two conditions of squirt and fire control water piping connection, fire control water piping and fire hydrant connection simultaneously, just can control the signal valve and open, avoid the personnel of receiving training to open the signal valve under the condition of not installing fire control water piping and squirt, in the rivers in the reduction fire hydrant flowed into the fire control cabinet, formed good protection effect to the mechanism in the fire control cabinet.

Drawings

FIG. 1 is a schematic diagram mainly used for showing the overall structure of a practical training simulation device of a fire hydrant in an embodiment of the utility model.

FIG. 2 is a schematic diagram of an embodiment of the present utility model primarily for illustrating internal signaling of a hydrant training simulation.

Reference numerals illustrate: 1. a fire-fighting cabinet; 2. a water gun; 3. a fire hose; 31. a water inlet end; 32. a water outlet end; 4. a fire hydrant; 5. a signal valve; 6. a display; 7. and (5) starting a button.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-2.

Examples

The embodiment of the utility model discloses a fire hydrant practical training simulation device. Referring to fig. 1, it mainly includes a fire-fighting cabinet 1, a water gun 2 and a fire-fighting water pipe 3 are detachably and fixedly connected in the fire-fighting cabinet 1 through a mounting bracket, a fire hydrant 4 is detachably and fixedly connected through screws, and a control valve is arranged on the fire hydrant 4. In the embodiment of the utility model, the control valve adopts the signal valve 5, and the signal valve 5 is opened or closed to output corresponding state signals respectively.

Referring to fig. 1, a starting button 7 is fixedly connected in the fire-fighting cabinet 1 through cementing, and an operator can control on-off of a circuit in the fire-fighting cabinet 1 through the starting button 7.

The fire-fighting cabinet 1 is internally provided with an induction module which is in signal connection with the starting button 7 through a data flat cable and is used for receiving a starting signal, detecting the connection state between the water gun 2 and the fire-fighting water pipe 3 and outputting a water gun 2 state signal, detecting the connection state between the fire-fighting water pipe 2 and the fire hydrant 4 and outputting a water pipe state signal, detecting the state of the control valve and outputting a control valve state signal.

The fire-fighting cabinet 1 is characterized in that the cabinet body is fixedly connected with a display 6 through a screw, and the display 6 is connected with the sensing module through a data bus for playing operation demonstration animation, and simultaneously receives and displays a water gun 2 state signal, a water pipe state signal and a control valve state signal.

In the actual fire training simulation process, trained personnel close start button 7 earlier to according to demonstration animation installation squirt 2, fire hose 3 and fire hydrant 4 on the display 6, make the water in the fire hydrant 4 flow through fire hose 3, squirt 2 through the control valve afterwards, can effectively reduce professional firefighter and instruct the time power that the operation needs to spend, promote trained personnel to master the efficiency of fire hydrant 4 use flow, simultaneously, through display 6, operating personnel can know between squirt 2 and fire hose 3, between fire hose 3 and fire hydrant 4, the state of control valve, remind operating personnel to install squirt 2 and fire hose 3 in-process to appear and dredge, promote trained personnel correctly to install squirt 2, fire hose 3's efficiency.

Referring to fig. 2, the sensing module includes a first electromagnetic sensor fixedly connected with the water inlet end 31 of the fire-fighting water pipe 3, and outputs a state signal of the water gun 2 when the water gun 2 is detachably and fixedly connected with the water inlet end 31 of the fire-fighting water pipe 3; the display 6 is connected with the first electromagnetic sensor through a data flat cable signal, and the display 6 receives and displays the state signal of the water gun 2.

The connection state between the water gun 2 and the water inlet end 31 of the fire-fighting water pipe 3 can be detected by the first electromagnetic sensor, and the connection state of the water gun 2 is displayed by the display 6.

Referring to fig. 2, the sensing module includes a second electromagnetic sensor fixedly connected with the water outlet end 32 of the fire hydrant 3, and outputs a water pipe status signal when the water outlet end 32 of the fire hydrant 3 is connected with the fire hydrant 4; the display 6 is in signal connection with the second electromagnetic sensor, and the display 6 receives the water pipe state signal and displays the water pipe state signal.

The connection state between the water outlet end 32 of the fire-fighting water pipe 3 and the fire hydrant 4 can be detected by the second electromagnetic sensor, and the connection state of the fire-fighting water pipe 3 is displayed by the display 6.

Referring to fig. 2, signal output ends of the first electromagnetic sensor and the second electromagnetic sensor are connected with a single chip microcomputer, a signal output end of the single chip microcomputer is connected with a locking mechanism, the locking mechanism is detachably and fixedly connected with the fire hydrant 4, and the locking mechanism controls the fire hydrant 4 to be in a controllable state or a locking state.

When the singlechip receives the state signal of the water gun 2 and the state signal of the water pipe simultaneously, the singlechip outputs a first control signal, and the locking mechanism receives the first control signal and controls the signal valve 5 to be in a controllable state.

When the singlechip receives a state signal of the water gun 2 or a state signal of the water pipe, the singlechip outputs a second control signal, and the locking mechanism receives the second control signal and controls the signal valve 5 to be in an uncontrollable state.

Through mutual overlap and use between first electromagnetic sensor, second electromagnetic sensor, singlechip and the locking mechanical system, when the personnel of receiving training carries out the real simulation of instructing of fire control, need reach simultaneously that squirt 2 is connected with fire control pipe 3, fire control pipe 3 is connected two conditions with fire hydrant 4, just can control signal valve 5 and open, avoid the personnel of receiving training open signal valve 5 under the condition of not installing fire control pipe 3 and squirt 2, reduce the rivers in the fire hydrant 4 and advance in the fire control cabinet 1, form good protection effect to the mechanism in the fire control cabinet 1.

It should be noted that, in the embodiment of the present utility model, the first electromagnetic sensor, the second electromagnetic sensor, the signal valve 5, the singlechip and the locking mechanism are all in the prior art, and in the embodiment of the present utility model, no optimization is performed on any structure and procedure, and no description is repeated here.

The implementation principle of the practical training simulation device for the fire hydrant 4 provided by the embodiment of the utility model is as follows: through mutual overlapping and use between first electromagnetic sensor, the second electromagnetic sensor, signal valve 5 and the display 6, when the personnel of trained carry out the real simulation of instructing of fire control, can watch operation demonstration animation through display 6 earlier to install squirt 2, fire-fighting water pipe 3 and fire hydrant 4 in proper order, and the connection state between squirt 2 and the fire-fighting water pipe 3, the connection state between fire-fighting water pipe 3 and the fire hydrant 4, the state of signaling all accessible display 6 shows, the personnel of trained can observe oneself the hourglass that appears in the installation conveniently, use fire-fighting cabinet 1 fast, conveniently and correctly, when promoting the efficiency that the skill of instructing was mastered in fact, simultaneously effectively reduce the professional fire fighter and need the time power of spending when the real simulation of instructing.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (5)

1. The fire hydrant practical training simulation device is characterized by comprising a fire hydrant cabinet (1), wherein a water gun (2), a fire hydrant pipe (3) and a fire hydrant (4) are detachably and fixedly connected in the fire hydrant cabinet (1), and a control valve is arranged on the fire hydrant (4); and:

the starting button (7) is detachably and fixedly connected with the fire-fighting cabinet (1) and is used for outputting a starting signal;

the sensing module is in signal connection with the starting button (7) and is used for receiving the starting signal, detecting the connection state between the water gun (2) and the fire hydrant (3) and outputting a water gun state signal, detecting the connection state between the fire hydrant (3) and the fire hydrant (4) and outputting a water pipe state signal, and detecting the state of the control valve and outputting a control valve state signal;

and the display (6) is in signal connection with the sensing module and is used for playing operation demonstration animation, and simultaneously receiving and displaying the water gun state signal, the water pipe state signal and the control valve state signal.

2. The fire hydrant practical training simulation device according to claim 1, wherein the sensing module comprises a first electromagnetic sensor fixedly connected with the water inlet end (31) of the fire water pipe (3), and outputs the water gun state signal when the water gun (2) is detachably and fixedly connected with the water inlet end (31) of the fire water pipe (3);

the display (6) is in signal connection with the first electromagnetic sensor, and the display (6) receives and displays the state signal of the water gun (2).

3. The fire hydrant practical training simulation device according to claim 2, wherein the sensing module comprises a second electromagnetic sensor fixedly connected with the water outlet end (32) of the fire hydrant pipe (3), and outputs the water pipe state signal when the water outlet end (32) of the fire hydrant pipe (3) is connected with the fire hydrant (4);

the display (6) is in signal connection with the second electromagnetic sensor, and the display (6) receives and displays the water pipe state signal.

4. A hydrant practical training simulator according to claim 3, characterized in that the control valve comprises a signal valve (5), the signal output end of the signal valve (5) is in signal connection with the display (6), when the signal valve (5) is opened, the control valve status signal is output, and the display (6) receives and displays the control valve status signal.

5. The fire hydrant practical training simulation device according to claim 4, wherein signal output ends of the first electromagnetic sensor and the second electromagnetic sensor are connected with a single chip microcomputer, signal output ends of the single chip microcomputer are connected with a locking mechanism, the locking mechanism is detachably and fixedly connected with the fire hydrant (4), and the locking mechanism controls the fire hydrant (4) to be in a controllable state or a locking state;

when the singlechip receives the state signal of the water gun (2) and the state signal of the water pipe at the same time, the singlechip outputs a first control signal, and the locking mechanism receives the first control signal and controls the signal valve (5) to be in a controllable state;

when the singlechip receives the state signal of the water gun (2) or the state signal of the water pipe, the singlechip outputs a second control signal, and the locking mechanism receives the second control signal and controls the signal valve (5) to be in an uncontrollable state.