CN212302848U - Electric shock simulation device - Google Patents

Abstract

The utility model discloses an electric shock analogue means, include: a frame body; the first conductor is arranged on the frame body and used for contacting a first part of a human body, and the second conductor is used for contacting a second part of the human body; the current output assembly is arranged on the frame body and comprises a fixed seat, a piezoelectric ceramic igniter arranged on the fixed seat, a first driving assembly used for applying pressure to the piezoelectric ceramic igniter and a second driving assembly used for driving the first driving assembly to move, the current output end of the piezoelectric ceramic igniter is electrically connected with the first electric conductor, and the current loop end is electrically connected with the second electric conductor. Because the utility model discloses the time of the electric current of output flowing through the human body is short relatively, therefore can not cause the electric shock injury to the human body, only make the human body can the perception electric current can, again because each device that relates all is simple relatively and can dismantle the replacement alone, therefore flexibility and expansibility are relatively better, and the cost is also relatively lower.

Description

Electric shock simulation device

Technical Field

The utility model relates to an electric shock analogue means.

Background

With the wide increase of power utilization scenes in life, the power utilization safety becomes an essential research topic. However, in some public surveys, the general deviation of the safety awareness of electricity in domestic electricity and that of small manufacturers does not provide a corresponding recognition and general perception of the possible damage caused by current. In addition, for enterprises with more staff, the staff can establish safety power utilization consciousness and observe power utilization standards, so that safe production of equipment is facilitated, and in the existing equipment, less experience equipment exists, which can enable users to experience electric shock visually to enhance the consciousness of the users on power utilization safety, so that the equipment is not enough.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to current less exist can let the user experience the electric shock directly perceived with the experience equipment problem of reinforcing user to the consciousness of power consumption safety, provide an electric shock analogue means.

The utility model discloses technical scheme as to above-mentioned technical problem and propose as follows:

an electric shock simulation apparatus comprising: a frame body;

the first conductor is arranged on the frame body and used for contacting a first part of a human body, and the second conductor is used for contacting a second part of the human body;

the current output assembly is arranged on the frame body and comprises a fixed seat, a piezoelectric ceramic igniter arranged on the fixed seat, a first driving assembly used for applying pressure to the piezoelectric ceramic igniter and a second driving assembly used for driving the first driving assembly to move, the current output end of the piezoelectric ceramic igniter is electrically connected with the first electric conductor, and the current loop end is electrically connected with the second electric conductor.

Preferably, the first driving assembly is a cylinder, the second driving assembly is a battery valve, and a power output end of the cylinder is connected close to a pressing end of the piezoelectric ceramic igniter.

Preferably, the fixed seat comprises a step, the cylinder is arranged on the low-level step surface of the step, the piezoelectric ceramic igniter is embedded on the high-level step surface of the step, and the stressed movable end of the piezoelectric ceramic igniter is exposed out of the step and is arranged corresponding to the position of the power output end of the cylinder.

Preferably, the high-grade step surface of the step is provided with an installation groove, and the piezoelectric ceramic igniter is arranged in the installation groove and fixedly embedded.

Preferably, a limiting plate is further arranged at the notch position of the mounting groove.

Preferably, the first conductor and the second conductor are both conductive copper plates.

Preferably, the battery valve further comprises a driver control circuit composed of a time relay and an intermediate relay electrically connected with the time relay, and an electric signal output by the driver control circuit is used for controlling the output end of the battery valve to act.

The embodiment of the utility model provides a beneficial effect that technical scheme brought is:

the current output assembly comprises a fixed seat, a piezoelectric ceramic igniter, a first driving assembly and a second driving assembly, wherein the piezoelectric ceramic igniter, the first driving assembly and the second driving assembly are arranged on the fixed seat, the current output end of the piezoelectric ceramic igniter is connected with the first conductor, and the current loop end of the piezoelectric ceramic igniter is electrically connected with the second conductor. Through mutually supporting of first drive assembly and second drive assembly in order to realize pressing to piezoceramics point firearm to make its output experience current, because the time of the electric current of its output through human is short relatively, therefore can not cause the electric shock injury to the human body, only make the human body can perceive the electric current can. Meanwhile, each device is relatively simple and can be independently disassembled and replaced, so that the flexibility and the expansibility are relatively good, and the cost is relatively low. Furthermore, the utility model provides an electric shock analogue means is applicable to the power consumption safety education of big colony in batches, and reusability is good, is suitable for each enterprise to carry out the safety in production training.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural view of an electric shock simulation apparatus provided by the present invention;

fig. 2 is a schematic diagram of a current output assembly and related components provided by the present invention;

fig. 3 is a schematic view of the installation structure of the current output assembly provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1, for the utility model provides an electric shock analogue means's schematic structure, electric shock analogue means 1 includes support body 11 be provided with first electric conductor 12, second electric conductor 13 and current output device 14's protective housing 15 on the support body 11, wherein, first electric conductor 12 is used for supplying the contact of human first position, second electric conductor 13 is used for supplying the contact of human second position, contacts corresponding electric conductor and electric conductor circular telegram respectively at human first position and human second position, forms the closed circuit of circular telegram promptly.

Referring to fig. 2 and fig. 3, fig. 2 is a schematic diagram of a current output assembly and related components provided by the present invention; fig. 3 is a schematic view of the installation structure of the current output assembly provided by the present invention. Referring to fig. 1, the protective casing 15 is in a cubic box shape, the current output device 14 is disposed on the bottom plate of the protective casing 5, the power output device 14 may include a current output assembly 141, a power supply 142, a circuit breaker 143, a relay 144 and a battery valve 145, wherein the relay 144 may include an intermediate relay and a time relay, so that a simple driver control circuit for controlling the solenoid valve 145 to perform corresponding operations may be formed.

The power output assembly 141 may include a fixing base 1413, a piezo ceramic igniter 1411 disposed on the fixing base 1413, and a first driving assembly 1412 for applying pressure to a pressing end of the piezo ceramic igniter 1411, wherein a current output end of the piezo ceramic igniter 1411 may be electrically connected to the first electrical conductor 12, and a current loop end thereof may be electrically connected to the second electrical conductor 13.

Here, the first drive assembly 1412 is a pneumatic cylinder having a power output end disposed proximate to the pressing end of the piezo ceramic igniter 1411. The current output assembly 14 further comprises a second driving assembly for driving the first driving assembly to move, and here, the second driving assembly is the solenoid valve 145. The electromagnetic valve 145 can drive the power output end of the air cylinder, namely, the telescopic rod to stretch and retract after receiving the action electric signal, so that the pressure application to the pressing end of the piezoelectric ceramic igniter 1411 is realized.

The fixed seat 1413 comprises a step 1414, an air cylinder is arranged on the low-level surface of the step 1414, the piezoelectric ceramic igniter 1411 is embedded on the high-level surface of the step 1414, and the stressed movable end of the piezoelectric ceramic igniter is exposed out of the step 1414 and is arranged corresponding to the position of the power output end of the air cylinder, so that when the air cylinder acts, the power output end of the air cylinder can push the stressed movable end of the piezoelectric ceramic igniter 1411 to stress and output current.

Specifically, the fixing base 1413 may further have an installation groove 1415, a groove body of the installation groove 1415 matches the shape of the body of the piezoelectric ceramic igniter 1411, and a sidewall of the installation groove 1415 penetrates through the installation groove 1415 to expose a stressed movable end of the piezoelectric ceramic igniter 1411. When the piezoelectric ceramic igniter 1411 is placed in the mounting groove 1415, the embedded fixation of the piezoelectric ceramic igniter on the step 1414 is formed. In addition, a limiting plate 1416 is arranged on the notch of the mounting groove 1415, and the piezoelectric ceramic igniter 1411 can be limited in the mounting groove 1415 by the limiting plate 1416, so that the piezoelectric ceramic igniter can keep stable posture after being stressed.

The utility model discloses in, first electric conductor 12 with second electric conductor 13 is electrically conductive copper dish, and the user can experience the electric shock with the palm respectively on two electrically conductive copper dishes.

It is understood that the protective shell 15 and the conductive body may be disposed on the insulating plate or disposed at different positions on the frame body.

The utility model discloses utilize first electric conductor and the second electric conductor of setting on the support body to utilize the current output subassembly to carry out current output, wherein, the current output subassembly includes fixing base and sets up piezoceramics point firearm, first drive assembly and the second drive assembly on the fixing base, the current output end and the first electric conductor of piezoceramics point firearm are connected, and its current loop end is connected with the second electric conductor electricity. Through mutually supporting of first drive assembly and second drive assembly in order to realize pressing to piezoceramics point firearm to make its output experience current, because the time of the electric current of its output through human is short relatively, therefore can not cause the electric shock injury to the human body, only make the human body can perceive the electric current can. Meanwhile, each device is relatively simple and can be independently disassembled and replaced, so that the flexibility and the expansibility are relatively good, and the cost is relatively low. Furthermore, the utility model provides an electric shock analogue means is applicable to the power consumption safety education of big colony in batches, and reusability is good, is suitable for each enterprise to carry out the safety in production training.

Utilize the utility model discloses an electric shock analogue means can let the user realize the electric shock and experience on the basis of guaranteeing human health safety to harm that probably causes the electric current is with any and the perception of being whole more deeply, thereby does benefit to electric leakage prevention consciousness and the correct safe power consumption consciousness that promote the user.

The utility model discloses in, be equipped with an insulating plate body 111 on support body 11, first electric conductor 12 with second electric conductor 13 all sets up on the insulating plate body 111.

Further, a digital display 16 is further disposed on the frame 11, and the digital display 16 can be electrically connected to the timing unit of the driving control circuit to time actions or perform electric shock experience timing or counting indication for users.

Further, an indicator light 17 is further disposed on the frame body 11, and the indicator light 17 may be electrically connected to the switch unit of the power supply 142 to indicate the current power-on condition of each device, so as to remind a user of the current available state of the device.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (7)

1. An electric shock simulation apparatus, comprising:

a frame body;

the first conductor is arranged on the frame body and used for contacting a first part of a human body, and the second conductor is used for contacting a second part of the human body;

the current output assembly is arranged on the frame body and comprises a fixed seat, a piezoelectric ceramic igniter arranged on the fixed seat, a first driving assembly used for applying pressure to the piezoelectric ceramic igniter and a second driving assembly used for driving the first driving assembly to move, the current output end of the piezoelectric ceramic igniter is electrically connected with the first electric conductor, and the current loop end is electrically connected with the second electric conductor.

2. The electrocution simulation device of claim 1, wherein the first drive assembly is a pneumatic cylinder and the second drive assembly is a battery valve, and a power output of the pneumatic cylinder is coupled proximate to the pressing end of the piezo ceramic igniter.

3. The electric shock simulation device according to claim 2, wherein the fixing base comprises a step, the cylinder is arranged on a low-level surface of the step, the piezoelectric ceramic igniter is embedded on the high-level surface of the step, and a force-bearing movable end of the piezoelectric ceramic igniter is exposed out of the step and is arranged corresponding to the position of a power output end of the cylinder.

4. The electric shock simulation device according to claim 3, wherein a mounting groove is formed in the high-level step surface of the step, and the piezoelectric ceramic igniter is fixedly embedded in the mounting groove.

5. The electric shock simulation device according to claim 4, wherein a limiting plate is further arranged at the notch position of the mounting groove.

6. The electrocution simulation device of claim 2, wherein the first electrical conductor and the second electrical conductor are both conductive copper discs.

7. The electric shock simulation device according to claim 3, further comprising a driver control circuit including a time relay and an intermediate relay electrically connected to the time relay, wherein the driver control circuit outputs an electric signal for controlling the operation of the output terminal of the battery valve.

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