CN216571216U - Temperature control system for medical magnetic stimulation coil - Google Patents

Abstract

The utility model relates to a temperature control system for a medical magnetic stimulation coil, which comprises a liquid tank, a pump, a radiator and working coils, wherein a liquid conveying pipe of the liquid tank is connected with a liquid inlet of the pump, a liquid outlet of the pump is connected with the radiator through a first connecting pipe, a liquid outlet pipe of the radiator is connected with the working coils through second connecting pipes, at least one second connecting pipe is arranged, each second connecting pipe is correspondingly connected with one working coil, the liquid conveying pipe of each working coil is respectively connected with a third connecting pipe, and the third connecting pipe is connected with a liquid inlet pipe of the liquid tank through a fourth connecting pipe. The utility model can also generate heat to be dissipated when the temperature control system operates through the radiator, and can also assemble the corresponding temperature control pipelines according to the number of the working coils for magnetic stimulation in the magnetic stimulation equipment, and cool or heat the working coils one by one in real time according to the temperature of the working coils, thereby improving the cooling or heating effect of the medical magnetic stimulation coil temperature control system and improving the comfort degree of the coils when contacting with human bodies.

Description

Temperature control system for medical magnetic stimulation coil

Technical Field

The utility model relates to the technical field of magnetic stimulation coils, in particular to a temperature control system for a medical magnetic stimulation coil.

Background

At present medically, when treating mental diseases, adopt magnetic stimulation equipment to treat relevant position, be close to human skin during magnetic stimulation coil treatment, the during operation electric current is great, calorific capacity is also corresponding great, so magnetic stimulation equipment is in the use, the temperature intensification is very fast, too high or too low temperature will be unfavorable for human comfort level, influence treatment, and among the current magnetic stimulation temperature control system, the temperature control range of work coil part is less, itself also can produce the heat when the operation, control temperature effect is comparatively poor.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to provide a temperature control system for a medical magnetic stimulation coil that solves the above mentioned problems encountered in the background art.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

the utility model provides a temperature control system for medical treatment magnetic stimulation coil, includes liquid case, pump, radiator and work coil, the transfer line of liquid case is connected with the inlet of pump, the liquid outlet of pump is connected with the radiator through first connecting pipe, the liquid pipe of radiator passes through the second connecting pipe and is connected with work coil, the second connecting pipe is equipped with one at least, every the second connecting pipe corresponds and connects a work coil, every work coil's transfer line is connected with the third connecting pipe respectively, the third connecting pipe passes through the feed liquor union coupling of fourth connecting pipe and liquid case.

In the above scheme, a safety valve is externally connected to the outer side of the first connecting pipe, and a liquid outlet of the safety valve is connected with the fourth connecting pipe.

In the above scheme, the liquid tank internally mounted has the filter, the liquid tank passes through the filter and is connected with the pump.

In the above scheme, the top of the liquid tank is also provided with a one-way safety vent valve, and the liquid tank is internally provided with a liquid level sensor.

In the above scheme, an electromagnetic valve is installed between the second connecting pipe and the corresponding working coil.

In the above scheme, a temperature sensor is installed on the coil of the working coil.

In the above scheme, the first connecting pipe, the second connecting pipe, the third connecting pipe and the fourth connecting pipe are all three-way pipes.

Compared with the prior art, the utility model has the beneficial effects that: the liquid outlet of the pump is connected with the radiator through a first connecting pipe, and the liquid outlet pipe of the radiator is connected with the working coil through a second connecting pipe. The radiator is connected between the pump and the working coil, the pressure of liquid in the radiator is reduced when the radiator works, and the pressure of the liquid passing through the working coil can be reduced when the radiator is placed in front of the working coil. In addition, the pump itself generates heat during operation and heats the operating fluid in a heat transfer manner, and the heat sink can dissipate this heat before it enters the operating coil. Therefore, the temperature control system can generate heat to be dissipated when in operation through the radiator. In addition, the corresponding temperature control pipelines can be assembled according to the number of the working coils for magnetic stimulation in the magnetic stimulation equipment to cool one by one, so that the cooling effect of the medical magnetic stimulation coil temperature control system is improved.

The system utilizes the temperature sensor in the working coil to adjust the flow of the pump in real time and open and close the electromagnetic valve, and utilizes the heat generated by the working coil to heat or dissipate the heat generated by the working coil, thereby controlling the temperature of the working coil part to be always in a comfortable range of a human body. The temperature of the working coil is used for cooling or heating one by one in real time, so that the cooling or heating effect of the temperature control system of the medical magnetic stimulation coil is improved, and the comfort level of the coil in contact with a human body is improved.

Drawings

FIG. 1 is a schematic diagram of the framework structure of the working principle of the present invention;

Detailed Description

The technical solution of the present invention is further described in detail with reference to the accompanying drawings and examples.

As shown in fig. 1, a temperature control system for a medical magnetic stimulation coil comprises a liquid tank 1, a pump 2, a radiator 3 and a work coil 4. The liquid tank 1 is filled with the liquid for cooling, inert liquid with low viscosity to the wall of the liquid conveying pipe can be adopted, the liquid conveying pipe of the liquid tank 1 is connected with the liquid inlet of the pump 2, and the pump 2 pumps the cooling liquid to the cooling part of the magnetic stimulation coil. Preferably, a filter 11 is installed inside the liquid tank 1, the liquid tank 1 is connected to the pump 2 through the filter 11, and impurities in the cooling liquid in the liquid tank 1, which are derived from the cooling liquid itself or the circulated cooling liquid, are filtered out.

The liquid outlet of the pump 2 is connected to the radiator 3 through a first connection pipe 21, and the liquid outlet of the radiator 3 is connected to the work coil 4 through a second connection pipe 31. By connecting the radiator 3 between the pump 2 and the operating coil 4, the radiator 3 is subjected to pressure loss during operation, and the pressure of the liquid passing through the operating coil 4 can be reduced by placing it in front of the operating coil 4. In addition, the pump 2 itself generates heat during operation and heats the operating cooling fluid in a heat-transferring manner, which heat can be dissipated by the heat sink 3 before entering the operating coil 4.

At least one second connecting pipe 31 is arranged, each second connecting pipe 31 is correspondingly connected with one working coil 4, the infusion tube of each working coil 4 is respectively connected with a third connecting pipe 41, and the corresponding number is determined according to the number of the magnetic stimulation coils in the magnetic stimulation device. Fig. 1 is a schematic diagram of a frame structure of an embodiment, in which three second connection pipes 31 are used for four magnetic stimulation coils, and four working coils 4 and three third connection pipes 41 are correspondingly connected.

Preferably, the solenoid valve 5 is installed between the second connection pipe 31 and the corresponding work coil 4. When one of the working coils 4 fails and cannot cool the magnetic stimulation coil, the electromagnetic valve 5 on the pipeline can be closed, so that the working coil 4 is detached, replaced and maintained. When the solenoid valve 5 on the pipeline is closed, the solenoid valves 5 on other pipelines and the corresponding working coils 4 work normally. Of course, in order to prevent the coolant from flowing backwards, one solenoid valve 5 may be installed between each working coil 4 and the third connecting pipe 41 on the corresponding pipe, and the working coil 4 between the two solenoid valves 5 is isolated by closing the two solenoid valves 5, so that the disassembly, replacement and maintenance are convenient.

The third connecting pipe 41 is connected with the liquid inlet pipe of the liquid tank 1 through the fourth connecting pipe 42, the cooling liquid after cooling the working coil 4 is returned to the liquid tank 1 for recycling, the whole temperature control system operates in a closed mode, and the maintenance frequency can be reduced.

The outer side of the first connecting pipe 21 is externally connected with a safety valve 6, and a liquid outlet of the safety valve 6 is connected with the fourth connecting pipe 42. The safety valve 6 sets a safe pressure for the pipeline when in use, and when the pressure is higher than the set pressure, the safety valve 6 is opened to ensure the safety of the pressure of the pipeline.

One-way safety vent valve 12 is also installed at the top of liquid tank 1, and one-way safety vent valve 12 can automatically open the valve after the pressure in liquid tank 1 exceeds the set pressure, releases partial air, ensures that the pressure in liquid tank 1 is less than the set pressure, and simultaneously avoids direct contact of cooling liquid with the external environment. The liquid level sensor is arranged inside the liquid tank 1 and used for detecting the height of cooling liquid in the liquid tank 1, and when the height exceeds a set height, an alarm is sent out or the temperature control system is operated by the automatic starting pump 2.

The coils of the working coils 4 are provided with temperature sensors, and the working coils 4 and the electromagnetic valves 5 can be increased and decreased according to the required number of the magnetic stimulation coils. The pump 2 and the electromagnetic valve 5 can be opened and closed correspondingly according to the temperature signal value detected by the temperature sensor, and the temperature of the magnetic stimulation coil part is ensured to be constant.

In the above solution, the first connecting pipe 21, the second connecting pipe 31, the third connecting pipe 41 and the fourth connecting pipe 42 are all tee pipes. When the temperature control system is implemented, the normal operation of each device is controlled by the current PLC or the single chip microcomputer, and the automatic operation of the temperature control system is guaranteed.

In the present invention, the liquid outlet of the pump 2 is connected to the radiator 3 through the first connection pipe 21, and the liquid outlet of the radiator 3 is connected to the work coil 4 through the second connection pipe 31. The radiator 3 is connected between the pump 2 and the operating coil 4, the radiator 3 is subjected to a reduction in the pressure of the liquid during operation, and the pressure of the liquid passing through the operating coil 4 can be reduced by being placed in front of the operating coil 4. In addition, the pump 2 itself generates heat during operation and heats the operating cooling fluid in a heat-transferring manner, which heat can be dissipated by the heat sink 3 before entering the operating coil 4. Thus, the heat generated by the temperature control system during operation can be dissipated through the heat sink 3. In addition, the corresponding temperature control pipelines can be assembled according to the number of the working coils 4 for magnetic stimulation in the magnetic stimulation equipment to cool one by one, so that the temperature control effect of the medical magnetic stimulation coil temperature control system is improved.

The system utilizes the temperature sensor in the working coil 4 to adjust the flow of the pump 2 in real time, and the electromagnetic valve 5 is opened and closed, and utilizes the heat generated by the working coil 4 to heat or dissipate the heat generated by the working coil 4, thereby controlling the temperature of the working coil 4 to be always in the comfortable range of the human body. The temperature of the working coil 4 is used for cooling or heating one by one in real time, so that the cooling or heating effect of the temperature control system of the medical magnetic stimulation coil is improved, and the comfort degree of the coil in contact with a human body is improved.

The above-mentioned embodiments, objects, technical solutions and advantages of the present invention are further described in detail, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (7)

1. The utility model provides a temperature control system for medical treatment magnetic stimulation coil, includes liquid case (1), pump (2), radiator (3) and work coil (4), the transfer line of liquid case (1) is connected with the inlet of pump (2), its characterized in that: the liquid outlet of pump (2) is connected with radiator (3) through first connecting pipe (21), the play liquid pipe of radiator (3) is connected with work coil (4) through second connecting pipe (31), second connecting pipe (31) are equipped with one at least, every second connecting pipe (31) correspond and connect a work coil (4), every the transfer line of work coil (4) is connected with third connecting pipe (41) respectively, the feed liquor union coupling of fourth connecting pipe (42) and liquid tank (1) is passed through in third connecting pipe (41).

2. A temperature control system for a medical magnetic stimulation coil according to claim 1, characterized in that: the outer side of the first connecting pipe (21) is externally connected with a safety valve (6), and a liquid outlet of the safety valve (6) is connected with the fourth connecting pipe (42).

3. A temperature control system for a medical magnetic stimulation coil according to claim 1, characterized in that: liquid case (1) internally mounted has filter (11), liquid case (1) is connected with pump (2) through filter (11).

4. A temperature control system for a medical magnetic stimulation coil according to claim 1, characterized in that: the top of the liquid tank (1) is also provided with a one-way safety vent valve (12), and the inside of the liquid tank (1) is provided with a liquid level sensor.

5. A temperature control system for a medical magnetic stimulation coil according to claim 1, characterized in that: and an electromagnetic valve (5) is arranged between the second connecting pipe (31) and the corresponding working coil (4).

6. A temperature control system for a medical magnetic stimulation coil according to claim 1, characterized in that: and a temperature sensor is arranged on the coil of the working coil (4).

7. A temperature control system for a medical magnetic stimulation coil according to claim 1, characterized in that: the first connecting pipe (21), the second connecting pipe (31), the third connecting pipe (41) and the fourth connecting pipe (42) are all three-way pipes.

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