CN204890310U - Head -mounted heat pipe cooler - Google Patents

Abstract

The utility model discloses a head -mounted heat pipe cooler belongs to human cooling device technical field. The technical scheme of the utility model main points do: a head -mounted heat pipe cooler, includes cooling tube and the annular heat absorption pipe or the arc heat absorption pipe that are linked together with the cooling tube, and the cooling tube has fluid heat -conducting medium with annular heat absorption pipe or intraductal all packing of arc heat absorption, and the cooling tube sets up in one side of annular heat absorption pipe or arc heat absorption pipe. The utility model discloses simple structure, low cost and convenient to use have reached the better cooling effect of the human head.

Description

A kind of helmet-type heat pipe temperature reduction device

Technical field

This utility model belongs to body temperature lowering equipment technical field, is specifically related to a kind of helmet-type heat pipe temperature reduction device.

Background technology

For hyperpyrexia patient, Physical temperature-lowering is adopted to be best selection.Current Physical temperature-lowering method mainly contains alcohol bath, warm sponge bath, warm and humidly to apply and ice compress etc., and these Physical temperature-lowering methods operate cumbersome, bring inconvenience to patient and operator, and cooling-down effect is also not ideal enough.In addition, also there are some special Head cooling instruments on the market, but expensive, and complex structure, is difficult to apply.

Summary of the invention

The technical problem that this utility model solves there is provided a kind ofly to wear conveniently, cooling-down effect better and can the helmet-type heat pipe temperature reduction device of Reusability.

This utility model adopts following technical scheme for solving the problems of the technologies described above, a kind of helmet-type heat pipe temperature reduction device, the annular heat-absorbing pipe that it is characterized in that comprising radiating tube and be connected with radiating tube or arc endothermic tube, all be filled with fluid heat-conducting medium in radiating tube and annular heat-absorbing pipe or arc endothermic tube, radiating tube is arranged at the side of annular heat-absorbing pipe or arc endothermic tube.

Further preferably, described radiating tube and annular heat-absorbing pipe or arc endothermic tube is vertical arranges.

Further preferably, the number of described radiating tube is at least two.

Further preferably, described radiating tube is provided with fin, and this fin is connected with radiating tube.

Further preferably, the annular heat-absorbing pipe relative with radiating tube or the opposite side of arc endothermic tube are provided with the arc be arranged in parallel with annular heat-absorbing pipe or arc endothermic tube and assist endothermic tube, and this arc is assisted endothermic tube to be connected with annular heat-absorbing pipe or arc endothermic tube and assisted at arc the inside of endothermic tube to be filled with fluid heat-conducting medium.

Further preferably, described radiating tube is reeled by copper pipe, aluminum pipe, heat-conduction plastic pipe or thermal conductive ceramic pipe and forms.

Further preferably, described annular heat-absorbing pipe, arc endothermic tube or arc assist endothermic tube to be formed by copper pipe, aluminum pipe, heat-conduction plastic pipe or thermal conductive ceramic pipe winding.

Further preferably, described fluid heat-conducting medium is R12, R22, R23, R134a, R404a, R406a, R409a, R410a, R417a or R436a.

This utility model compared with prior art has following beneficial effect: structure is simple, with low cost and easy to use, endothermic tube is worn on the head of hyperpyrexia patient, utilize Natural Circulation operation principle, the fluid heat-conducting medium in endothermic tube is passed to by the heat that endothermic tube absorbs, the heat of absorption is passed to radiating tube and fin by fluid heat-conducting medium, radiating tube and fin distribute heat in air, thus realize the function of heat radiator, reach the good cooling-down effect of human body head.

Accompanying drawing explanation

Fig. 1 is the structural representation of the first design form of this utility model;

Fig. 2 is the top view of Fig. 1;

Fig. 3 is the structural representation of this utility model the second design form;

Fig. 4 is the top view of Fig. 3;

Fig. 5 is the structural representation of the third design form of this utility model;

Fig. 6 is the top view of Fig. 5.

Accompanying drawing illustrates: 1, radiating tube, 2, annular heat-absorbing pipe, 3, arc endothermic tube, 4, fin, 5, arc auxiliary suction pipe.

Detailed description of the invention

Describe particular content of the present utility model by reference to the accompanying drawings in detail.

Embodiment 1

As shown in Figure 1-2, a kind of helmet-type heat pipe temperature reduction device, the annular heat-absorbing pipe 2 comprising radiating tube 1 and be connected with radiating tube 1, fluid heat-conducting medium R22 is all filled with in radiating tube 1 and annular heat-absorbing pipe 2, radiating tube 1 is vertically installed in the side of annular heat-absorbing pipe 2, the number of radiating tube 1 is two, and annular heat-absorbing pipe 2 is reeled by copper pipe and forms, and radiating tube 1 is reeled by copper pipe and forms.

Embodiment 2

As shown in Figure 3-4, a kind of helmet-type heat pipe temperature reduction device, the arc endothermic tube 3 comprising radiating tube 1 and be connected with radiating tube 1, all be filled with fluid heat-conducting medium R404a in radiating tube 1 and arc endothermic tube 3, radiating tube 1 is vertically installed in the side of arc endothermic tube 3, and the number of radiating tube 1 is two, radiating tube 1 is provided with fin 4, this fin 4 is connected with radiating tube 1, and arc endothermic tube 3 is reeled by aluminum pipe and forms, and radiating tube 1 is reeled by aluminum pipe and forms.

Embodiment 3

As seen in figs. 5-6, a kind of helmet-type heat pipe temperature reduction device, the arc endothermic tube 3 comprising radiating tube 1 and be connected with radiating tube 1, fluid heat-conducting medium R436a is all filled with in radiating tube 1 and arc endothermic tube 3, radiating tube 1 is vertically installed in the side of arc endothermic tube 3, the number of radiating tube 1 is two, the opposite side of the arc endothermic tube 3 relative with radiating tube 1 is provided with the arc be arranged in parallel with arc endothermic tube 3 and assists endothermic tube 5, this arc is assisted endothermic tube 5 to be connected with arc endothermic tube 3 and is assisted at arc the inside of endothermic tube 5 to be filled with fluid heat-conducting medium R436a, arc endothermic tube 3 and arc are assisted endothermic tube 5 to be reeled by heat-conduction plastic pipe and are formed, radiating tube 1 is reeled by heat-conduction plastic pipe and forms.

More than show and describe ultimate principle of the present utility model; principal character and advantage; under the prerequisite not departing from this utility model spirit and scope, this utility model also has various changes and modifications, and these changes and improvements all fall into claimed scope of the present utility model.

Claims (9)

1. a helmet-type heat pipe temperature reduction device, the annular heat-absorbing pipe that it is characterized in that comprising radiating tube and be connected with radiating tube or arc endothermic tube, all be filled with fluid heat-conducting medium in radiating tube and annular heat-absorbing pipe or arc endothermic tube, radiating tube is arranged at the side of annular heat-absorbing pipe or arc endothermic tube.

2. helmet-type heat pipe temperature reduction device according to claim 1, is characterized in that: described radiating tube and annular heat-absorbing pipe or arc endothermic tube is vertical arranges.

3. helmet-type heat pipe temperature reduction device according to claim 1, is characterized in that: the number of described radiating tube is at least two.

4. helmet-type heat pipe temperature reduction device according to claim 1, it is characterized in that: described radiating tube is provided with fin, this fin is connected with radiating tube.

5. helmet-type heat pipe temperature reduction device according to claim 1, is characterized in that: described radiating tube is reeled by copper pipe, aluminum pipe, heat-conduction plastic pipe or thermal conductive ceramic pipe and forms.

6. helmet-type heat pipe temperature reduction device according to claim 1, is characterized in that: described annular heat-absorbing pipe or arc endothermic tube are reeled by copper pipe, aluminum pipe, heat-conduction plastic pipe or thermal conductive ceramic pipe and form.

7. helmet-type heat pipe temperature reduction device according to claim 1, it is characterized in that: the annular heat-absorbing pipe relative with radiating tube or the opposite side of arc endothermic tube are provided with the arc be arranged in parallel with annular heat-absorbing pipe or arc endothermic tube and assist endothermic tube, this arc is assisted endothermic tube to be connected with annular heat-absorbing pipe or arc endothermic tube and is assisted at arc the inside of endothermic tube to be filled with fluid heat-conducting medium.

8. helmet-type heat pipe temperature reduction device according to claim 7, is characterized in that: described arc is assisted endothermic tube to be reeled by copper pipe, aluminum pipe, heat-conduction plastic pipe or thermal conductive ceramic pipe and formed.

9. the helmet-type heat pipe temperature reduction device according to claim 1 or 6, is characterized in that: described fluid heat-conducting medium is R12, R22, R23, R134a, R404a, R406a, R409a, R410a, R417a or R436a.