CN204362676U - A kind of booth thermal cycle system - Google Patents

Abstract

The utility model provides a kind of booth thermal cycle system, comprise the geothermal well of sealing, be arranged on the radiator on booth, blowing device, tube connector and heat exchanger, described radiator comprises some radiating tubes of mutually connecting, described tube connector is connected with described blowing device and heat exchanger respectively, described heat exchanger is arranged in the water of described geothermal well, described heat exchanger comprises ring-type coil pipe and many stay pipes, one end of described stay pipe is connected with described ring-type coil pipe, the other end is connected with the sidewall of described tube connector, described tube connector is communicated with described stay pipe, described stay pipe is communicated with described ring-type coil pipe, described annual disk tube-surface is provided with the first through hole, described stay pipe is provided with the second through hole, a termination of described radiator extend in described geothermal well.Booth thermal cycle system architecture in the utility model is simple, it is low to consume energy, and significantly reduces the cost of user.

Description

A kind of booth thermal cycle system

Technical field

The utility model relates to a kind of booth thermal cycle system.

Background technology

Although have the sun to provide heat in booth in the winter time, far required temperature can not be reached.Thus need to increase auxiliary heating plant.The general hot-blast stove that adopts is heated at present.Although hot-blast stove can meet the demands, need a large amount of coal that burns, cost is high, and easily pollutes.

In view of this, Chinese patent 201120132678.7 provides a kind of green house heat-supply system based upon geothermal energy, relates to the assistant heating system of green house of vegetables.Native system is made up of radiator, circulating pump, water tank, heat exchanger and connecting tube; Radiator is made up of the pipe of some series connection, Single port and the circulation delivery side of pump of radiator are connected, the import of circulating pump communicates with water tank, and the another port of radiator is connected by the water inlet of connecting tube and heat exchanger, and delivery port and the water tank of heat exchanger are connected; Water tank, circulating pump, radiator, connecting tube and heat exchanger form the circulatory system closed; Filling pipe and valve water tank be equipped with; Heat exchanger is a hosepipe or helix tube.During use, dress radiator is contained on the frame of booth respectively, and water tank is placed in booth, buried in underground less than 3 meters of heat exchanger.The working method of native system is, by the circulation of water, by the heat extraction of underground out, and is transmitted in booth.After native system installs, and any pollution can not be caused.But it needs to consume huge electric energy groundwater abstraction, and operating cost is high.

Utility model content

What the utility model will be dealt with problems is to provide the booth thermal cycle system that a kind of structure is simple, consume energy low, uses it significantly to reduce costs.

In order to solve the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of booth thermal cycle system, and the geothermal well comprising sealing and the radiator be arranged on booth, described radiator comprises some

The radiating tube that root is connected mutually, it is characterized in that: it also comprises blowing device, tube connector and heat exchanger, described tube connector is connected with described blowing device and heat exchanger respectively, described heat exchanger is arranged in the water of described geothermal well, described heat exchanger comprises ring-type coil pipe and many stay pipes, one end of described stay pipe is connected with described ring-type coil pipe, the other end is connected with the sidewall of described tube connector, described tube connector is communicated with described stay pipe, described stay pipe is communicated with described ring-type coil pipe, described annual disk tube-surface is provided with the first through hole, described stay pipe is provided with the second through hole, a termination of described radiator extend in described geothermal well.

Preferably, above-mentioned booth thermal cycle system, wherein said radiator extend on the termination in geothermal well and is provided with trumpet-shaped air inlet.

Preferably, above-mentioned booth thermal cycle system, is provided with screen pack in wherein said trumpet-shaped air inlet.

Preferably, above-mentioned booth thermal cycle system, wherein said blowing device is air compressor.

Preferably, above-mentioned booth thermal cycle system, the quantity of wherein said stay pipe is four.

Technique effect of the present utility model is mainly reflected in: blowing device is by being blown into air in tube connector heat exchanger, after heat in absorption of air underground heat well water, enter into radiator and heat is passed to booth, this avoid the water consumed in a large amount of electric energy extraction geothermal wells, significantly reduce costs; Heat exchanger comprises ring-type coil pipe and many stay pipes, annual disk tube-surface is provided with the first through hole, stay pipe is provided with the second through hole, designs in the air making to be blown into heat exchanger like this and spreads out rapidly, increase the contact area with the water in geothermal well, improve heat transfer efficiency.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the vertical view of the heat exchanger in the utility model;

Fig. 3 is the structural representation of the radiator in the utility model.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is told about further, be easier to make the technical solution of the utility model understand and grasp.

As shown in Figure 1, 2, 3, a kind of booth thermal cycle system, comprises the geothermal well 1 of sealing, the radiator 3 be arranged on booth 2, blowing device 4, tube connector 5 and heat exchanger 6, and wherein blowing device 4 is air compressor.Radiator 3 comprises some radiating tubes 31 of mutually connecting, tube connector 5 is connected with blowing device 4 and heat exchanger 6 respectively, heat exchanger 6 is arranged in the water of geothermal well 1, heat exchanger 6 comprises ring-type coil pipe 61 and four stay pipes 62, one end of stay pipe 62 is connected with ring-type coil pipe 61, the other end is connected with the sidewall of tube connector 5, tube connector 5 is communicated with stay pipe 62, stay pipe 62 is communicated with ring-type coil pipe 61, ring-type coil pipe 61 surface is provided with the first through hole 611, stay pipe 62 is provided with the second through hole 621, a termination of radiator 3 extend in geothermal well 1, radiator 3 extend on the termination in geothermal well 1 and is provided with trumpet-shaped air inlet 7, such design can allow air enter into rapidly radiator 3.Be plugged in radiator 3, in trumpet-shaped air inlet 7, be provided with screen pack 71.

During use, blowing device 4 by being blown into air in tube connector 5 heat exchanger 6, after the heat in absorption of air underground heat well water, entering into radiator 3 and heat is passed to booth 2, this avoid the water consumed in a large amount of electric energy extraction geothermal wells, significantly reduce costs; Heat exchanger 6 comprises ring-type coil pipe 61 and many stay pipes 62, ring-type coil pipe 61 surface is provided with the first through hole 611, stay pipe 62 is provided with the second through hole 621, such design makes to be blown in the air of heat exchanger 6 and spreads out rapidly, increase the contact area with the water in geothermal well 1, improve efficiency of having conducted heat.

Certainly, the exemplary illustration of the above only the utility model typical apply, by same or similar

The combination of technical characteristic and replacement, can form multiple concrete scheme, and these schemes all drop within protection domain of the present utility model.

Claims (5)

1. a booth thermal cycle system, the geothermal well comprising sealing and the radiator be arranged on booth, described radiator comprises some radiating tubes of mutually connecting, it is characterized in that: it also comprises blowing device, tube connector and heat exchanger, described tube connector is connected with described blowing device and heat exchanger respectively, described heat exchanger is arranged in the water of described geothermal well, described heat exchanger comprises ring-type coil pipe and many stay pipes, one end of described stay pipe is connected with described ring-type coil pipe, the other end is connected with the sidewall of described tube connector, described tube connector is communicated with described stay pipe, described stay pipe is communicated with described ring-type coil pipe, described annual disk tube-surface is provided with the first through hole, described stay pipe is provided with the second through hole, a termination of described radiator extend in described geothermal well.

2. booth thermal cycle system according to claim 1, is characterized in that: described radiator extend on the termination in geothermal well and is provided with trumpet-shaped air inlet.

3. booth thermal cycle system according to claim 2, is characterized in that: be provided with screen pack in described trumpet-shaped air inlet.

4. booth thermal cycle system according to claim 1, is characterized in that: described blowing device is air compressor.

5. booth thermal cycle system according to claim 1, is characterized in that: the quantity of described stay pipe is four.