CN103438532A - Indoor temperature regulator - Google Patents

Abstract

The invention relates to an indoor temperature regulator. The indoor temperature regulator comprises a circulating pipeline consisting of a buried heat exchange tube and a capillary network heat exchanger, wherein the buried heat exchange tube is deeply buried under the ground, the capillary network heat exchanger is distributed on an indoor ceiling, and a water inlet end and a water outlet end of the capillary network heat exchanger are respectively connected into the circulating pipeline through a water splitter and a water collector; circulating water in the circulating pipeline is driven by a water pump, releases heat to the underground when in the buried heat exchange tube and absorbs the indoor heat when in the capillary network heat exchanger. According to the indoor temperature regulator, by deeply arranging the buried heat exchange tube under the ground and the distributing the capillary network heat exchanger on the indoor ceiling, the temperature of the circulating water is lowered after the circulating water in the buried heat exchange tube releases heat to the underground, and the low-temperature cold water flows into the capillary network heat exchanger to exchange the heat with the indoor air in a radiation manner so as to lower the indoor temperature; in the whole process, only a small amount of electricity needs to be provided to the water pump to realize the circulation of the circulating water to finally realize temperature reduction, and compared with an air conditioner, a large amount of electricity is saved.

Description

A kind of indoor temperature regulating device

Technical field

The present invention relates to the industrial refrigeration field, specifically a kind of indoor temperature regulating device.

Background technology

Due to the raising of people's living standard, air-conditioning is more and more universal, but, because the energy consumption of air-conditioning is very large, its concentrated use causes electricity consumption peak-valley difference in city apart from day by day increasing.For the peak load shifting of electrical network, advocate now energy accumulation air conditioner, reasonable a kind of selection is to adopt ice-storage system, the user can save a lot of running costs.But ice-storage system also has the shortcoming of self, such as initial cost is large, refrigeration unit during ice making is because will there be very low evaporating temperature, and its COP reduces.So, from Energy Angle, the ice cold-storage is not a kind of energy-saving scheme, just can reduce running cost, can regulate network load.

Summary of the invention

For solving owing to concentrating the city electricity consumption peak-valley difference that uses air-conditioning to cause apart from day by day increasing and the serious problem of energy resource consumption, the invention provides a kind of indoor temperature regulating device, this device utilizes that ground is cold carries out the room temperature adjusting, simple and practical, has realized well the purpose of energy-saving cool-down.

The present invention solves the problems of the technologies described above the technical scheme of employing to be: a kind of indoor temperature regulating device, comprise the buried circulation line formed in underground buried heat exchanger tube and the capillary network heat exchanger be distributed on indoor canopy, the Inlet and outlet water two ends of described capillary network heat exchanger are connected into circulation line by water knockout drum and water collector respectively, recirculated water in circulation line is driven by water pump, and emit heat to underground in buried heat exchanger tube, the heat in the capillary network heat exchanger in absorption chamber.

Described circulation line also is connected with plate type heat exchanger by valve, plate type heat exchanger can with capillary network heat exchanger serial or parallel connection, its objective is the radiation low-temperature receiver that provides other.

Described circulation line also is connected with the expansion water supply tank.

Described buried heat exchanger tube is buried in underground, and the water water temperature that participates in circulation in control device of take is 17 ℃ ~ 19 ℃.

The outside of described circulation line is coated with heat-barrier material.

In the present invention, described capillary network heat exchanger be laid in roof, the side wall in room, itself and space air, personnel's heat exchange is to be undertaken by the mode of radiation, if wall temperature is lower than the dew-point temperature of room air, wall just has water analysis and goes out, make a mess of the things such as wall furniture in room, for fear of the destruction to room finish, the water temperature of flow in capillary tube must be higher; Owing to having used the high temperature cold water that temperature is higher, even use the refrigeration unit preparation, its Energy Efficiency Ratio also can be higher simultaneously, and power consumption is less, also has energy-conservation effect.

Beneficial effect: the present invention is by arranging buried heat exchanger tube and being distributed in the capillary network heat exchanger on indoor canopy at deep under ground, thereby recirculated water release heat in buried heat exchanger tube reduces to underground temperature, thereby when moving in the capillary network heat exchanger, low-temperature cold water carries out heat exchange reduction indoor temperature with radiation mode and indoor air.In whole process, only need feed pump to provide a small amount of electric energy can realize cooling for the recirculated water circulation, compare with air-conditioning and saved a large amount of electric energy.

The accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Reference numeral: 1, buried heat exchanger tube, 2, the expansion water supply tank, 3, water collector, 4, the capillary network heat exchanger, 5, water knockout drum, 6, water pump, 7, plate type heat exchanger.

The specific embodiment

As shown in the figure, a kind of indoor temperature regulating device, comprise the buried circulation line formed in underground buried heat exchanger tube 1 and the capillary network heat exchanger 4 be distributed on indoor canopy, the Inlet and outlet water two ends of described capillary network heat exchanger 4 are connected into circulation line by water knockout drum 5 and water collector 3 respectively, recirculated water in circulation line is driven by water pump 6, and emit heat to underground in buried heat exchanger tube 1, the heat in capillary network heat exchanger 4 in absorption chamber.

Be more than basic embodiment of the present invention, can on above basis, do further restriction or improvement:

As, described circulation line also is connected with plate type heat exchanger 7 by valve, and plate type heat exchanger 7 can be in parallel with capillary network heat exchanger 4 or be connected in series in circulation line, so that extra radiation low-temperature receiver to be provided;

As, described circulation line also is connected with expansion water supply tank 2, for replenishment cycles water;

As, described buried heat exchanger tube 1 is buried in underground, and the water water temperature that participates in circulation in control device of take is 17 ℃ ~ 19 ℃, thereby improves refrigerating efficiency and indoor comfort level;

As, be coated with heat-barrier material in the outside of described circulation line, absorb heat and then pass to recirculated water to prevent circulation line, cause the reduction of cooling effectiveness.

Claims (5)

1. an indoor temperature regulating device, it is characterized in that: comprise buried in underground buried heat exchanger tube (1) be distributed in the circulation line that capillary network heat exchanger (4) on indoor canopy forms, the Inlet and outlet water two ends of described capillary network heat exchanger (4) are connected into circulation line by water knockout drum (5) and water collector (3) respectively, recirculated water in circulation line is driven by water pump (6), and emit heat to underground in buried heat exchanger tube (1), the heat in capillary network heat exchanger (4) in absorption chamber.

2. a kind of indoor temperature regulating device according to claim 1, it is characterized in that: described circulation line also is connected with plate type heat exchanger (7) by valve.

3. a kind of indoor temperature regulating device according to claim 1, it is characterized in that: described circulation line also is connected with expansion water supply tank (2).

4. a kind of indoor temperature regulating device according to claim 3, it is characterized in that: described buried heat exchanger tube (1) is buried in underground, and the water water temperature that participates in circulation of take in control device is 17 ℃ ~ 19 ℃.

5. according to the described a kind of indoor temperature regulating device of any one claim in claim 1-3, it is characterized in that: the outside of described circulation line is coated with heat-barrier material.

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