CN2344733Y - Air conditioner using water and air temp. difference - Google Patents

Abstract

The utility model relates to an air conditioner using water and air temperature difference, belonging to the technology using the natural water source in summer, especially the groundwater, and using the hot water in a boiler in winter to forcedly exchange the indoor temperature. A host machine of the utility model is composed of a box body, a fan installed in the box body and a temperature exchanging device. The temperature exchanging device form a rowed pipe-shaped structure, and the rowed pipes are mutually communicated. The interior of each pipe is filled with the water used as the temperature exchanging medium, and the rowed pipes and the water source form a forced circulation water passage by a water inlet pipe and a return pipe. The utility model can adjust the indoor temperature by utilizing the phreatic water as the cold water source in summer and utilizing a small heating boiler as the hot water source in winter. The utility model has little one time investment and low energy consumption of device running. Therefore, the utility model is convenient for countryside popularization.

Description

Aqueous vapor temperature difference aircondition

The utility model relates to a kind of aqueous vapor temperature difference aircondition, belongs to utilize summer natural water source particularly to utilize boiler hot-water in underground water, winter, to indoor technology of forcing to change temperature.

Generally adopt air conditioner to the indoor adjustment of carrying out at present, its principle is to freeze by the interaction of compressor and cold-producing medium, utilize electric energy to heat, this mode belongs to high power consumption, can produce a certain amount of harmful material gas in this type of operation of air conditioner process, indoor oxygen can reduce the air drying relatively simultaneously, and it is bigger that such air conditioner investment is installed, and particularly do not allow or unnecessary from its economic condition and actual needs for farm dwelling.

The purpose of this utility model is in order to overcome above-mentioned weak point of the prior art, and use in a kind of suitable rural area, energy-conservation, free of contamination aqueous vapor temperature difference aircondition and provide.

The purpose of this utility model is such: main frame is made of casing, the blower fan, the temperature-exchanger that are installed in the casing, temperature-exchanger is comb shape structure, said comb is interconnected, and is full of in it as the water that changes warm medium, and constitutes the forced circulation water route by water inlet pipe, return pipe and water source.

The utility model compared with prior art has the following advantages:

1, the phreatic water that utilizes summer the every family in rural area to have utilizes boiler hot-water that room temperature is regulated as cold water source, winter, and one-time investment is little, is convenient to the rural area and promotes;

2, air pollution and the human body sense of discomfort of having avoided the conventional air-conditioning machine to bring belongs to non-harmful environmental protection air-conditioning technique;

3, power consumption is low, and is energy-conservation.

The explanation of accompanying drawing drawing:

Fig. 1 is the structural representation of the utility model when using as cooling in summer.

Structural representation when Fig. 2 is the utility model as winter for dim the application.

Fig. 3 is an another kind of structural representation of the present utility model.

Below in conjunction with drawings and Examples in detail the utility model is described in detail.

By shown in Figure 1, main frame of the present utility model is made of casing (1), temperature-exchanger (2), blower fan (9), casing (1) rear portion is provided with air inlet (11), the universal air regulator of venetian blind type (4) is equipped with in the front portion, blower fan (9) is installed in this air inlet (11), and temperature-exchanger (2) is installed in blower fan (9) front portion, is comb shape structure, comb (3) is a vertical pipe, and comb (3) is communicated with by transverse tube respectively up and down.Constitute air channel (6) between the said comb (3) and between comb (3) and the casing (1).Be full of in the comb (3) as the water that changes warm medium, and constitute the forced circulation water route with water source (8) by water inlet pipe (12), return pipe (7), water pump (10).For helping changing temperature, the comb (3) of the utility model temperature-exchanger (2) is gone up to be provided with and is changed warm fin (5).

The utility model embodiment water source (8) summer is underground phreatic water, and be boiler hot-water winter.Water source (8) have become the thermal water source (8) who is supplied water by hot-water boiler (12) as shown in Figure 2.

As shown in Figure 3, structure of the present utility model also can be: casing (1) front portion is provided with air inlet (11), and temperature-exchanger (2) is installed at this air inlet (11) rear portion, and the universal air regulator of venetian blind type (4) is equipped with in the bottom, blower fan (9) is installed in this air regulator (4) rear portion, is the air inducing state.Temperature-exchanger of the present utility model (2) also can be many curved in line tubuloses, and comb is communicated with by bend pipe between (3).

The course of work of the present utility model is such: under the effect of blower fan (9), relative temperature air draught higher, that winter is lower in summer is forced to squeeze in the interior air channel (6) of casing (1), because wind action is forced comb (3) surface temperature (summer is higher, winter is lower) of temperature-exchanger (2) to exchange with air themperature fast, the air-flow summer after the exchange is colder, that winter is warm is blown into indoor, regulates suitable purpose to reach room air.

Claims (7)

1, a kind of aqueous vapor temperature difference aircondition comprises casing, is installed in blower fan, temperature-exchanger in the casing, it is characterized in that temperature-exchanger is comb shape structure, and said comb is interconnected, and constitutes the forced circulation water route by water inlet pipe, return pipe and water pump.

2, aqueous vapor temperature difference aircondition according to claim 1 is characterized in that the casing rear portion is provided with air inlet, and the universal air regulator of venetian blind type is equipped with in the front portion, and blower fan is installed in this air inlet, and temperature-exchanger is installed in the blower fan front portion.

3, aqueous vapor temperature difference aircondition according to claim 1, the comb that it is characterized in that temperature-exchanger is a vertical pipe, comb is communicated with by transverse tube respectively up and down.

4, aqueous vapor temperature difference aircondition according to claim 1, it is characterized in that between the comb and comb and casing between constitute the air channel.

5, aqueous vapor temperature difference aircondition according to claim 1 is characterized in that being provided with on the comb of temperature-exchanger and changes warm fin.

6, aqueous vapor temperature difference aircondition according to claim 1 is characterized in that the casing front portion is provided with air inlet, and temperature-exchanger is installed at this air inlet rear portion, and the universal air regulator of venetian blind type is equipped with in the bottom, and blower fan is installed in this air regulator rear portion.

7, aqueous vapor temperature difference aircondition according to claim 1 and 2 is characterized in that temperature-exchanger is many curved in line tubuloses, is communicated with by bend pipe between the comb.

Images