KR20060093329A - Air heat pump type hot water stove - Google Patents

Abstract

This invention discloses an air heat pump type hot water stove, which includes a condenser, a throttling valve, an evaporator and a compressor connected successively. Plural condensers are connected with each other. First condenser forms by a water tank with a water joint and an outlet, and a built-in radiator. This invention has reduced the hot pollution for environment using heat pump principle to absorbing heat energy to burn hot water, and can offer refrigerating capacity while offering heat water, and saving energy greatly. Plural condensers are connected in series or other connecting way, which can get the hot water of different temperature, from 45 'C to 100 'C, to satisfy different demand. Two kinds of evaporators can offer cold quantity directly or indirectly. The condenser group with an individual housing can get hot water alone with other existing air-conditioner connected therewith.

Description

Heat pump type water heater using heat energy in air {AIR HEAT PUMP TYPE HOT WATER STOVE}

The present invention relates to a water heater, and more particularly, a heat pump type water heater using heat energy in the air that can control air and provide hot water, also called a water heater or a tea pot, and an industrial and mining enterprise, commercial, beauty salon, and shower. It can be used in rooms, apartments, and places using central air conditioning.

Conventional water heaters boil water using fuel and electrical energy, which not only consumes a large amount of energy but also creates serious thermal pollution to the environment. Therefore, the development of society and science and technology are not responding to today's rapid modern development. In addition, there is a problem that a number of refrigerators waste a lot of heat by releasing a large amount of thermal energy.

The present invention provides a heat-pump type water heater using heat energy in the air, which not only consumes a large amount of energy when boiling water using a fuel and electric energy, but also creates a serious heat pollution to the environment. In addition to cooling, energy can be saved.

The technical solution of the present invention consists of a compressor, a cooler, a throttle valve, and an evaporator connected to each other. The cooler is connected to two or more coolers, each of which consists of a plurality of water tanks and radiators inside the water tanks, each of which is provided with a water inlet and an outlet.

The evaporator consists of an indirect cooling evaporator and a direct cooling evaporator. The indirect cooling evaporator has a case, the case has a cold water inlet and a direct cooling evaporator with a fan.

The water tanks of the plurality of coolers are interconnected in series to the water channel.

The compressor, cooler, throttle valve and evaporator are installed in a case.

The cooler is embedded in its case, and the case is provided with a medium entrance and a water channel entrance.

The present invention realizes the purpose of absorbing heat energy in the environment using the heat pump principle to boil water, thereby reducing heat pollution to the environment, providing hot water and cooling, thereby saving a large amount of energy. Can be. In addition, since several coolers are connected in series, hot water at different temperatures of 45 ° C. to 100 ° C. can be obtained at the outlets of different coolers, thereby satisfying different demands. Both evaporators can be cooled directly or indirectly, and the chiller unit with its stand-alone case can be connected to other existing air conditioners to get hot water.

1 schematically shows an arrangement of a heat pump type water heater using heat energy in air according to an embodiment of the present invention.

2 is a schematic perspective view of a water heater according to one embodiment of the present invention.

Figure 3 schematically shows the structure of the cooler of the present invention.

1 and 2, the present invention consists of a compressor 1 connected in sequence, a plurality of coolers 2, a throttle valve 3, and an evaporator 4. Each cooler 2 consists of a water tank 21 and a radiator 22 inside the water tank. The radiators 22 of the plurality of coolers 2 are connected in series via a cooling medium pipe 5, and each of the water tanks 21 is provided with a channel inlet and outlet 6 and a channel outlet 7. In this embodiment, the channel inlets 6 are connected in series with each other and the water tank 21 of the first cooler is provided with a channel inlet 10 connected to the water source. Hot water of a different temperature may be supplied from the channel outlet 7 of each water tank 21.

The evaporator 4 is composed of an indirect cooling evaporator 41 and a direct cooling evaporator 42. An indirect cooling evaporator 41 and a case 43 are provided. The case 43 is provided with a cold water inlet 44 and an outlet 45, and a direct cooling evaporator 42 is provided with a fan 46.

The compressor 1, the cooler 2, the throttle valve 3, and the evaporator 4 described above are incorporated in the case 8.

3 is an embodiment in which the cooler 2 is incorporated in the independent case 9. The case 9 is provided with an inlet 11 and an outlet 12 of the cooling medium, an inlet 10 and an outlet 7 of the water channel. Each cooler is connected to the tangential 13 of the temperature sensor is used for temperature sensing and control.

Claims (5)

Compressor, cooler, throttle valve, and evaporator connected to each other, the plurality of coolers, each of the plurality of coolers consists of a water tank and the radiator inside the water tank, each of the water tank inlet and outlet Heat pump type water heater using heat energy in the air installed. The method of claim 1, wherein the evaporator is composed of an indirect cooling evaporator and a direct cooling evaporator, the indirect cooling evaporator has a case, the case is provided with a cold water inlet, the direct cooling evaporator is a heat pump using heat energy in the air installed fan Type water heater. The heat pump type water heater according to claim 1, wherein the water tanks of the plurality of coolers use heat energy in the air, which are interconnected in series to the water channel. The heat pump type water heater according to any one of claims 1 to 3, wherein the compressor, the cooler, the throttle valve, and the evaporator use heat energy in the air installed in the case. The heat pump type water heater according to claim 1, wherein the cooler is embedded in its case, and the case has a refrigerant inlet and a water outlet.

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