CN203907838U - Air conditioner capable of supplying cold and hot water - Google Patents

Abstract

The utility model provides an air conditioner capable of supplying cold and hot water, and the air conditioner mainly consists of an outdoor unit and an indoor cabinet. The outdoor unit is provided with a compressor and a four-way valve, and the indoor cabinet mainly comprises a housing, a fan, an evaporator, and a controller. The indoor cabinet is provided with a water dispenser. The purpose that one faucet supplies hot water and the other faucet supplies cold water is achieved through the heat exchange of a first heat exchange chamber with a second heat exchange chamber. The air conditioner can effectively employ the residual heat or cold energy to facilitate the heating or cooling of water in use.

Description

The air conditioner of hot and cold water can be provided

Technical field

The utility model relates to a kind of air conditioner that hot and cold water can be provided, and belongs to the optimisation technique of floor air conditioner.

Background technology

Existing floor air conditioner only has refrigeration and/or refrigerating function conventionally, for the temperature in conditioning chamber.The indoor water dispenser that conventionally also can be provided with is for providing hot water and cold water.Two equipment completely independently, floor space is large, and input cost is relative also higher, if can utilize the refrigeration of air-conditioning and heat-production functions to come chilled water and hot water, that just not only reduces the floor space of water dispenser, can also make full use of the remaining cold of air-conditioning and heat, improve the utilization rate of air-conditioning.

Therefore, need to find a kind of air conditioner that hot and cold water can be provided.

Summary of the invention

The purpose of this utility model is to provide the better a kind of air regulator of the larger adjusting temperature effect of a kind of blowing range.

The technical solution of the utility model is: a kind of air conditioner that hot and cold water can be provided, air conditioner is mainly comprised of off-premises station and indoor machine cabinet, in off-premises station, be provided with compressor 1 and cross valve 2, indoor machine cabinet mainly comprises shell, blower fan, evaporimeter 3 and controller, on indoor machine cabinet, be also provided with water dispenser, water dispenser is connected with water source 6; Described water dispenser mainly comprises the first Heat Room 4, First Heat Exchanger 41, the first heat exchanger tube 42, the first tap 43, the second Heat Room 5, the second heat exchanger 51, the second heat exchanger tube 52, the second tap 53; In the first Heat Room and the second Heat Room, fill energy-storage liquid; First Heat Exchanger, the first heat exchanger tube are immersed in the energy-storage liquid of the first Heat Room, and one end of the first heat exchanger tube is connected with water source, and the other end and the first tap are connected, and the water at water source flows to the first tap 43 after by the first heat exchanger tube 42 heat exchange; The second heat exchanger, the second heat exchanger tube are immersed in the energy-storage liquid in the second Heat Room, and one end of the second heat exchanger tube is connected with water source, and the other end and the second tap are connected, and the water at water source flows to the second tap 53 after by the second heat exchanger tube 52 heat exchange; The first tap and the second tap are located at outer shell outer wall; First Heat Exchanger is connected with a port of cross valve, and the other end is connected with condenser 7; The second heat exchanger is connected with another port of cross valve, and the other end is connected with the second triple valve; Condenser 7 one end are connected with First Heat Exchanger, the other end is connected with the first triple valve by choke valve, the Chang Kaiduan of the first triple valve is connected with evaporimeter 3, the normal-closed end of the first triple valve is connected with the normal-closed end of the second triple valve by pipeline, one end of evaporimeter 3 is connected with the Chang Kaiduan of the first triple valve, and the other end is connected with the Chang Kaiduan of the second triple valve; Condenser and choke valve are arranged on outdoor; Refrigerant carries out heat exchange while flowing through the first hot device or the second heat exchanger, heat or cold are passed to energy-storage liquid, energy-storage liquid passes to the water in corresponding the first heat exchanger tube or the second heat exchanger tube by heat or cold again, make water heating or turn cold, accordingly, from the water of the first tap or the second tap outflow, be exactly hot water or cold water.

Described energy-storage liquid is selected water or freezing liquid or oil.

Described water source is running water or water tank or bucket.

Condenser and choke valve are placed in off-premises station.

Beneficial effect

1, on indoor machine cabinet, be provided with water dispenser, by the first Heat Room and the second Heat Room heat exchange, realize a dragon

Head goes out hot water, and a tap goes out cold water; Remaining heat or cold side in the time of can effectively utilizing air-conditioning work

Help water heating or refrigeration;

2, water dispenser is arranged on indoor machine cabinet, has saved the interior space.

Accompanying drawing explanation

Fig. 1 is the utility model stereoscopic schematic diagram;

Fig. 2 is fundamental diagram of the present utility model.

The specific embodiment

As shown in Fig. 1 and Fig. 2, a kind of air conditioner that hot and cold water can be provided, air conditioner is mainly comprised of off-premises station and indoor machine cabinet.In off-premises station, be provided with compressor 1 and cross valve 2, indoor machine cabinet mainly comprises shell, blower fan, evaporimeter 3 and controller.

On indoor machine cabinet, be also provided with water dispenser, water dispenser is connected with water source 6; Described water dispenser mainly comprises the first Heat Room 4, First Heat Exchanger 41, the first heat exchanger tube 42, the first tap 43, the second Heat Room 5, the second heat exchanger 51, the second heat exchanger tube 52, the second tap 53.

In the first Heat Room and the second Heat Room, fill energy-storage liquid, can either store up cold also can store heat.

First Heat Exchanger, the first heat exchanger tube are immersed in the energy-storage liquid of the first Heat Room, one end of the first heat exchanger tube is connected with water source, the other end is connected with the first tap, the water at water source flows to the first tap 43 after by the first heat exchanger tube 42 heat exchange, therefore, open the first tap, just have hot water or cold water out.The water yield of hot water or cold water depends on the capacity of heat exchanger tube, and what after hot water or cold water have flowed, flowed out is exactly normal-temperature water again, needs heating or refrigeration just need to wait for heat exchange.

The second heat exchanger, the second heat exchanger tube are immersed in the energy-storage liquid in the second Heat Room, and one end of the second heat exchanger tube is connected with water source, and the other end and the second tap are connected, and the water at water source flows to the second tap 53 after by the second heat exchanger tube 52 heat exchange.

The first tap and the second tap are located at outer shell outer wall, just open and can receive water.

First Heat Exchanger is connected with a port of cross valve, and the other end is connected with condenser 7; The second heat exchanger is connected with another port of cross valve, and the other end is connected with the second triple valve; Condenser 7 one end are connected with First Heat Exchanger, the other end is connected with the first triple valve by choke valve, the Chang Kaiduan of the first triple valve is connected with evaporimeter 3, the normal-closed end of the first triple valve is connected with the normal-closed end of the second triple valve by pipeline, one end of evaporimeter 3 is connected with the Chang Kaiduan of the first triple valve, and the other end is connected with the Chang Kaiduan of the second triple valve; Condenser and choke valve are arranged on outdoor.

Refrigerant carries out heat exchange while flowing through the first hot device or the second heat exchanger, heat or cold are passed to energy-storage liquid, energy-storage liquid passes to the water in corresponding the first heat exchanger tube or the second heat exchanger tube by heat or cold again, make water heating or turn cold, accordingly, from the water of the first tap or the second tap outflow, be exactly hot water or cold water.

During air conditioner refrigeration, refrigerant flows into First Heat Exchanger 41 heat exchange from compressor through cross valve, heat is absorbed and conducts to the first heat exchanger tube by the energy-storage liquid in the first Heat Room 4, water in the first heat exchanger tube is heated, what open the first tap outflow is exactly hot water, then refrigerant flows to condenser 7 heat exchange, through choke valve, enter the first triple valve 31 again, from the normal beginning, entering evaporimeter 3 freezes, by blower fan, outwards blow out cold air, entering the second triple valve from the normal beginning again, flow into the second heat exchanger 51 heat exchange, cold is absorbed and conducts to the second heat exchanger tube by the energy-storage liquid in the second Heat Room, water in the second heat exchanger tube is turned cold, what open the second tap outflow is exactly cold water, refrigerant flows back to compressor from the second heat exchanger through cross valve again, so move in circles.

During air-conditioning heating, the reverse circulation of refrigerant, from compressor, flow out and enter the second heat exchanger 51 heat exchange by cross valve, heat is absorbed and conducts to the second heat exchanger tube by the energy-storage liquid in the second Heat Room, make the water heating in the second heat exchanger tube, what open the second tap outflow is exactly hot water, refrigerant flows out and enters the second triple valve 32 from the second heat exchanger, from the normal beginning, entering evaporimeter 3 heats, blower fan blows out hot blast, refrigerant enters from the Chang Kaiduan of the first triple valve again, through choke valve, enter condenser 7 heat exchange, flow into again First Heat Exchanger heat exchange, cold is absorbed and conducts to the first heat exchanger tube by the energy-storage liquid in the first Heat Room 4, make the water in the first heat exchanger tube cooled, what open the first tap outflow is exactly cold water, refrigerant is flowed through after cross valve and is got back to compressor, so move in circles.

When air-conditioning is not worked, water dispenser needs work, there are two kinds of operating modes, a kind of while being summer, refrigerant flows into First Heat Exchanger 41 heat exchange from compressor through cross valve, heat is absorbed and conducts to the first heat exchanger tube by the energy-storage liquid in the first Heat Room 4, water in the first heat exchanger tube is heated, then refrigerant flows to condenser 7 heat exchange, through choke valve, enter the first triple valve 31 again, from normal-closed end, flow to the normal-closed end of the second triple valve, from the second triple valve, flow into heat exchange in the second heat exchanger, cold is absorbed and conducts to the second heat exchanger tube by the energy-storage liquid in the second Heat Room, water in the second heat exchanger tube is turned cold, refrigerant flows back to compressor from the second heat exchanger through cross valve again, so move in circles, a kind of while being winter, the reverse circulation of refrigerant, from compressor, flow out and enter the second heat exchanger 51 heat exchange by cross valve, heat is absorbed and conducts to the second heat exchanger tube by the energy-storage liquid in the second Heat Room, make the water heating in the second heat exchanger tube, refrigerant flows out and enters the second triple valve 32 from the second heat exchanger, from normal-closed end, enter the normal-closed end of the first triple valve, from the first triple valve, flow into choke valve again, enter again condenser 7, flow into again First Heat Exchanger heat exchange, cold is absorbed and conducts to the first heat exchanger tube by the energy-storage liquid in the first Heat Room 4, make the water in the first heat exchanger tube cooled, refrigerant is flowed through after cross valve and is got back to compressor, so move in circles.

Described energy-storage liquid is selected water or freezing liquid or oil.

Described water source is running water or water tank or bucket.

Condenser and choke valve are placed in off-premises station.

Above-described embodiment is only for interpretation purposes of the present utility model; and be not to restriction of the present utility model, those skilled in the art, in essential scope of the present utility model; make a variety of changes or substitute, also should belong to protection category of the present utility model.

Claims (4)

1. the air conditioner that hot and cold water can be provided, air conditioner is mainly comprised of off-premises station and indoor machine cabinet, in off-premises station, be provided with compressor (1) and cross valve (2), indoor machine cabinet mainly comprises shell, blower fan, evaporimeter (3) and controller, it is characterized in that: on indoor machine cabinet, be also provided with water dispenser, water dispenser is connected with water source (6); Described water dispenser mainly comprises the first Heat Room (4), First Heat Exchanger (41), the first heat exchanger tube (42), the first tap (43), the second Heat Room (5), the second heat exchanger (51), the second heat exchanger tube (52), the second tap (53); In the first Heat Room and the second Heat Room, fill energy-storage liquid; First Heat Exchanger, the first heat exchanger tube are immersed in the energy-storage liquid of the first Heat Room, and one end of the first heat exchanger tube is connected with water source, and the other end and the first tap are connected, and the water at water source flows to the first tap (43) after by the first heat exchanger tube (42) heat exchange; The second heat exchanger, the second heat exchanger tube are immersed in the energy-storage liquid in the second Heat Room, and one end of the second heat exchanger tube is connected with water source, and the other end and the second tap are connected, and the water at water source flows to the second tap (53) after by the second heat exchanger tube (52) heat exchange; The first tap and the second tap are located at outer shell outer wall; First Heat Exchanger is connected with a port of cross valve, and the other end is connected with condenser (7); The second heat exchanger is connected with another port of cross valve, and the other end is connected with the second triple valve; Condenser (7) one end is connected with First Heat Exchanger, the other end is connected with the first triple valve by choke valve, the Chang Kaiduan of the first triple valve is connected with evaporimeter 3, the normal-closed end of the first triple valve is connected with the normal-closed end of the second triple valve by pipeline, one end of evaporimeter 3 is connected with the Chang Kaiduan of the first triple valve, and the other end is connected with the Chang Kaiduan of the second triple valve; Condenser and choke valve are placed in outdoor; Refrigerant carries out heat exchange while flowing through the first hot device or the second heat exchanger, heat or cold are passed to energy-storage liquid, energy-storage liquid passes to the water in corresponding the first heat exchanger tube or the second heat exchanger tube by heat or cold again, make water heating or turn cold, accordingly, from the water of the first tap or the second tap outflow, be exactly hot water or cold water.

2. the air conditioner that hot and cold water can be provided according to claim 1, is characterized in that: described energy-storage liquid is selected water or freezing liquid or oil.

3. the air conditioner that hot and cold water can be provided according to claim 1, is characterized in that: described water source is running water or water tank or bucket.

4. the air conditioner that hot and cold water can be provided according to claim 1, is characterized in that: condenser and choke valve are placed in off-premises station.