CN2896123Y - Heat-pump water heater - Google Patents

Abstract

The utility model discloses a heat-pump water heater which can not only produce hot water but also utilize the cold energy produced, comprises a refrigerant circulation system composed of a compressor, a condenser, a throttling device, and an evaporator. The evaporator connects with an air duct system. Through the air duct system, the cold energy produced by the evaporator can be delivered to rooms and other places to be utilized. The air duct system adopts a tee-air-duct system including one inlet and two outlets. When cooling is required in the room in summer, the trap door can be adjusted to communicate with the air duct to the room to enable the cooled air to flow into the room; inversely, when cooling is no longer required in the room in winter, the trap door can be adjusted to communicate with the air duct to outdoor to introduce the cooled air to flow outside the room. The utility model not only produces hot water but also provides cooling for the room without any additional energy consumption which greatly increases the comprehensive utilization rate of energy resources, and can provide such virtues as simple structure and low cost, and is especially applicable to be used in present heat-pump water heater.

Description

Teat pump boiler

Affiliated technical field

The utility model relates to a kind of water heater, especially relates to a kind of Teat pump boiler.

Background technology

Water heater has developed electric heater, gas heater, solar water heater, Teat pump boiler, and the range of application with Teat pump boiler is the widest at present, comprehensive utilization of energy is most effective, thereby Teat pump boiler is very fast as the new industry development.The coolant circulating system that known Teat pump boiler structure is made up of compressor, condenser, throttling arrangement, evaporimeter, the water system that water intaking valve, water tank, outlet valve are formed, the wind system that motor, aerofoil fan are formed, and electric-controlled parts four most of compositions.But the heat that present Teat pump boiler has only utilized unit to produce, the cold that does not utilize unit to produce has caused the waste of the part energy, is not energy-conservation preferred plan.

Summary of the invention

Technical problem to be solved in the utility model provides a kind of Teat pump boiler that can produce hot water and can utilize the cold that produces.

The technical scheme that its technical problem that solves the utility model adopts is: this Teat pump boiler comprises compressor, is arranged on the coolant circulating system that condenser, throttling arrangement, evaporimeter in the water tank connect and compose, and evaporimeter wherein is connected with ducting system.By ducting system, the cold that evaporimeter can be produced be transported to occasion such as room and utilize.

As to further improvement in the technical proposal, ducting system adopts three air duct systems with an import and two outlets, and three air duct systems are changed adjusting by air door to two outlet keyings each other.When Teat pump boiler moved, the heat that unit produces was used for the water of heating water tank, and the cold of generation is used for the air that cool stream pervaporation device flows to three air duct systems again.When needed cold in the room summer, adjustable damper was led to the air channel in the room, and cooled air is flowed in the room; Otherwise when do not need cold in the room winter, adjustable damper was led to the air channel outside the room, and cooled air is flowed to outside the room.

The beneficial effects of the utility model are: owing to adopted evaporimeter is connected with ducting system, especially the technical scheme that is connected with three air duct systems, can be when utilizing Teat pump boiler to produce hot water, under the prerequisite that does not increase energy resource consumption, provide cold for the room, improve the comprehensive utilization of energy rate greatly, and have advantage simple in structure, with low cost, be particularly suitable on existing Teat pump boiler, using.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is a schematic diagram of the present utility model.

Fig. 2 is an assembly structure explosive view of the present utility model.

Fig. 3 is the assembly structure explosive view of three air duct systems in the utility model.

Be labeled as among the figure: cover plate 1, condenser 2, electric-controlled parts 3, compressor 4, base plate 5, evaporimeter 6, three air duct systems 7, water tank 8, housing 9, air door 10, three ventilation ducts 11, wind scooper 12, centrifugal fan 13, motor 14, spiral case air channel 15, handle 16, throttling arrangement 17.

Arrow among the figure: For refrigerant flows to;

The flow direction for water;

Be air flow.

The specific embodiment

Shown in Fig. 1～3, Teat pump boiler of the present utility model, its compressor 4, be arranged on condenser 2 in the water tank 8, throttling arrangement 17, evaporimeter 6 and be rigidly connected into coolant circulating system by pipeline, the water inlet of water tank and running water pipe network are rigidly connected, and the water in the water tank flows in water tank by the pressure that the running water pipe network provides.Evaporimeter 6 is connected with ducting system, and air flows through evaporimeter 6 earlier and is cooled after wind tube outlet on the ducting system flows out, and utilizes thereby the cold that evaporimeter produces is transported to occasion such as room.

In order to reach purpose practical more, that make things convenient for the user to use, ducting system can adopt three air duct systems, 7, three air duct systems 7 with an import and two outlets to change adjusting by 10 pairs two outlet keyings each other of air door.The air-out of an outlet of three air duct systems 7 is communicated with the occasion that needs the conveying cold, and another outlet is in communication with the outside.When needing cold in the room, adjustable damper 10 is delivered to cooled air in the room; Otherwise when not needing cold in the room, adjustable damper 10 is delivered to cooled air outside the room, as shown in Figure 1.

Above-mentioned three air duct systems 7 can adopt multiple structure and form is set, for example, three air duct systems 7 comprise the wind scooper 12 that is arranged on the spiral case air channel 15, by centrifugal fan 13, three ventilation ducts 11 that motor 14 drives, air door 10 is arranged on two exits of three ventilation ducts 11 and regulates by handle 16.

For easy to install, coolant circulating system, three air duct systems 7 and water tank 8 thereof can be assembled into an integrally-built product, for example, as shown in Figure 2, compressor 4, throttling arrangement 17, condenser 2 and evaporimeter 6 are rigidly connected into coolant circulating system by pipeline, are rigidly attached to base plate 5 with water tank 8, three air duct systems 7 again.Wherein condenser 2 is sealed in the water tank 8; Three air duct systems 7 fit tightly with the lee face of evaporimeter 6 simultaneously and are rigidly connected, and flow to three air duct systems 7 fully after air is cooled.

As Fig. 1～shown in Figure 3, centrifugal fan 13 is with after motor 14 flexible and rotatable are connected, place in the spiral case air channel 15 and and be rigidly connected with it, wind scooper 12 and spiral case air channel 15 air inlets fit tightly and are rigidly connected, the air inlet of the air outlet in spiral case air channel 15 and three ventilation ducts 11 fits tightly and is rigidly connected, air door 10 is rotatable to be arranged in three ventilation ducts 12 and corresponding with the position of air outlet, and an end and the handle 13 of air door 10 are rigidly connected.

Claims (4)

1, Teat pump boiler comprises compressor (4), is arranged on the coolant circulating system that condenser (2), throttling arrangement (17), evaporimeter (6) in the water tank (8) connect and compose, and it is characterized in that: evaporimeter (6) is connected with ducting system.

2, Teat pump boiler as claimed in claim 1, it is characterized in that: ducting system adopts three air duct systems (7) with an import and two outlets, and three air duct systems (7) are changed adjusting by air door (10) to two outlet keyings each other.

3, Teat pump boiler as claimed in claim 2, it is characterized in that: three air duct systems (7) comprise the wind scooper (12) that is arranged on the spiral case air channel (15), by centrifugal fan (13), three ventilation ducts (11) that motor (14) drives, and air door (10) is arranged on two exits of three ventilation ducts (11) and regulates by handle (16).

4, Teat pump boiler as claimed in claim 2 is characterized in that: coolant circulating system, three air duct systems (7) and water tank (8) thereof are assembled into an integral body.

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