CN201028872Y - Central air-conditioning system freely providing high-temperature hot water for 24 hours - Google Patents

Abstract

The utility model discloses a center air conditioning system which provides high-temperature freely for 24 hours. A first compressor is communicated with a first cooling heat exchanger and a first evaporation heat exchanger through a four-port valve. a first throttling device is respectively communicated with the first cooling heat exchanger and the first evaporation heat exchanger. The first cooling heat exchanger is communicated with a living water tank through valves A1 and A2, and the underground water is communicated with the first cooling heat exchanger and the living water tank through valves E1 and E2; the first evaporation heat exchanger is communicated with the indoor water tank through valves C1 and C2. A second compressor is respectively communicated with a second cooling heat exchanger and a second evaporation heat exchanger, and a second throttling device respectively communicated with the second cooling heat exchanger and the second evaporation heat exchanger, with the second evaporation heat exchanger communicated with the underground water through valves D1 and D2 and the second cooling heat exchanger communicated with the living water tank through the valves B1 and B2. The utility model not only avoids the waste of the heat but also is very convenient for the use of the high-temperature water by the users.

Description

Twenty four hours provides the central air conditioner system of free high-temperature-hot-water

Technical field

The utility model belongs to the central air-conditioning technical field, and particularly a kind of twenty four hours provides the central air conditioner system of free high-temperature-hot-water.

Background technology

In present most of commercial building, hotel and the part residential building central air-conditioning is installed all, be used for warming oneself in summer refrigeration and winter, brought an office and a living environment as snug as a bug in a rug to everybody, but a large amount of heat energy that the central air-conditioning unit of prior art is produced have been wasted when refrigeration.

The utility model content

In order to overcome the deficiencies in the prior art, the purpose of this utility model provides a kind ofly to be utilized the heat energy that the central air-conditioning unit produced and extract the central air conditioner system that the heat twenty four hours provides free high-temperature-hot-water from underground water when refrigeration.

The technical scheme that the utility model adopted is: twenty four hours provides the central air conditioner system of free high-temperature-hot-water to comprise first compressor 1, cross valve 2, first cooling heat exchanger 3, first throttle device 4, first evaporating heat exchanger 5, second compressor 6, second cooling heat exchanger 7, second throttling arrangement 8, second evaporating heat exchanger 9; First compressor 1 is communicated with first cooling heat exchanger 3 and first evaporating heat exchanger 5 respectively by cross valve 2; First throttle device 4 is communicated with first cooling heat exchanger 3 and first evaporating heat exchanger 5 respectively; First cooling heat exchanger 3 is communicated with by valve A1, A2 and water supply tank; Underground water is communicated with pipeline between first cooling heat exchanger 3 and the water supply tank by valve E1, E2; First evaporating heat exchanger 5 is communicated with the room water tank by valve C1, C2; Second compressor 6 is communicated with second cooling heat exchanger 7 and second evaporating heat exchanger 9 respectively; Second throttling arrangement 8 is communicated with second cooling heat exchanger 7 and second evaporating heat exchanger 9 respectively; Second evaporating heat exchanger 9 is communicated with underground water by valve D1, D2; Second cooling heat exchanger 7 is communicated with water supply tank by valve B1, B2;

The beneficial effects of the utility model are: effectively utilizing the heat energy that the central air-conditioning unit time produced in refrigeration and extract the heat twenty four hours from underground water provides free high-temperature-hot-water, function with Waste Heat Recovery, the utility model have not only been avoided the also very user-friendly high-temperature-hot-water of the waste of heat energy.

Description of drawings

Below in conjunction with accompanying drawing the utility model is described further.

Fig. 1 is a structured flowchart of the present utility model.

The specific embodiment

The utility model provides a kind of twenty four hours that the central air conditioner system of free high-temperature-hot-water is provided, in structured flowchart shown in Figure 1, this system comprises first compressor 1, cross valve 2, first cooling heat exchanger 3, first throttle device 4, first evaporating heat exchanger 5, second compressor 6, second cooling heat exchanger 7, second throttling arrangement 8, second evaporating heat exchanger 9; First compressor 1 is communicated with first cooling heat exchanger 3 and first evaporating heat exchanger 5 respectively by cross valve 2; First throttle device 4 is communicated with first cooling heat exchanger 3 and first evaporating heat exchanger 5 respectively; First cooling heat exchanger 3 is communicated with by valve A1, A2 and water supply tank; Underground water is communicated with pipeline between first cooling heat exchanger 3 and the water supply tank by valve E1, E2; First evaporating heat exchanger 5 is communicated with the room water tank by valve C1, C2; Second compressor 6 is communicated with second cooling heat exchanger 7 and second evaporating heat exchanger 9 respectively; Second throttling arrangement 8 is communicated with second cooling heat exchanger 7 and second evaporating heat exchanger 9 respectively; Second evaporating heat exchanger 9 is communicated with underground water by valve D1, D2; Second cooling heat exchanger 7 is communicated with water supply tank by valve B1, B2.

Operation logic

During refrigeration: cold-producing medium is carried by cross valve 2 by first compressor 1 and through getting back to first compressor 1 by cross valve 2 again behind first cooling heat exchanger 3, first throttle device 4 and first evaporating heat exchanger 5, Open valve A1, A2 and C1, C2, valve-off E1, E2.

When the room water tank did not reach design temperature if the water supply tank temperature reaches design temperature, automatic-closing valve A1, A2 opened the circulation of valve E1, E2 and underground water simultaneously.Automatic-closing valve E1, E2 Open valve A1, A2 when the water supply tank water temperature drops to a certain design temperature.

The used heat that should be discharged in first cooling heat exchanger 3 during refrigeration in the Nature circulates by water pump and water supply tank, can produce hot water in water supply tank, has realized that the used heat utilization obtains free hot water.

In heating operation principle in winter: cold-producing medium carry by cross valve 2 by first compressor 1 and through first evaporating heat exchanger 5, first throttle device 4 and first cooling heat exchanger 3 after get back to first compressor 1 by cross valve 2 again, open valve C1, C2 and E1, E2, valve-off A1, A2.

Hot water supply system's operation logic: cold-producing medium is by 6 conveyings of second compressor and through getting back to second compressor 6, Open valve B1, B2 and D1, D2 behind second cooling heat exchanger 7, second throttling arrangement 8 and second evaporating heat exchanger 9.

Extract the heat twenty four hours from underground water the domestic hot-water is provided, high temperature can reach 70 ℃.

Claims (1)

1. twenty four hours provides the central air conditioner system of free high-temperature-hot-water, comprise first compressor (1), cross valve (2), first cooling heat exchanger (3), first throttle device (4), first evaporating heat exchanger (5), second compressor (6), second cooling heat exchanger (7), second throttling arrangement (8), second evaporating heat exchanger (9), it is characterized in that: first compressor (1) is communicated with first cooling heat exchanger (3) and first evaporating heat exchanger (5) respectively by cross valve (2); First throttle device (4) is communicated with first cooling heat exchanger (3) and first evaporating heat exchanger (5) respectively; First cooling heat exchanger (3) is communicated with by valve A1, A2 and water supply tank; Underground water is communicated with pipeline between first cooling heat exchanger (3) and the water supply tank by valve E1, E2; First evaporating heat exchanger (5) is communicated with the room water tank by valve C1, C2; Second compressor (6) is communicated with second cooling heat exchanger (7) and second evaporating heat exchanger (9) respectively; Second throttling arrangement (8) is communicated with second cooling heat exchanger (7) and second evaporating heat exchanger (9) respectively; Second evaporating heat exchanger (9) is communicated with underground water by valve D1, D2; Second cooling heat exchanger (7) is communicated with water supply tank by valve B1, B2.

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