CN201145449Y

CN201145449Y - Triune intelligent type ground source heat pump air conditioner system

Info

Publication number: CN201145449Y
Application number: CNU2007203032828U
Authority: CN
Inventors: 王其坤
Original assignee: HANGZHOU GROUND SOURCE AIR-CONDITIONING RESEARCH INSTITUTE Co Ltd
Current assignee: Zhejiang Diyuan Energy Environment Co., Ltd.
Priority date: 2007-12-24
Filing date: 2007-12-24
Publication date: 2008-11-05
Anticipated expiration: 2017-12-24

Abstract

The utility model discloses a triune intelligent geothermal heat pump air conditioning system. In the utility model, an evaporator and a condenser of a heat pump unit are connected with a compressor and a throttle valve to form a loop. A heat exchange pipeline of the evaporator and a heat exchange pipeline of the condenser adopt an automatic switching mechanism to switch between an underground buried pipe and the tail end of an indoor air conditioner, so that the system has a winter operating mode, a summer operating mode and a spring-autumn operating mode, wherein, the automatic switching mechanism comprises an electric ball valve arranged on a pipeline and a circulating water pump, and the heat exchange pipeline of the condenser can be utilized to prepare domestic hot water under the three modes. The triune intelligent geothermal heat pump air conditioning system has a systematized structure and intelligentized function.

Description

Trinitarian intelligent geothermal heat pump air-conditioning system

Technical field

The utility model relates to a kind of Trinitarian intelligent geothermal heat pump air-conditioning system.

Background technology

In the prior art, the Trinitarian intelligent geothermal heat pump air-conditioning system that technical scheme is comparatively ripe does not appear on the market as yet.The applicant applied for the patent of by name " ecological energy saving air-conditioning system device " on February 2nd, 2007, and (application number: 200720106189.8), pair air-conditioning system device frame description is arranged wherein, not enough systematization of its structure and function are intelligent inadequately.

Summary of the invention

The utility model mainly is to solve above-mentioned existing in prior technology technical problem, and a kind of Trinitarian intelligent geothermal heat pump air-conditioning system is provided.

Above-mentioned technical problem of the present utility model is mainly solved by following technical proposals: a kind of Trinitarian intelligent geothermal heat pump air-conditioning system, comprise source pump and room air conditioner end, the evaporimeter of source pump, condenser connect and compose a loop via compressor and choke valve, when described air-conditioning system is moved in the winter time, the heat exchange pipeline of evaporimeter is communicated to underground buried tube, one road heat exchange pipeline of condenser is communicated to the room air conditioner end, and another road heat exchange pipeline is communicated to heat storage water tank; There is water circulating pump to be connected between the heat exchange pipeline of underground buried tube and evaporimeter, water circulating pump places in the source pump, there is water circulating pump to be connected between one road heat exchange pipeline of condenser and the room air conditioner end, water circulating pump places in the source pump, have water circulating pump to be connected between another road heat exchange pipeline of condenser and the heat storage water tank, water circulating pump places in the source pump.

Described air-conditioning system is when summer operation, and the heat exchange pipeline of evaporimeter is communicated to the room air conditioner end, and one road heat exchange pipeline of condenser is communicated to underground buried tube, and another road heat exchange pipeline is communicated to the hot water storage tank; There is water circulating pump to be connected between the heat exchange pipeline of evaporimeter and the room air conditioner end, water circulating pump places in the source pump, there is water circulating pump to be connected between one road heat exchange pipeline of condenser and the underground buried tube, water circulating pump places in the source pump, have water circulating pump to be connected between another road heat exchange pipeline of condenser and the heat storage water tank, water circulating pump places in the source pump.

Described air-conditioning system is moved at spring and autumn, and when the room air conditioner end was stopped using, the heat exchange pipeline of evaporimeter was communicated to underground buried tube, and two road heat exchange pipelines of condenser are cascaded automatically and are communicated to heat storage water tank; There is water circulating pump to be connected between the heat exchange pipeline of underground buried tube and evaporimeter, water circulating pump places in the source pump, there is water circulating pump to be connected between one road heat exchange pipeline of condenser and the room air conditioner end, water circulating pump places in the source pump, have water circulating pump to be connected between another road heat exchange pipeline of condenser and the heat storage water tank, water circulating pump places in the source pump.When the room air conditioner end used, the system works principle was consistent with the winter operation pattern.

The heat exchange pipeline of described evaporimeter and the heat exchange pipeline of condenser all adopt mechanism for automatically switching to switch between underground buried tube and room air conditioner end, and described mechanism for automatically switching comprises electrical ball valve and the water circulating pump that is arranged on the pipeline.

The Trinitarian geothermal heat pump air-conditioning system device of the utility model operation principle is such:

1, during winter mode winter heating, the medium (as water, temperature is substantially constant at 10 ℃-18 ℃) in the underground buried tube part carries out cold and hot exchange with the medium in the evaporimeter, as heat releasing source.Evaporate in evaporimeter by cold-producing medium, absorb the heat of underground buried tube part medium, medium back flow to underground continuation absorbs heat.After the cold-producing medium process source pump compressor compresses, become the overheated gas of HTHP, enter condenser.The condenser medium is by heat exchanger, and one the tunnel is connected to the room air conditioner end is indoor heating, and another road is connected to heat storage water tank can be in order to the preparation domestic hot-water, and the domestic hot-water arrives certain temperature (as being set at 55 ℃), and the domestic hot-water stops preparation.When air-conditioning is not enabled, can be all in order to the preparation domestic hot-water.The intelligent operation pattern is for when ends such as room air conditioner start, and source pump is together with the automatic interlock operation of water circulating pump; When terminal all closing the stopping time such as room air conditioners, source pump is closed down together with the automatic interlock of water circulating pump.System can automatically switch according to terminal operational modes (refrigerating/heating) such as room air conditioners.

When 2, summer mode was freezed summer, the medium (as water, temperature is substantially constant at 25 ℃-30 ℃) in the underground buried tube part carried out cold and hot exchange with the medium in the condenser, as heat sink.Evaporate in evaporimeter by cold-producing medium, the heat of water in the absorbent refrigeration system for building provides chilled water, freezes.Cold-producing medium becomes high temperature and high pressure steam through after the source pump compressor compresses, enters condenser, carries out heat exchange with water or other medium in the condenser.A waste heat part that exchanges reclaims by a pipeline heat exchanger of condenser, freely prepares the domestic hot-water, and the domestic hot-water reaches certain temperature (as being set at 45 ℃), and system's automatic switchover (stopping to prepare the domestic hot-water) is extremely underground with all the other hot types.The intelligent operation pattern is for when the room air conditioner end starts, and source pump is together with the automatic interlock operation of water circulating pump; When terminal all closing the stopping time such as room air conditioners, source pump is closed down together with the automatic interlock of water circulating pump.System can automatically switch according to terminal operational modes (refrigerating/heating) such as room air conditioners.

3, spring and autumn, transition season was at the transition season in spring and autumn, and when air-conditioning was stopped using, the medium in the underground buried tube part carried out cold and hot exchange with the medium in (as water, temperature is substantially constant at 12 ℃-20 ℃) evaporimeter, as heat releasing source.Evaporate in evaporimeter by cold-producing medium, absorb the medium heat in the underground buried tube part, medium back flow to underground continuation absorbs heat.After the cold-producing medium process source pump compressor compresses, become the overheated gas of HTHP, enter condenser.The condenser medium, substitutes water heater and uses in order to the preparation domestic hot-water by the heat exchanger of two tunnel series connection.When the room air conditioner end used, the system works principle was consistent with the winter operation pattern.The intelligent operation pattern is for when ends such as room air conditioner start, and source pump is together with the automatic interlock operation of water circulating pump; When terminal all closing the stopping time such as room air conditioners, source pump is closed down together with the automatic interlock of water circulating pump.System can automatically switch according to terminal operational modes (refrigerating/heating) such as room air conditioners.

Description of drawings

Fig. 1 is a kind of structural representation of the present utility model;

A kind of structural representation when Fig. 2 is the utility model winter operation;

A kind of structural representation when Fig. 3 is the utility model summer operation;

A kind of structural representation when Fig. 4 is the operation of the utility model spring and autumn.

The specific embodiment

Below by embodiment, and in conjunction with the accompanying drawings, the technical solution of the utility model is described in further detail.

Embodiment: referring to Fig. 1, the utility model comprises source pump 2 and room air conditioner end 3, and the evaporimeter 4 of source pump 2, condenser 5 connect and compose a loop via compressor 6 and choke valve 7.The heat exchange pipeline of the heat exchange pipeline of evaporimeter 4 and condenser 5 all adopts mechanism for automatically switching 13 to switch between underground buried tube 1 and room air conditioner end 3, and wherein mechanism for automatically switching 13 comprises electrical ball valve 11 and the water circulating pump 12 that is arranged on the pipeline.

Referring to Fig. 2, when air-conditioning system is moved in the winter time, the heat exchange pipeline of evaporimeter 4 is communicated to underground buried tube 1, one road heat exchange pipeline 8 of condenser 5 is communicated to room air conditioner end 3, another road heat exchange pipeline 8 ' be communicated to hot water storage tank 9, cold water 10 is stored into hot water storage tank 9 after by heat exchange pipeline 8 ' heating, can use for daily life; Referring to Fig. 3, air-conditioning system is when summer operation, the heat exchange pipeline of evaporimeter 4 is communicated to room air conditioner end 3, one road heat exchange pipeline 8 of condenser 5 is communicated to underground buried tube 1, another road heat exchange pipeline 8 ' be communicated to hot water storage tank 9, cold water 10 is stored into hot water storage tank 9 after by heat exchange pipeline 8 ' heating, can use for daily life; Referring to Fig. 4, when air-conditioning system is moved at spring and autumn, room air conditioner end 3 is stopped using, the heat exchange pipeline of evaporimeter 4 is communicated to underground buried tube 1, two road heat exchange pipelines of condenser 5 are cascaded automatically and are communicated to hot water storage tank 9, cold water 10 is stored into hot water storage tank 9 after by heat exchange pipeline 8 ' heating, can use for daily life.

At last, should be pointed out that above embodiment only is the more representational example of the utility model.Obviously, the technical solution of the utility model is not limited to the foregoing description, and many distortion can also be arranged.For example, underground buried tube can be modified to the heat exchanger with air exchange, also can change to the heat exchanger by water-cooled cooling tower, boiler exchange.All distortion that those of ordinary skill in the art can directly derive or associate from the disclosed content of the utility model all should be thought protection domain of the present utility model.

Claims

1. Trinitarian intelligent geothermal heat pump air-conditioning system, comprise source pump (2) and room air conditioner end (3), the evaporimeter (4) of source pump (2), condenser (5) connect and compose a loop via compressor (6) and choke valve (7), it is characterized in that:

When described air-conditioning system was moved in the winter time, the heat exchange pipeline of evaporimeter (4) was communicated to underground buried tube (1), and one road heat exchange pipeline (8) of condenser (5) is communicated to room air conditioner end (3), and another road heat exchange pipeline (8 ') is communicated to heat storage water tank (9);

Described air-conditioning system is when summer operation, and the heat exchange pipeline of evaporimeter (4) is communicated to room air conditioner end (3), and one road heat exchange pipeline (8) of condenser (5) is communicated to underground buried tube (1), and another road heat exchange pipeline (8 ') is communicated to hot water storage tank (9);

Described air-conditioning system is moved at spring and autumn, and room air conditioner end (3) is when stopping using, and the heat exchange pipeline of evaporimeter (4) is communicated to underground buried tube (1), and two road heat exchange pipelines of condenser (5) are cascaded automatically and are communicated to heat storage water tank (9).

2. Trinitarian intelligent geothermal heat pump air-conditioning system according to claim 1, it is characterized in that: the heat exchange pipeline of the heat exchange pipeline of described evaporimeter (4) and condenser (5) all adopts mechanism for automatically switching (13) to switch between underground buried tube (1) and room air conditioner end (3), and described mechanism for automatically switching (13) comprises electrical ball valve (11) and the water circulating pump (12) that is arranged on the pipeline.