CN202792744U - Heat exchange type reservoir - Google Patents

Abstract

The utility model relates to a heat exchange type reservoir in the air conditioning device field. In the present, an air cooling cold (hot) water unit system is high in condensing temperature (generally 50 DEG C) and is low in evaporating temperature (generally 2 DEG C), a compressor is large in power consumption, and a unit is low in energy efficiency. According to the heat exchange type reservoir, a heat exchange coil pipe is arranged in a casing of the reservoir, high-pressure gas-liquid mixed refrigerants entering the reservoir and low-pressure gas-liquid mixed refrigerants entering the heat exchange coil pipe are subjected to heat exchange to achieve unit refrigerant undercooling and appropriate overheating, accordingly unit system condensing temperature is reduced ( by 2-3 DEG C), unit system evaporating temperature is improved ( by 2-3 DEG C), values of refrigerants (enthalpies) in circulation are increased, unit refrigerating capacity is improved by 17%, compressor power is reduced by 2.8%, and unit energy efficiency ratio is improved by 20%.

Description

A kind of heat exchange type reservoir

Technical field

The utility model relates to air-cooled cold (heat) water unit device for storing liquid in air-conditioning equipment field, particularly relates to a kind of air-cooled cold (heat) water unit heat exchange type reservoir.

Background technology

At present, air-cooled cold (heat) water unit is a kind ofly to provide cold in summer for the room, and the air-conditioning equipment of heat is provided winter.The advantages such as air-cooled cold (heat) water unit is simple in structure with it, and it is little to take up room, and management maintenance is convenient are widely used.But, the type machine set system condensation temperature higher (being generally 50 ℃), evaporating temperature lower (being generally 2 ℃), the compressor power consumption is larger, and unit eer is lower.

Summary of the invention

In order to improve the Energy Efficiency Ratio of air-cooled cold (heat) water unit, the utility model provides a kind of heat exchange type reservoir, a heat exchange coil is installed in the reservoir housing, make the high-pressure gas-liquid mix refrigerant that enters reservoir and the low-pressure gas-liquid mix refrigerant that enters heat exchange coil carry out heat exchange, realization machine set system cold-producing medium is crossed cold and suitably overheated, thereby reduces the machine set system condensation temperature, improves evaporating temperature, increase cold-producing medium (enthalpy) value in the circulation, improve the air-conditioning unit eer.

The technical scheme that its technical problem that solves the utility model adopts is: a heat exchange coil is installed in the reservoir housing, make the high-pressure gas-liquid mix refrigerant that enters reservoir and carry out heat exchange from evaporimeter low-pressure gas-liquid mix refrigerant out by heat exchange coil, realization machine set system cold-producing medium is crossed cold and overheated, improves unit eer.

The beneficial effects of the utility model are: a heat exchange coil is installed in the reservoir housing, make the high-pressure gas-liquid mix refrigerant that enters reservoir and the low-pressure gas-liquid mix refrigerant that enters heat exchange coil carry out heat exchange, realization unit cold-producing medium is crossed cold and suitably overheated, thereby reduce machine set system condensation temperature (2-3 ℃), improve evaporating temperature (2-3 ℃), increase cold-producing medium (enthalpy) value in the circulation, the unit refrigerating capacity improves 17%, compressor horsepower reduces by 2.8%, and unit eer improves 20%.

The utility model can be widely used in air-cooled cold (heat) water unit.

Description of drawings

Accompanying drawing is schematic diagram of the present utility model.

Among the figure: 1-reservoir, 2-heat exchange coil.

The specific embodiment

As shown in drawings, heat exchange coil 2 is installed in reservoir 1 housing, heat exchange coil 2 access low-pressure gas-liquid mix refrigerants.

Claims (1)

1. heat exchange type reservoir, formed by reservoir (1), heat exchange coil (2), it is characterized in that: a heat exchange coil (2) is installed in reservoir (1) housing, is made the high-pressure gas-liquid mix refrigerant that enters reservoir (1) and the low-pressure gas-liquid mix refrigerant that enters heat exchange coil (2) carry out heat exchange.

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