CN101144660A

CN101144660A - Combined structure of air-conditioner and heat insulation water tank

Info

Publication number: CN101144660A
Application number: CNA2006100322424A
Authority: CN
Inventors: 王宏丁
Original assignee: Individual
Current assignee: Individual
Priority date: 2006-09-14
Filing date: 2006-09-14
Publication date: 2008-03-19

Abstract

The invention relates to an air conditioner provided with a water heater, and the air conditioner is a novel product which can realize the multiple functions such as refrigeration, heating, hot water supply when refrigerating, and independent hot water supply, etc. The design of a system is reasonable, the structure is simple, and the operation is easy. The main pipeline parts of the air conditioner with the water heater comprises a compressor, a four-way reversing valve, an outdoor unit, a throttling device, a cone way valve, an electromagnetic valve, a thermal insulation water tank, an indoor unit, etc. The air conditioner is a device that according to the heat pump principle, the water which is heated in the thermal insulation water tank through utilizing the high temperature and high pressure refrigerant gas compressed by the compressor is used as the domestic water. The thermal insulation water tank is arranged at the lower part of the outdoor unit of the air conditioner to become a whole body, thereby being advantageous to the connection of the refrigerant pipeline, and saving the pipeline material.

Description

The combining structure of a kind of air-conditioning and attemperater

Technical field

The present invention is suitable for a kind of air conditioner structure with water heater of air conditioner industry.

Technical background

At present, the air-conditioning product is two kinds with the electric heater product and has no related product mutually, installs and also can only install separately.The application of the air-conditioning of band water heater, to the heat of outdoor discharging, the water of heat tracing water tank uses for the user when having made full use of the air-conditioner outdoor unit refrigeration, and one compressor and more efficiency kills two birds with one stone.Attemperater is placed on the air-conditioner outdoor unit bottom, makes it into as a wholely, help the connection of refrigerant line like this, and can save piping material.

Summary of the invention

1, structural design

Attemperater is placed on the air-conditioner outdoor unit bottom, makes it into as a wholely, help the connection of refrigerant line like this, and can save piping material.Air-conditioning and attemperater combination assumption diagram are seen the Fig. 1 in " Figure of description ".

2, control section

Air-conditioning is identical with the control section of the air-conditioning of band water heater with the control section of the combining structure of attemperater.Pipeline structure and flow control system figure see the Fig. 2 in " Figure of description ".

Description of drawings

Accompanying drawing 1 is the combining structure schematic diagram of air-conditioning and attemperater.

Accompanying drawing 2 is the pipe-line system figure of the air-conditioning of band water heater.

The specific embodiment

The performance of the combining structure of air-conditioning and attemperater:

1, system's refrigeration: the high-temperature high-pressure refrigerant overheated gas that compressor (1) is discharged advances from four-way change-over valve (2) D interface, C interface goes out, enter off-premises station finned heat exchanger (4) heat release, condensation of refrigerant is become liquid, through filter (5), check valve (6), flow controller (10), the laggard magnetic valve of throttling step-down (11), filter (15) advances indoor set finned heat exchanger (18) sweat cooling, advances the S interface through the E interface of four-way change-over valve (3) then and goes out, enter the air entry of compressor (1) then, system realizes refrigerating function.

2, system heats: the high-temperature high-pressure refrigerant overheated gas that compressor (1) is discharged advances through four-way change-over valve (2) D interface, E interface goes out to the D interface of four-way change-over valve (3), E interface goes out to indoor set finned heat exchanger (18) condensation heat release, condensed refrigerant liquid is through filter (15), check valve (12), flow controller (10), (9) the laggard magnetic valve of throttling step-down (7), filter (5) is to off-premises station finned heat exchanger (4) evaporation heat absorption, low-temp low-pressure superheated refrigerant gas after the heat absorption advances through the C interface of four-way change-over valve (2), the S interface goes out, get back to the air entry of compressor (1), system realizes heat-production functions.

3, independent heat supply water: the refrigerant superheat gas that compressor (1) is discharged HTHP advances through the D interface of four-way change-over valve (2), E interface goes out to the D interface of four-way change-over valve (3), C interface goes out to attemperater (17), after the condensation heat release, through check valve (16), filter (14), after flow controller (13), (9) throttling step-down, advance magnetic valve (7), filter (5), after outdoor finned heat exchanger (4) the evaporation heat absorption, the C interface that advances four-way change-over valve (2) advances, the S interface goes out to get back to compressor (1) air entry, and system realizes the independent heat supply water function.

4, refrigerating and heat-supplying water: the refrigerant superheat gas that compressor (1) is discharged HTHP advances along the D interface of pipeline through four-way change-over valve (2), E interface goes out to the D interface of four-way change-over valve (3), C interface goes out to attemperater (17), after the condensation heat release, through check valve (16), filter (14), flow controller (13), (10) after the throttling step-down, by magnetic valve (11), filter (15), advance the evaporation heat absorption of indoor set (18) finned heat exchanger after, advancing four-way change-over valve (3) E interface advances, the S interface goes out, and gets back to compressor (1) air entry, and system is the water of heat supply simultaneously when refrigeration.

Claims

1. the feature of the combining structure of air-conditioning and attemperater comprises:

The main conduit line parts of system architecture are by compressor (1), four-way change-over valve (2), (3), off-premises station heat exchanger (4), throttling arrangement (9), (10), check valve (6), (12), (16), magnetic valve (7), (11), attemperater (17), indoor set parts such as (18) are formed, and attemperater (17) is placed on air-conditioner outdoor unit (4) bottom, make it into as a whole, help the connection of refrigerant line like this, and can save piping material, structure chart is seen the Fig. 1 in " Figure of description "; The Fig. 2 in " Figure of description " is seen in refrigerant flow direction control, during refrigerating operaton, the high-temperature high-pressure refrigerant overheated gas that compressor (1) is discharged advances from four-way change-over valve (2) D interface, C interface goes out, enter off-premises station finned heat exchanger (4) heat release, condensation of refrigerant is become liquid, through filter (5) check valve (6), flow controller (10), the laggard magnetic valve of throttling step-down (11), filter (15) advances indoor set finned heat exchanger (18) sweat cooling, advance the S interface through the E interface of four-way change-over valve (3) then and go out, enter the air entry of compressor (1) then; During heating operation, the high-temperature high-pressure refrigerant overheated gas that compressor (1) is discharged advances through four-way change-over valve (2) D interface, E interface goes out to the D interface of four-way change-over valve (3), E interface goes out to indoor set finned heat exchanger (18) condensation heat release, condensed refrigerant liquid is through filter (15), check valve (12), flow controller (10), (9) the laggard magnetic valve of throttling step-down (7), filter (5) is to off-premises station finned heat exchanger (4) evaporation heat absorption, low-temp low-pressure superheated refrigerant gas after the heat absorption advances through the C interface of four-way change-over valve (2), the S interface goes out, and gets back to the air entry of compressor (1); During independent heat supply water, the refrigerant superheat gas that compressor (1) is discharged HTHP advances through the D interface of four-way change-over valve (2), E interface goes out to the D interface of four-way change-over valve (3), C interface goes out to attemperater (17), after the condensation heat release, through check valve (16), filter (14), after flow controller (13), (9) throttling step-down, advance magnetic valve (7), filter (5) is after outdoor finned heat exchanger (4) the evaporation heat absorption, the C interface that advances four-way change-over valve (2) advances, and the S interface goes out to get back to compressor (1) air entry; During refrigerating and heat-supplying water, the refrigerant superheat gas that compressor (1) is discharged HTHP advances through the D interface of four-way change-over valve (2), E interface goes out to the D interface of four-way change-over valve (3), C interface goes out to attemperater (17), after the condensation heat release, through check valve (16), filter (14), after flow controller (13), (10) throttling step-down, by magnetic valve (11), filter (15), after advancing indoor finned heat exchanger (18) evaporation heat absorption, advance four-way change-over valve (3) E interface and advance, the S interface goes out, and gets back to compressor (1) air entry.