CN104154670A - Heat utilizing system surpassing air energy all-in-one machine - Google Patents

Abstract

The invention disclose a heat utilizing system surpassing an air energy all-in-one machine. The heat utilizing system comprise a machine body, an evaporator, a compressor, a water tank, a pipeline and a liquid storage tank. The evaporator is disposed on the upper side of the machine body. The compressor is connected with the evaporator through the pipeline. The water tank is located on the lower side of the compressor. The liquid storage tank is disposed on side of the compressor. The heat utilizing system has the advantages that a blowing-up solar heat accumulating plate is added, coolant passes the heat accumulating plate, evaporating area is increased greatly, system energy efficiency ratio is increased, an original fin type evaporator is replaced the combination of the fin type evaporator and the blowing-up evaporator, two-stage evaporation is achieved, energy efficiency is increased greatly, compressor utilization rate is increased by increasing evaporation area, and the problem that an air source heat pump cannot be started at low temperature below 0 DEG C.

Description

A kind of heat utilization system that surmounts air energy all-in-one

Technical field

The present invention relates to air energy evaporimeter field, be specially on the basis of original air energy hot-water heating system all-in-one and increase a set of double evaporation-cooling system, accelerate compressor running efficiency, improve acting Energy Efficiency Ratio.

Background technology

Evaporimeter is very important parts in refrigeration four large parts, and the condensation of low temperature " liquid " body, by evaporimeter, carries out heat exchange with extraneous air, and " gas " changes heat absorption, reaches the effect of refrigeration.Air energy, the low grade heat energy containing in air, claims again air-source, traditional finned evaporator mode disengagement area is little, can not meet air-source system normal operation at 0 ℃ of low temperature.

Summary of the invention

Technical problem solved by the invention is to provide a kind of heat utilization system that surmounts air energy all-in-one, to address the above problem.

Technical problem solved by the invention realizes by the following technical solutions:

A kind of heat utilization system that surmounts air energy all-in-one, comprise body, evaporimeter, compressor, water tank, pipeline, fluid reservoir, described evaporimeter is at the upside of body, described compressor is connected with evaporimeter by pipeline, described water tank is positioned at the downside of compressor, and described fluid reservoir is in a side of compressor.

As preferably, described device for cleaning pipeline is crossed copper pipe and is connected two calibers of import and outlet, and import caliber is 6.52mm, and outlet caliber is that 6.52mm turns 9.52mm.

As preferably, described evaporimeter is inflation type heat collector panel, comprise pipeline one, pipeline two, pipeline three, pipeline four, pipeline five, pipeline six, tubule, working medium diffluence pass, working medium import, working medium from working medium diffluence pass to pipeline one, the flow of pipeline two, pipeline three equates and working medium diffluence pass communicates with pipeline one, pipeline two, pipeline three.

As preferably, described pipeline one equates to the flow of pipeline six to pipeline five, pipeline three to pipeline four, pipeline two, and tubule plays the effect of expenditure and pressure, promotes evaporation.

As preferably, described working medium is after capillary-compensated decompression, at refrigerant medium, pass through acting, entering heat collector panel carries out after double evaporation-cooling, refrigerant is transmitted and is entered into respectively pipeline one by pressure, two, three carry out double evaporation-cooling, the gaseous state that forms high-temperature low-pressure is returned to circular work in compressor, the flow process of each pipeline is the same, while just starting, working medium is flowing to pipeline four, pipeline five, behind pipeline six positions, can at this position, pile up not because of pressure, carrying out along with evaporation, pressure herein constantly increases, the effect of reducing pressure by regulating flow just in time can be played in tubule position.

The present invention increases an inflation type solar heat collector panel, refrigerant passes through heat collector panel, improved greatly disengagement area, and then systematic energy efficiency ratio is significantly improved, a kind of mode of traditional finned evaporator, become finned evaporator and inflation type evaporator is two-in-one, realize dual evaporation, greatly improved efficiency, mainly from increasing the angle of disengagement area, improve compressor service efficiency, improve Energy Efficiency Ratio, improve compressor service efficiency, solving air source heat pump cannot starting problem at low temperature below 0 ℃.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present invention.

Fig. 2 is the structural representation of evaporimeter.

The specific embodiment

In order to make of the present inventionly to realize technological means, creation characteristic, reach object and effect is easy to understand, below in conjunction with concrete diagram, further set forth the present invention.

As shown in Figure 1-2, a kind of heat utilization system that surmounts air energy all-in-one, comprise body 1, evaporimeter 2, compressor 3, water tank 4, pipeline 5, fluid reservoir 6, described evaporimeter 2 is in a side of body 1, described compressor 3 is connected with evaporimeter 2 by pipeline 5, described water tank 4 is positioned at the downside of compressor 3, and described fluid reservoir 6 is in a side of compressor 3.

As preferably, described pipeline 5 connects two calibers of import and outlet by copper pipe, and import caliber is 6.52mm, and outlet caliber is that 6.52mm turns 9.52mm.

As preferably, described evaporimeter 2 is inflation type heat collector panel, comprise pipeline 1, pipeline 28, pipeline 39, pipeline 4 10, pipeline 5 11, pipeline 6 12, tubule 13, working medium diffluence pass 14, working medium import 15, working medium from working medium diffluence pass 14 to pipeline 1, the flow of pipeline 28, pipeline 39 equates and working medium diffluence pass 14 communicates with pipeline 1, pipeline 28, pipeline 39.

As preferably, described pipeline 1 equates to the flow of pipeline 6 12 to pipeline 5 11, pipeline 39 to pipeline 4 10, pipeline 28, and tubule 13 plays the effect of expenditure and pressure, promotes evaporation.

As preferably, described working medium is after capillary-compensated decompression, at refrigerant medium, pass through acting, entering heat collector panel carries out after double evaporation-cooling, refrigerant is transmitted and is entered into respectively pipeline one by pressure, two, three carry out double evaporation-cooling, the gaseous state that forms high-temperature low-pressure is returned to circular work in compressor, the flow process of each pipeline is the same, while just starting, working medium is flowing to pipeline 4 10, pipeline 5 11, behind pipeline 6 12 positions, can at this position, pile up not because of pressure, carrying out along with evaporation, pressure herein constantly increases, the effect of reducing pressure by regulating flow just in time can be played in tubule position.

The present invention increases an inflation type solar heat collector panel, refrigerant passes through heat collector panel, improved greatly disengagement area, and then systematic energy efficiency ratio is significantly improved, a kind of mode of traditional finned evaporator, become finned evaporator and inflation type evaporator is two-in-one, realize dual evaporation, greatly improved efficiency, mainly from increasing the angle of disengagement area, improve compressor service efficiency, improve Energy Efficiency Ratio, improve compressor service efficiency, solving air source heat pump cannot starting problem at low temperature below 0 ℃.

More than show and described basic principle of the present invention and principal character and advantage of the present invention.The technical staff of the industry should understand; the present invention is not restricted to the described embodiments; that in above-described embodiment and description, describes just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements all fall in the claimed scope of the invention.Claimed scope of the present invention is defined by appending claims and equivalent thereof.

Claims (4)

1. a heat utilization system that surmounts air energy all-in-one, it is characterized in that: comprise body, evaporimeter, compressor, water tank, pipeline, fluid reservoir, described evaporimeter is at the upside of body, described compressor is connected with evaporimeter by pipeline, described water tank is positioned at the downside of compressor, and described fluid reservoir is in a side of compressor.

2. a kind of heat utilization system that surmounts air energy all-in-one according to claim 1, is characterized in that: described device for cleaning pipeline is crossed copper pipe and connected two calibers of import and outlet, and import caliber is 6.52mm, and outlet caliber is that 6.52mm turns 9.52mm.

3. a kind of heat utilization system that surmounts air energy all-in-one according to claim 1, it is characterized in that: described evaporimeter is inflation type heat collector panel, comprise pipeline one, pipeline two, pipeline three, pipeline four, pipeline five, pipeline six, tubule, working medium diffluence pass, working medium import, working medium from working medium diffluence pass to pipeline one, the flow of pipeline two, pipeline three equates and working medium diffluence pass communicates with pipeline one, pipeline two, pipeline three.

4. a kind of heat utilization system that surmounts air energy all-in-one according to claim 3, is characterized in that: described pipeline one equates to the flow of pipeline six to pipeline five, pipeline three to pipeline four, pipeline two.