CN201215352Y - Heat pump system for heating by radiation of compressed steam - Google Patents

Abstract

Disclosed is a compressed steam radiant-heating heat pump system, which comprises a heat exchanger and a compressor. The heat exchanger is communicated with the compressor via a fluorine pipe, the compressor is communicated with a heat conducting coil via a main fluorine pipe and a branch fluorine pipe communicated with the main fluorine pipe, the main fluorine pipe connected with the heat exchanger is sequentially equipped with an outdoor electric expansion valve, a liquid trap and a drying filter, and the branch fluorine pipe connected with the heat conducting coil is equipped with an indoor electric expansion valve and an indoor monitor point which are connected via a capillary tube. A master controller connected with a power supply is connected with the compressor, an indoor control board, the outdoor electric expansion valve and the heat exchanger via a control wire harness, wherein the indoor control board is connected with the indoor electric expansion valve via an indoor control wire. The utility model not only can meet requirements upon indoor heating, but also has the advantages of simple structure, low system input power, low noise, prevented environment pollution, and the capacity of adjusting temperature according to requirements of human body.

Description

A kind of heat pump of compressed steam radiant heating

Technical field

The utility model relates to a kind of heating installation, relates in particular to the system that utilizes compressed steam to heat.

Background technology

Mostly traditional indoor heat dissipation technology is with fan coil heating, radiator heat radiation or water route floor panel heating, this heating form need carry out secondary heat exchange, therefore the water or the steam that are used for heat supply just need have higher temperature, this situation all can cause the condensation temperature of heat pump to increase, and systematic energy efficiency ratio descends.Also have and adopt the water resource heat pump heating, this heating form main frame has higher Energy Efficiency Ratio, and still: 1, system's subsidiary engine input power is bigger, and 2, well digs expense height, water system pipeline network construction, maintenance cost height; And the water route pipe network freezes reality, bursting by freezing winter easily; 3, for big groups of building can't to each use with do not use or use different in kind unit independently supplying, independent start-stop, therefore, can not rationally control use, the result causes waste; 4, also do not develop at present the thermal metering device accurate, durable, that cost is low, therefore can't really realize reasonable charging, serious, the systematic running cost of waste is with high in causing using; 5, well water recharges difficulty.6, be not suitable for cold district and use, because these regional well water water temperatures are low, the evaporating temperature of heat pump reduces, and the requirement of well water is big, and the subsidiary engine energy consumption increases, and systematic energy efficiency ratio descends bigger.Because the problems referred to above, the application of large-scale water resource heat pump is very restricted.

Summary of the invention

The purpose of this utility model be to provide a kind of can steady operation, input power is little, Energy Efficiency Ratio is high, environmental protection, cost are low, the heat pump of the compressed steam radiant heating being convenient to install.

The purpose of this utility model is achieved through the following technical solutions: the heat pump of this compressed steam radiant heating, comprise heat exchanger, compressor, heat exchanger is connected with compressor by the fluorine pipeline, and fluid reservoir and low pressure switch are housed on this fluorine pipeline; Compressor communicates with heat transfer coils by total fluorine pipeline and with a fluorine pipeline of its connection, on the total fluorine pipeline that links to each other with heat exchanger, outdoor electric expansion valve, liquid trap and device for drying and filtering are housed successively, outdoor electric expansion valve is near heat exchanger, and outdoor electric expansion valve links to each other with measuring control point on the fluorine pipeline that is contained between heat exchanger and the compressor by capillary; On a fluorine pipeline that links to each other with heat transfer coils indoor electric expansion valve and indoor measuring control point are housed, both link to each other by capillary; Be contained on total fluorine pipeline of compressor outlet high-pressure switch is housed; The master controller that links to each other with power supply links to each other with heat exchanger with compressor, indoor control panel, outdoor electric expansion valve by the control line wire harness; Indoor control panel is connected with indoor electric expansion valve by indoor control line.

Heat transfer coils directly is contained in the room that needs heating or is seated in the wallboard or ceiling or floor or hanging board that needs the heating house.

Described compressor is digital scroll compressor or frequency-changeable compressor.

Because the heating installation in the utility model is the coil pipe that is embedded in wallboard or ceiling or floor or the hanging board, compressed vapour directly enters the heat source body of forming indoor radiant heat transfer in the coil pipe, and keep stable heating energy by compressed steam lasting circulation under driven compressor and supply with, satisfy the demand of indoor heating.

The condensation temperature of this heat pump reduces more than 10 ℃, the Energy Efficiency Ratio height, and the Gao Shike of the COP of heating operation reaches more than 6.3, and the comprehensive Energy Efficiency Ratio of heating season can reach more than 2.8.Saved indoor fan, circulating pump etc., reduced the consumption of subsidiary engine, not only simple in structure being convenient to installed, and system's input power is little, during operation, noise is low and can not pollute to environment; This system's heat supply temperature can be adjusted according to the demand of human body.Therefore the utlity model has higher promotional value.

Description of drawings

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

Fig. 2 is second kind of structural representation of the present utility model;

Fig. 3 is the third structural representation of the present utility model.

The specific embodiment

Embodiment: the heat pump of this compressed steam radiant heating, comprise heat exchanger 7, compressor 1 and heat transfer coils 2, heat exchanger 7 is connected with compressor 1 by fluorine pipeline 18, and fluid reservoir 8 and low pressure switch 9 are housed on fluorine pipeline 18; Be contained on total fluorine pipeline 15 of compressor 1 outlet high-pressure switch 10 is arranged; Compressor 1 communicates with an end of heat transfer coils 2 by this total fluorine pipeline 15 and with a fluorine pipeline 19 of its connection, heat exchanger 7 is by communicating with the other end of heat transfer coils 2 with total fluorine pipeline 16 of its connection and with a fluorine pipeline 17 of total fluorine pipeline 16 connections, on the total fluorine pipeline 16 that is communicated with heat exchanger 7, outdoor electric expansion valve 3, liquid trap 6 and device for drying and filtering 5 are housed successively, outdoor electric expansion valve 3 is near heat exchangers 7, and outdoor electric expansion valve 3 links to each other with measuring control point a on the fluorine pipeline 18 that is contained between heat exchanger 7 and the compressor 1 by capillary 14; On a fluorine pipeline 17 that is communicated with total fluorine pipeline 16, indoor electric expansion valve 4 and indoor measuring control point b are housed, both link to each other by capillary 14, master controller 11 links to each other with power supply by power line 20, and master controller 11 links to each other with compressor 1, outdoor electric expansion valve 3 and heat exchanger 7 and indoor control panel 12 by control line wire harness 13 again; Indoor control panel 12 is connected with indoor electric expansion valve 4 by indoor control line 13a.

The part of the total fluorine pipeline 16 that is communicated with heat exchanger in the said structure, fluorine pipeline 17 and indoor electric expansion valve of being adorned 4 and the indoor measuring control point b that are communicated with it, the part of the total fluorine pipeline 15 that connects both capillaries 14 and be communicated with compressor 1 and another fluorine pipeline 19 and the heat transfer coils that are communicated with it are commonly referred to indoor heating system 23, and they are to be contained in to need the indoor of heating; Available house remote control 21 controls.Other parts are outdoor machine part, and they can be contained in outdoor or be contained in the special container, can be described as outdoor main frame 22;

The version of indoor heating system can have various, as: can only there be one fluorine pipeline 19 to be communicated with on the total fluorine pipeline 15 that is communicated with compressor 1 with an end of heat transfer coils; Another fluorine pipeline 17 that is communicated with it is only arranged on the total fluorine pipeline 16 that links to each other with heat exchanger, and this fluorine pipeline 17 communicates with the other end of this heat transfer coils; Its structure as shown in Figure 1.

Two fluorine pipelines 19 can be arranged on the total fluorine pipeline 15 that is communicated with compressor 1, be communicated with two heat transfer coils respectively; Two in addition two fluorine pipelines 17 that are communicated with it are arranged, corresponding the communicating of the other end of this fluorine pipeline 17 and above-mentioned two heat transfer coils on the total fluorine pipeline 16 that links to each other with heat exchanger; Its structure as shown in Figure 2.

One fluorine pipeline removes and can communicate with a heat transfer coils on assembling form; Also can communicate as shown in Figure 3, allow each heat transfer coils be a room heat supply with two heat transfer coils.

In order to satisfy the needs of groups of building heat supply, tens fluorine pipelines 17 that are communicated with it can be arranged on total fluorine pipeline 15 that is communicated with compressor 1 as required, these fluorine pipelines 19 communicate with an end of corresponding tens heat transfer coils; Tens fluorine pipelines 17 that are communicated with it are arranged, corresponding the communicating of the other end of this fluorine pipeline 17 and above-mentioned heat transfer coils on the total fluorine pipeline 16 that links to each other with heat exchanger.These wherein some fluorine pipelines 17 also can be one fluorine pipeline 17 and communicate with two heat transfer coils or three heat transfer coils.

Compressor in the utility model can be digital scroll compressor or frequency-changeable compressor.

These heat transfer coils can directly be contained in the room that needs heating, also can be seated in the wallboard that needs the heating house, or in the ceiling or under the floor, also can be placed in the hanging board.

The heat pump using method of this compressed steam radiant heating is as follows: before the use, connect fluorine road pipe-line system, charge into an amount of F ₂₂Power supply is connected in the back, sets operational mode, temperature parameter.This moment, whole system will realize energy-saving run according to setting work automatically.

Claims (3)

1, a kind of heat pump of compressed steam radiant heating comprises heat exchanger, compressor, it is characterized in that: heat exchanger is connected with compressor by the fluorine pipeline, and fluid reservoir and low pressure switch are housed on this fluorine pipeline; Compressor communicates with heat transfer coils by total fluorine pipeline and with a fluorine pipeline of its connection, on the total fluorine pipeline that links to each other with heat exchanger, outdoor electric expansion valve, liquid trap and device for drying and filtering are housed successively, outdoor electric expansion valve is near heat exchanger, and outdoor electric expansion valve links to each other with measuring control point on the fluorine pipeline that is contained between heat exchanger and the compressor by capillary; On a fluorine pipeline that links to each other with heat transfer coils indoor electric expansion valve and indoor measuring control point are housed, both link to each other by capillary; Be contained on total fluorine pipeline of compressor outlet high-pressure switch is housed; The master controller that links to each other with power supply links to each other with heat exchanger with compressor, indoor control panel, outdoor electric expansion valve by the control line wire harness; Indoor control panel is connected with indoor electric expansion valve by indoor control line.

2, the heat pump of compressed steam radiant heating according to claim 1 is characterized in that: heat transfer coils directly is contained in the room that needs heating or is seated in the wallboard or ceiling or floor or hanging board that needs the heating house.

3, the heat pump of compressed steam radiant heating according to claim 1 and 2 is characterized in that: described compressor is digital scroll compressor or frequency-changeable compressor.

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