CN104791897A - Energy-state-rich space energy floor heating system - Google Patents

Abstract

The invention discloses an energy-state-rich space energy floor heating system. The energy-state-rich space energy floor heating system comprises a space energy heating gathering plate, an anhydrous floor heating coil pipe, an evaporator fan coil pipe and a fin fan. The connecting-in end of the space energy heating gathering plate is connected with a first liquid storage device, and the first liquid storage device is connected with the outlet end of the anhydrous floor heating coil pipe. The outlet end of the space energy heating gathering plate is connected into a four-way valve, the four-way valve is connected with a gas-liquid separator, the anhydrous floor heating coil pipe and an oil-gas separator, the gas-liquid separator is connected with a compressor, and the compressor is connected with the oil-gas separator. The outlet end of the evaporator fan coil pipe is connected with the connecting-in end of the gas-liquid separator, the fin fan is connected with a second liquid storage device and the space energy heating gathering plate, the outlet end of the second liquid storage device is connected with the gas-liquid separator, a second electronic expansion valve and a fifth electromagnetic valve, and the fifth electromagnetic valve is connected with the evaporator fan coil pipe. The energy-state-rich space energy floor heating system is high in energy utilization rate, low in energy consumption, capable of saving energy and electricity, low in using cost, stable to operate, and safer and more reliable to use.

Description

A kind of rich energy state space energy ground heating system

Technical field

The present invention relates to rich energy state application, specifically a kind of rich energy state space energy ground heating system.

Background technology

Rich energy state is a kind of efficient heating combined equipment, the energy > 100% of the heat energy/consumption of its output, usually more than 300%-400% is reached, rich energy state is applied in every field rapidly with its obvious power savings advantages, traditional ground heating system adopts air source heat pump mostly, it only utilizes traditional air energy, and energy utilization rate is not enough, and energy consumption is high; And tradition heating air source heat pump when working in low temperature environment, the situation of the low or even card cylinder of compressor efficiency usually can occur, and system oil return is insufficient, there are technological difficulties; Based on the problems referred to above, very necessary for the research rich energy state being applied to ground heating system, it has great economic benefit and environment protection significance.

Summary of the invention

The object of the present invention is to provide a kind of rich energy state space energy ground heating system, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the invention provides following technical scheme:

A kind of rich energy state space energy ground heating system, comprise space energy heat collector panel, anhydrous grounding heat coil tube, evaporator fan coil and fin fan, the incoming end of described space energy heat collector panel is connected with the first reservoir, first reservoir connects the port of export of anhydrous grounding heat coil tube, is provided with the first magnetic valve for throttling and the first electric expansion valve between the first reservoir and space energy heat collector panel successively; The port of export of described space energy heat collector panel is linked on cross valve, cross valve is connected with the incoming end of gas-liquid separator and anhydrous grounding heat coil tube respectively, cross valve is also connected with the port of export of gs-oil separator, described gas-liquid separator is connected with compressor, and the port of export of compressor is connected to the arrival end of gs-oil separator; The port of export of described evaporator fan coil is connected with gas-liquid separator incoming end, fin fan is connected with the port of export of the second reservoir incoming end and space energy heat collector panel respectively, the port of export of the second reservoir is connected to gas-liquid separator, the port of export of the second reservoir is also connected to the second electric expansion valve and the 5th magnetic valve respectively, the 5th electromagnetic valve outlet termination evaporator fan coil.

As the further scheme of the present invention: quantity >=1 of described space energy heat collector panel.

As the present invention's further scheme: be provided with the first check valve between described space energy heat collector panel and cross valve, be provided with the second check valve between cross valve and gas-liquid separator, between evaporator fan coil and gas-liquid separator incoming end, be provided with the 5th check valve.

As the present invention's further scheme: be connected with oil return pipe capillary between described gs-oil separator and gas-liquid separator.

As the present invention's further scheme: the connecting pipe between described second reservoir and gas-liquid separator is provided with liquid injection valve and capillary successively.

As the present invention's further scheme: described first reservoir outlet end connects the port of export of the first electromagnetic valve entrance end, the 4th electromagnetic valve entrance end and the 3rd magnetic valve respectively, first electromagnetic valve outlet end is connected with space energy heat collector panel by the first electric expansion valve, 4th electromagnetic valve outlet end is connected with the second electric expansion valve by the 4th check valve, the arrival end of the 3rd magnetic valve is connected with the 3rd check valve, and the arrival end of the 3rd check valve is connected to the second electric expansion valve.

Compared with prior art, the invention has the beneficial effects as follows: the present invention can the sunlight heat energy fully in suction environment, in air thermal source, thermal source in sleet, the low grade heat energies such as the heat that electromagnetic wave produces when penetrating space energy heat collector panel, the evaporation effect of low boiling working media is improved from the popularity of thermal-arrest heat build-up, substantially reduce evaporation time, more energy saving, improve energy utilization rate; Solve conventional air source heat pump when working in low temperature environment, because environment temperature is too low and cause the phenomenon of compressor operating efficiency low even card cylinder; Solve the technological difficulties of system oil return, autonomous oil return can be realized by oil return pipe capillary, ensure that compressor lubricant oil oil return is abundant; By controlling cross valve inverted running, achieve a system and solve floor heating in winter simultaneously and heat heating, cooling in summer is lowered the temperature, and has saved social resources, has reduced use cost.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Wherein 1-space energy heat collector panel; The anhydrous grounding heat coil tube of 2-; 3-evaporator fan coil; 4-fin fan; 5-first reservoir; 6-first magnetic valve; 7-first electric expansion valve; 8-first check valve; 9-cross valve; 10-gas-liquid separator; 11-compressor; 12-gs-oil separator; 13-oil return pipe capillary; 14-second check valve; 15-the 5th check valve; 16-second reservoir; 17-liquid injection valve; 18-capillary; 19-second electric expansion valve; 20-the 5th magnetic valve; 21-the 4th magnetic valve; 22-the 3rd magnetic valve; 23-the 4th check valve; 24-the 3rd check valve.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Refer to Fig. 1, in the embodiment of the present invention, a kind of rich energy state space energy ground heating system, comprise space energy heat collector panel 1, anhydrous grounding heat coil tube 2, evaporator fan coil 3 and fin fan 4, quantity >=1 of described space energy heat collector panel 1, the incoming end of space energy heat collector panel 1 is connected with the first reservoir 5, and the first reservoir 5 connects the port of export of anhydrous grounding heat coil tube 2; The port of export of described space energy heat collector panel 1 is linked on cross valve 9, cross valve 9 is connected with the incoming end of gas-liquid separator 10 and anhydrous grounding heat coil tube 2 respectively, cross valve 9 is also connected with the port of export of gs-oil separator 12, described gas-liquid separator 10 is connected with compressor 11, the port of export of compressor 11 is connected to the arrival end of gs-oil separator 12, is connected with oil return pipe capillary 13 between gs-oil separator 12 and gas-liquid separator 10; The port of export of described evaporator fan coil 3 is connected with gas-liquid separator 10 incoming end, fin fan 4 is connected with the port of export of the second reservoir 16 incoming end and space energy heat collector panel 1 respectively, the port of export of the second reservoir 16 is connected to gas-liquid separator 10, connecting pipe between second reservoir 16 and gas-liquid separator 10 is provided with successively liquid injection valve 17 and capillary 18, the port of export of described second reservoir 16 is also connected to the second electric expansion valve 19 and the 5th magnetic valve the 20, five electromagnetic valve outlet termination evaporator fan coil 3 respectively.

Be provided with the first check valve 8 between described space energy heat collector panel 1 and cross valve 9, between cross valve 9 and gas-liquid separator 10, be provided with the second check valve 14, between evaporator fan coil 3 and gas-liquid separator 10 incoming end, be provided with the 5th check valve 15.

Described first reservoir 5 port of export connects the port of export of the first magnetic valve 6 arrival end, the 4th magnetic valve 21 arrival end and the 3rd magnetic valve 22 respectively, first magnetic valve 6 port of export is connected with space energy heat collector panel 1 by the first electric expansion valve 7,4th magnetic valve 21 port of export is connected with the second electric expansion valve 19 by the 4th check valve 23, the arrival end that the arrival end of the 3rd magnetic valve 22 is connected with the 3rd check valve the 24, three check valve 24 is connected to the second electric expansion valve 19.

Operation principle of the present invention is: low boiling working media flows through space energy heat collector panel 1, the sunlight heat energy in space energy heat collector panel 1 suction environment, thermal source in air, thermal source in sleet, the low grade heat energies such as the heat that electromagnetic wave produces when penetrating space energy heat collector panel 1 make low boiling working media absorb heat and flash to gas, described gas flows to cross valve 9 through the first check valve 8, gas-liquid separator 10 is flowed into again by cross valve 9, high temperature and high pressure gas is produced after compressor 11 compresses, high temperature and high pressure gas flows into the condensation of anhydrous grounding heat coil tube 2 through gs-oil separator 12, exchange with ground level heat, heated up in ground, working media after carrying out heat exchange with ground level heat flows through the first reservoir 5, through the first magnetic valve 6 and the first electric expansion valve 7 throttling, get back to again space energy heat collector panel 1, iterative cycles like this, cooling in summer, reverse by cross valve 9, with indoor evaporator fan coil 3, fin fan 4 becomes condenser heat radiation, and condensate liquid is stored in the first reservoir 5.

Table 1 is working state control logical table of the present invention:

Table 1 rich energy state space energy ground heating system control logic table

To those skilled in the art, obviously the invention is not restricted to the details of above-mentioned one exemplary embodiment, and when not deviating from spirit of the present invention or essential characteristic, the present invention can be realized in other specific forms.Therefore, no matter from which point, all should embodiment be regarded as exemplary, and be nonrestrictive, scope of the present invention is limited by claims instead of above-mentioned explanation, and all changes be therefore intended in the implication of the equivalency by dropping on claim and scope are included in the present invention.Any Reference numeral in claim should be considered as the claim involved by limiting.

In addition, be to be understood that, although this description is described according to embodiment, but not each embodiment only comprises an independently technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should by description integrally, and the technical scheme in each embodiment also through appropriately combined, can form other embodiments that it will be appreciated by those skilled in the art that.

Claims (5)

1. a rich energy state space energy ground heating system, comprise space energy heat collector panel (1), anhydrous grounding heat coil tube (2), evaporator fan coil (3) and fin fan (4), the incoming end of described space energy heat collector panel (1) is connected with the first reservoir (5), and the first reservoir (5) connects the port of export of anhydrous grounding heat coil tube (2); It is characterized in that: the port of export of described space energy heat collector panel (1) is linked on cross valve (9), cross valve (9) is connected with the incoming end of gas-liquid separator (10) and anhydrous grounding heat coil tube (2) respectively, cross valve (9) is also connected with the port of export of gs-oil separator (12), described gas-liquid separator (10) is connected with compressor (11), and the port of export of compressor (11) is connected to the arrival end of gs-oil separator (12); The port of export of described evaporator fan coil (3) is connected with gas-liquid separator (10) incoming end, fin fan (4) is connected with the port of export of the second reservoir (16) incoming end and space energy heat collector panel (1) respectively, the port of export of the second reservoir (16) is connected to gas-liquid separator (10), the port of export of the second reservoir (16) is also connected to the second electric expansion valve (19) and the 5th magnetic valve (20), the 5th electromagnetic valve outlet termination evaporator fan coil (3) respectively.

2. rich energy state space energy ground heating system according to claim 1, is characterized in that, quantity >=1 of described space energy heat collector panel (1).

3. rich energy state space energy ground heating system according to claim 1, it is characterized in that, the first check valve (8) is provided with between described space energy heat collector panel (1) and cross valve (9), be provided with the second check valve (14) between cross valve (9) and gas-liquid separator (10), between evaporator fan coil (3) and gas-liquid separator (10) incoming end, be provided with the 5th check valve (15).

4. rich energy state space energy ground heating system according to claim 1, is characterized in that, be connected with oil return pipe capillary (13) between described gs-oil separator (12) and gas-liquid separator (10).

5. rich energy state space energy ground heating system according to claim 1, it is characterized in that, described first reservoir (5) port of export connects the first magnetic valve (6) arrival end respectively, the port of export of the 4th magnetic valve (21) arrival end and the 3rd magnetic valve (22), first magnetic valve (6) port of export is connected with space energy heat collector panel (1) by the first electric expansion valve (7), 4th magnetic valve (21) port of export is connected with the second electric expansion valve (19) by the 4th check valve (23), the arrival end of the 3rd magnetic valve (22) is connected with the 3rd check valve (24), the arrival end of the 3rd check valve (24) is connected to the second electric expansion valve (19).