CN218033344U - Refrigerant air source heat pump heating device - Google Patents

Abstract

The utility model relates to the technical field of heating devices, and discloses a refrigerant air source heat pump heating device, which comprises a main body mechanism, a heat exchange mechanism, a conduction mechanism and a support mechanism, wherein the heat exchange mechanism is positioned inside the main body mechanism, the conduction mechanism is positioned on the right side of the heat exchange mechanism, and the support mechanism is positioned below the main body mechanism; the conduction mechanism comprises an installation box, a water suction pump, an expansion valve, a water delivery pipe and a compression tank. This refrigerant air source heat pump heating device, evaporation mouthful and the air inlet through setting up can inhale the refrigerant air of outer end, because the device is providing heat as the energy through refrigerant air source, more traditional equipment need use the coal, gas or electric energy carry out the also more energy-concerving and environment-protective of heat supply, reduce the expenditure of heat supply cost, through setting up small-size box design, let equipment more extensive in the use of individual family, the power is bigger than the small-size heating equipment of tradition, the heating efficiency is also more high-efficient.

Description

Refrigerant air source heat pump heating device

Technical Field

The utility model relates to a heating device technical field specifically is a refrigerant air source heat pump heating device.

Background

The heating equipment is a device which is necessary to be used in northern areas and certain cold areas, most of the heating devices used in the northern areas generally provide energy through coal, natural gas and electric energy, the pollution to the environment is large, most of the heating devices also perform centralized heating, due to geographical reasons, the northern heating needs are large, the heating time is long, the cost expenditure for heating is also large, the volume of the traditional heating device is large, and the purchase price for individual families is also high.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

An object of the utility model is to provide a refrigerant air source heat pump heating device, with solve the heating device that proposes to use in the general northern area in the above-mentioned background art most all through coal, natural gas and electric energy provide the energy, pollution to the environment is also great, and most all are carrying out central heating, because geographical reason, the required heating demand in the north is great and the time that needs the heating is longer, also be great to the cost expenditure of heating, and traditional heating device is bulky, purchase the also higher problem of price to individual family.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: a refrigerant air source heat pump heating device comprises a main body mechanism, a heat exchange mechanism, a conduction mechanism and a support mechanism, wherein the heat exchange mechanism is positioned inside the main body mechanism, the conduction mechanism is positioned on the right side of the heat exchange mechanism, and the support mechanism is positioned below the main body mechanism;

conduction mechanism includes install bin, suction pump, expansion valve, raceway, compression tank, compressor, manometer, heat source case and heat conduction mouth, suction pump fixed mounting is in the inside of install bin, expansion valve fixed mounting is in the left side of heat pump, the fixed intercommunication of raceway is at the right-hand member of heat pump, compression tank fixed mounting is in the top of install bin, the fixed intercommunication of compressor is on the right side of compression tank, manometer fixed mounting is in the outer end of compressor, heat source case fixed mounting is on the right side of compressor, the fixed intercommunication of heat conduction mouth is on the right side of heat source case upper end.

Preferably, the main part mechanism includes box, maintenance door, air inlet, apron and evaporation port, maintenance door movable mounting is at the front end of box, the fixed left side that sets up at the maintenance door of air inlet, apron fixed mounting is in the upper end of box, the fixed left side that sets up at the box of evaporation port releases the effect that plays convenience to compression tank internal pressure through the apron that sets up.

Preferably, heat transfer mechanism includes fixed bolster, evaporimeter, condenser pipe, power piece, fan, inlet tube, connecting pipe and outlet pipe, evaporimeter fixed mounting is at the lower extreme of fixed bolster, condenser pipe fixed mounting is in the inside of evaporimeter, power piece fixed mounting is at the left end of evaporimeter, fan fixed mounting is in the left side of power piece, the left side at the evaporimeter lower extreme is connected to the inlet tube fixed intercommunication, the right side at the evaporimeter upper end is connected to the fixed intercommunication of connecting pipe, the outlet pipe is connected between evaporimeter and the compression jar through the connecting pipe that sets up, makes things convenient for subsequent heating in the below of connecting pipe.

Preferably, the supporting mechanism comprises a fixed bottom rod, a supporting frame, a cross rod, a fixed pin, a reinforcing bolt and a fixed supporting plate, the supporting frame is fixedly installed at the upper end of the fixed bottom rod, the cross rod is fixedly installed at the left end of the supporting frame, the fixing pin is installed at the lower end of the supporting frame in a threaded mode, the reinforcing bolt is installed at the upper end of the fixed bottom rod in a threaded mode, the device is reinforced on the ground through the reinforcing bolt arranged, and the device can be more stable.

Preferably, the fixed sill bar is the symmetric distribution, the support frame is the symmetric distribution, the horizontal pole is the symmetric distribution, the fixed pin is the symmetric distribution, the upper end of fixed pin extends to the lower extreme of support frame, looks adaptation between fixed pin and the support frame is consolidated being connected of support frame and fixed extension board through the fixed pin that sets up, lets its stability that can be more when supporting the device.

Preferably, the fixed bolster is the symmetric distribution, the condenser pipe is the symmetric distribution, the right-hand member of connecting pipe extends to the inside of compression jar, looks adaptation between connecting pipe and the compression jar can heat the evaporimeter is inside through the compression jar that sets up, lets it can heat the inside rivers heating of drive with inspiratory refrigerant.

Compared with the prior art, the beneficial effects of the utility model are that:

1. according to the refrigerant air source heat pump heating device, sucked refrigerant air is injected into the compression tank through the connecting pipe through the arranged condensation pipe, the air in the compression tank is heated through the compressor, and the heated air returns into the evaporator through the connecting pipe, so that the heat of the device cannot be wasted due to the design of the circulating heating device, and the electric energy efficiency of the device in operation can be better saved;

2. the refrigerant air source heat pump heating device has the advantages that the design of the small box body is adopted, so that the equipment can be used more widely in individual families, the device has higher power and higher heating efficiency than the traditional small heating equipment;

3. this refrigerant air source heat pump heating device can inhale the refrigerant air of outer end through evaporation mouthful and the air inlet that sets up, because the device is providing heat as the energy through refrigerant air source, and more traditional heating equipment need use coal, gas or electric energy to supply heat also more energy-concerving and environment-protectively, reduces the expenditure of heat supply cost.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic sectional view of the present invention;

FIG. 3 is a schematic view of the supporting mechanism of the present invention;

fig. 4 is an enlarged schematic structural view of a point a in fig. 2 of the present invention;

fig. 5 is an enlarged schematic structural diagram of the position B in fig. 2 of the present invention.

In the figure: 1. a main body mechanism; 2. a heat exchange mechanism; 3. a conducting mechanism; 4. a support mechanism; 101. a box body; 102. maintaining the door; 103. an air inlet; 104. a cover plate; 105. an evaporation port; 201. fixing a bracket; 202. an evaporator; 203. a condenser tube; 204. a power supply block; 205. a fan; 206. a water inlet pipe; 207. a connecting pipe; 208. a water outlet pipe; 301. installing a box; 302. a water pump; 303. an expansion valve; 304. a water delivery pipe; 305. a compression tank; 306. a compressor; 307. a pressure gauge; 308. a heat source box; 309. a heat conduction port; 401. fixing the bottom rod; 402. a support frame; 403. a cross bar; 404. a fixing pin; 405. reinforcing the bolt; 406. and fixing the support plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a refrigerant air source heat pump heating device comprises a main body mechanism 1, a heat exchange mechanism 2, a conduction mechanism 3 and a support mechanism 4, wherein the heat exchange mechanism 2 is positioned inside the main body mechanism 1, the conduction mechanism 3 is positioned on the right side of the heat exchange mechanism 2, and the support mechanism 4 is positioned below the main body mechanism 1;

the conduction mechanism 3 comprises an installation box 301, a water suction pump 302, an expansion valve 303, a water delivery pipe 304, a compression tank 305, a compressor 306, a pressure gauge 307, a heat source box 308 and a heat conduction port 309, wherein the water suction pump 302 is fixedly installed inside the installation box 301, the expansion valve 303 is fixedly installed on the left side of the water suction pump 302, the water delivery pipe 304 is fixedly communicated with the right end of the water suction pump 302, the compression tank 305 is fixedly installed above the installation box 301, the compressor 306 is fixedly communicated with the right side of the compression tank 305, the pressure gauge 307 is fixedly installed at the outer end of the compressor 306, the heat source box 308 is fixedly installed on the right side of the compressor 306, and the heat conduction port 309 is fixedly communicated with the right side of the upper end of the heat source box 308; the main mechanism 1 comprises a box body 101, a maintenance door 102, an air inlet 103, a cover plate 104 and an evaporation port 105, wherein the maintenance door 102 is movably arranged at the front end of the box body 101, the air inlet 103 is fixedly arranged at the left side of the maintenance door 102, the cover plate 104 is fixedly arranged at the upper end of the box body 101, the evaporation port 105 is fixedly arranged at the left side of the box body 101, the interior of the device can be protected through the arranged box body 101, the internal equipment of the device can be maintained conveniently through the arranged maintenance door 102, the air at the outer end can be sucked into the device through the arranged air inlet 103, the pressure inside the compression tank 305 can be released conveniently through the arranged cover plate 104, and the refrigerant air at the outer end can be sucked through the arranged evaporation port 105;

the heat exchange mechanism 2 comprises a fixed support 201, an evaporator 202, a condenser pipe 203, a power supply block 204, a fan 205, a water inlet pipe 206, a connecting pipe 207 and a water outlet pipe 208, wherein the evaporator 202 is fixedly arranged at the lower end of the fixed support 201, the condenser pipe 203 is fixedly arranged in the evaporator 202, the power supply block 204 is fixedly arranged at the left end of the evaporator 202, the fan 205 is fixedly arranged at the left side of the power supply block 204, the water inlet pipe 206 is fixedly communicated with the left side of the lower end of the evaporator 202, the connecting pipe 207 is fixedly communicated with the right side of the upper end of the evaporator 202, the water outlet pipe 208 is fixedly communicated with the lower part of the connecting pipe 207, the internal device can be reinforced through the arranged fixed support 201, the water flow in the evaporator 202 is heated by heating an externally-entering refrigerant, the water flow in the evaporator 203 is moved through the condenser pipe, the power supply connection can be carried out through the arranged power supply block 204, the fan 205 can suck external refrigerant air in the arranged, the arranged water flow in the device can be injected through the arranged water flow in the device through the arranged water inlet pipe 206, the device is convenient for subsequent heating, the subsequent heating can be carried out, the subsequent heating through the arranged connecting pipe 207 between the evaporator 202 and the compression tank 305, and the compression tank 305 is convenient for conveying the subsequent heating water flow through the arranged water flow;

the supporting mechanism 4 comprises a fixed bottom rod 401, a supporting frame 402, a cross rod 403, a fixing pin 404, a reinforcing bolt 405 and a fixed supporting plate 406, the supporting frame 402 is fixedly arranged at the upper end of the fixed bottom rod 401, the cross rod 403 is fixedly arranged at the left end of the supporting frame 402, the fixing pin 404 is arranged at the lower end of the supporting frame 402 in a threaded manner, the reinforcing bolt 405 is arranged at the upper end of the fixed bottom rod 401 in a threaded manner, the device and the ground can be reinforced through the arranged fixed bottom rod 401, the device can be supported through the arranged supporting frame 402, the supporting frames 402 can be connected through the arranged cross rod 403, the device is convenient to stabilize, the device is reinforced on the ground through the arranged reinforcing bolt 405, the device can be more stable, and the bottom of the device can be supported through the arranged fixed supporting plate 406; the fixed bottom rods 401 are symmetrically distributed, the supporting frames 402 are symmetrically distributed, the cross rods 403 are symmetrically distributed, the fixed pins 404 are symmetrically distributed, the upper ends of the fixed pins 404 extend to the lower ends of the supporting frames 402, the fixed pins 404 are matched with the supporting frames 402, and the supporting frames 402 and the fixed support plate 406 are connected and reinforced through the arranged fixed pins 404, so that the device can be more stable when being supported; fixed bolster 201 is the symmetric distribution, and condenser pipe 203 is the symmetric distribution, and the right-hand member of connecting pipe 207 extends to the inside of compression jar 305, and looks adaptation between connecting pipe 207 and the compression jar 305 can heat evaporator 202 inside through the compression jar 305 that sets up, lets it can heat the inside rivers heating of drive with inspiratory refrigerant.

The working principle is as follows: before the heat supply device works, a fixed bottom rod 401 of the device is reinforced on the ground through a fixed pin 404, external water flow is injected into the device through a heat source box 308, cold water at the lower end of the heat source box 308 is pumped through a water suction pump 302 and a water conveying pipe 304, the size of the water flow input into a water inlet pipe 206 can be controlled through an arranged expansion valve 303, the water flow is injected into an evaporator 202 through the arranged water inlet pipe 206, external refrigerant air is sucked into the device through an air inlet 103 and an evaporation port 105 through an arranged fan 205, the sucked refrigerant air is injected into a compression tank 305 through a connecting pipe 207 through an arranged condensing pipe 203, air inside the compression tank 305 is heated through an arranged compressor 306, the heated air is returned into the evaporator 202 through a connecting pipe 207 at the lower end of the arranged compression tank 305, the heated air can heat the water flow inside the evaporator 202, the heated and evaporated hot gas is transmitted into the heat source box 308 through an arranged water outlet pipe 208, the heat is transmitted into an indoor pipeline connected with the heat at the upper end of the heat source box 308, and the heat is supplied to the indoor.

It should be finally noted that the above contents are only used to illustrate the technical solutions of the present invention, but not to limit the protection scope of the present invention, and the simple modification or equivalent replacement performed by the technical solutions of the present invention by those skilled in the art does not depart from the spirit and scope of the technical solutions of the present invention.

Claims (6)

1. The utility model provides a refrigerant air source heat pump heating device, includes main part mechanism (1), heat transfer mechanism (2), conduction mechanism (3) and supporting mechanism (4), its characterized in that: the heat exchange mechanism (2) is positioned inside the main body mechanism (1), the conduction mechanism (3) is positioned on the right side of the heat exchange mechanism (2), and the support mechanism (4) is positioned below the main body mechanism (1);

conduction mechanism (3) are including install bin (301), suction pump (302), expansion valve (303), raceway (304), compression jar (305), compressor (306), manometer (307), heat source case (308) and heat conduction mouth (309), suction pump (302) fixed mounting is in the inside of install bin (301), expansion valve (303) fixed mounting is in the left side of suction pump (302), raceway (304) fixed connection is at the right-hand member of suction pump (302), compression jar (305) fixed mounting is in the top of install bin (301), compressor (306) fixed connection is on the right side of compression jar (305), manometer (307) fixed mounting is in the outer end of compressor (306), heat source case (308) fixed mounting is on the right side of compressor (306), heat conduction mouth (309) fixed connection is on the right side of heat source case (308) upper end.

2. The apparatus of claim 1, wherein: the main body mechanism (1) comprises a box body (101), a maintenance door (102), an air inlet (103), a cover plate (104) and an evaporation port (105), wherein the maintenance door (102) is movably arranged at the front end of the box body (101), the air inlet (103) is fixedly arranged at the left side of the maintenance door (102), the cover plate (104) is fixedly arranged at the upper end of the box body (101), and the evaporation port (105) is fixedly arranged at the left side of the box body (101).

3. The apparatus of claim 2, wherein: the heat exchange mechanism (2) comprises a fixed support (201), an evaporator (202), a condensation pipe (203), a power block (204), a fan (205), a water inlet pipe (206), a connecting pipe (207) and a water outlet pipe (208), wherein the evaporator (202) is fixedly arranged at the lower end of the fixed support (201), the condensation pipe (203) is fixedly arranged in the evaporator (202), the power block (204) is fixedly arranged at the left end of the evaporator (202), the fan (205) is fixedly arranged at the left side of the power block (204), the water inlet pipe (206) is fixedly communicated with the left side of the lower end of the evaporator (202), the connecting pipe (207) is fixedly communicated with the right side of the upper end of the evaporator (202), and the water outlet pipe (208) is fixedly communicated with the lower part of the connecting pipe (207).

4. The device of claim 3, wherein: the supporting mechanism (4) comprises a fixed bottom rod (401), a supporting frame (402), a cross rod (403), a fixing pin (404), a reinforcing bolt (405) and a fixed support plate (406), the supporting frame (402) is fixedly installed at the upper end of the fixed bottom rod (401), the cross rod (403) is fixedly installed at the left end of the supporting frame (402), the fixing pin (404) is installed at the lower end of the supporting frame (402) in a threaded mode, and the reinforcing bolt (405) is installed at the upper end of the fixed bottom rod (401) in a threaded mode.

5. The apparatus of claim 4, wherein: the fixed bottom rods (401) are symmetrically distributed, the supporting frames (402) are symmetrically distributed, the cross rods (403) are symmetrically distributed, the fixed pins (404) are symmetrically distributed, the upper ends of the fixed pins (404) extend to the lower ends of the supporting frames (402), and the fixed pins (404) are matched with the supporting frames (402).

6. The apparatus of claim 5, wherein: fixed bolster (201) are the symmetric distribution, condenser pipe (203) are the symmetric distribution, the right-hand member of connecting pipe (207) extends to the inside of compression jar (305), looks adaptation between connecting pipe (207) and the compression jar (305).

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