CN210951570U - Domestic water auxiliary heat exchange air conditioning unit - Google Patents

Abstract

The utility model discloses a domestic water assists heat transfer air conditioning unit, including inlet tube, outlet pipe, exhaust pipe, air-supply line, body shell, heat exchanger and axial fan, be equipped with exhaust pipe and air-supply line on the body shell, the heat exchanger links to each other with the inlet tube and the outlet pipe that stretch out the body shell respectively, heat exchanger and axial fan set up in the body shell, be equipped with two vertical tube-shape cavitys in the body shell, be equipped with the spiral water pipe in the tube-shape cavity, the axis of spiral water pipe is vertical and upper and lower both ends communicate with inlet tube and drain pipe respectively, the spiral water pipe is as the heat exchanger and inboard upper end is equipped with axial fan; an exhaust pipe is arranged on the part of the body shell which is positioned right above the axial flow fan, and an air inlet pipe is arranged on the part of the lower end of the body shell which is positioned right below the axial flow fan. The utility model discloses a double-chamber formula structure is favorable to the miniaturization, is convenient for under the condition of lower wind noise, realizes the quick heat absorption of rivers and the little effect of air current flow resistance, and is less to the structural destruction nature of building.

Description

Domestic water auxiliary heat exchange air conditioning unit

Technical Field

The utility model relates to a technical field of water air conditioner especially relates to a domestic water assists heat transfer air conditioning unit.

Background

The water-assisted heat exchange air conditioning unit, commonly called as a water air conditioner, generally uses underground water as circulation, the water temperature is about 18 ℃ usually when the water temperature is about 15 meters underground, water is pumped up by a water pump in summer and passes through an indoor fan coil to achieve the purpose of refrigeration, and return water flows back to the underground through a pipeline. The electricity consumption of the common air conditioner on the market is about 1.2 kilowatt-hour, and the electricity consumption of the 'water air conditioner' in one day is only 0.5 kilowatt-hour, so that the water air conditioner saves the electricity resources. The existing water-assisted heat exchange air conditioning unit generally comprises a water inlet pipe, a water outlet pipe, an exhaust pipe, an air inlet pipe, a body shell, a heat exchanger and an axial flow fan, wherein the exhaust pipe and the air inlet pipe are arranged on the body shell, the heat exchanger is respectively connected with the water inlet pipe and the water outlet pipe which extend out of the body shell, the heat exchanger and the axial flow fan are arranged in the body shell, the body shell is of a box-shaped structure, in order to ensure the heat exchange effect of heat exchange by utilizing a water body, the volume of each part is large, and in the direct air supply to the indoor and the air suction from the indoor, in order to realize low wind noise, a general pipeline is thick, and the.

SUMMERY OF THE UTILITY MODEL

To the problem that exists above, the utility model provides a domestic water assists heat transfer air conditioning unit adopts double-chamber formula structure, is favorable to the miniaturization, is convenient for under the condition of lower wind noise, realizes the quick heat absorption of rivers and the little effect of air current flow resistance, and sets up two sets of exhaust duct that admits air again, can realize the air conditioner heat conduction mode that many tubules were ventilated, and is less to the structural destruction of building.

The technical scheme of the utility model lies in:

the utility model provides a domestic water assists heat transfer air conditioning unit, including inlet tube, outlet pipe, exhaust pipe, air-supply line, body shell, heat exchanger and axial fan, be equipped with exhaust pipe and air-supply line on the body shell, the heat exchanger links to each other with the inlet tube and the outlet pipe that stretch out the body shell respectively, heat exchanger and axial fan set up in the body shell, be provided with two vertical tube-shape cavitys in the body shell, be equipped with the spiral water pipe in the tube-shape cavity, the axis of spiral water pipe is vertical and upper and lower both ends communicate with inlet tube and drain pipe respectively, the spiral water pipe is as the heat exchanger and inboard upper end is equipped with axial fan;

an exhaust pipe is arranged on the part of the machine body shell, which is positioned right above the axial flow fan, an air inlet pipe is arranged on the part of the lower end of the machine body shell, which is positioned right below the axial flow fan, so that two water flows spirally flow downwards from top to bottom, and two air flows respectively pass through the centers of the spiral water flows from bottom to top.

Further, the machine body shell comprises a guide cylinder, an upper embedded ferrule, a lower embedded ferrule, a vertical fixing frame, a heat insulation sleeve and a heat conduction cylinder, wherein the upper embedded ferrule is arranged on each of the left side and the right side of the upper end of the vertical fixing frame, the lower embedded ferrule is arranged below the upper embedded ferrule and the lower embedded ferrule correspondingly on the left side and the right side of the lower end of the vertical fixing frame, the heat insulation sleeve is embedded between the upper embedded ferrule and the lower embedded ferrule which are positioned on the same side of the vertical fixing frame in a concentric and opposite mode, and a cylindrical cavity is formed inside the heat insulation sleeve.

Furthermore, the spiral water pipe is divided into a left spiral pipe and a right spiral pipe corresponding to the two heat insulation sleeves, heat-conducting cylinders are embedded in the inner sides of the left spiral pipe and the right spiral pipe, and an upper embedded ferrule and a lower embedded ferrule are respectively embedded in the upper end and the lower end of each heat-conducting cylinder.

Furthermore, the opposite end surfaces of the upper embedded ferrule and the lower embedded ferrule are respectively embedded with guide cylinders, and the two guide cylinders on the same side of the vertical fixing frame extend oppositely and are respectively concentric with the heat-conducting cylinders on the same side.

Further, the lower end of the upper embedded ferrule is respectively provided with an axial flow fan, the upper end and the lower end of the axial flow fan are respectively an air exhaust end and an air inlet end, and the guide cylinders on the upper side and the lower side of the heat conduction cylinder are respectively provided with an air inlet pipe and an air exhaust pipe.

Furthermore, the exhaust duct comprises a first exhaust duct and a second exhaust duct, and the first exhaust duct and the second exhaust duct are respectively arranged at the upper end of the machine body shell;

furthermore, the air inlet pipe comprises a first air inlet pipe and a second air inlet pipe, and the first air inlet pipe and the second air inlet pipe are respectively arranged at the lower end of the machine body shell.

Furthermore, the end parts of the first air inlet pipe, the second air inlet pipe, the first exhaust pipe and the second exhaust pipe, which are close to the heat conducting cylinder, are respectively nested with a port plate, and the port plates are embedded in the center of the end part, which is far away from the heat conducting cylinder, of the guide cylinder.

Further, left side spiral pipe and right spiral pipe spiral opposite direction, the upper end subsides of left side spiral pipe and right spiral pipe spiral are leaned on together and are connected with the flow divider, the end and the inlet tube intercommunication of intaking of flow divider, the lower extreme subsides of left side spiral pipe and right spiral pipe spiral are leaned on together and are connected with the flow collecting valve, the drainage end and the drain pipe intercommunication of flow collecting valve for rivers top-down flows along left spiral pipe and right spiral pipe spiral respectively.

Furthermore, the vertical fixing frame is of an H-shaped structure, fastening connection holes are formed in the left side and the right side of the vertical fixing frame respectively, and the vertical fixing frame is fastened on a wall through expansion bolts penetrating through the fastening connection holes.

The utility model discloses owing to adopted above-mentioned technique, make it compare specific positive beneficial effect with prior art and be:

1. the utility model discloses the setting has the organism shell of two tube-shape cavities, the upper end of tube-shape cavity is equipped with axial fan, axial fan is drawn the air current from bottom to top, the air current passes in the heat conduction section of thick bamboo from bottom to top, the heat conduction section of thick bamboo in the tube-shape cavity adopts the high heat conduction material of graphite alkene to make, the heat of air current can transmit in the heat conduction section of thick bamboo fast, because two heat conduction section of thick bamboo outsides are equipped with respectively and adopt the copper pipe spiral to curl left spiral pipe and the right spiral pipe that forms, the heating power of heat conduction section of thick bamboo is the distribution mode of "high-end-up-low" down respectively.

2. The utility model discloses set up two sets of relatively independent inlet and exhaust duct, can realize the air conditioner heat conduction mode that many tubules were ventilated, compare in the thicker inlet and exhaust duct of current water air conditioner, it is less to the structural destruction of building.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a rear view of the present invention;

FIG. 3 is a cross-sectional view taken at A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken at B-B of FIG. 2;

fig. 5 is a schematic structural view of a double-helix heat exchange core of the present invention.

In the figure: 1-a first exhaust duct, 2-a port plate, 3-a guide cylinder, 4-an upper embedded ferrule, 5-a vertical fixing frame, 6-a heat insulation sleeve, 7-a fastening connecting hole, 8-an outlet pipe, 9-a first air inlet pipe, 10-a second air inlet pipe, 11-a lower embedded ferrule, 12-an inlet pipe, 13-a second exhaust duct, 14-a left spiral pipe, 15-a right spiral pipe, 16-a right axial flow fan, 17-a left axial flow fan and 18-a guide cylinder.

Detailed Description

The first embodiment is as follows:

as shown in attached figures 1-5, the utility model provides a domestic water auxiliary heat exchange air conditioning unit, which comprises a water inlet pipe 12, a water outlet pipe 8, an exhaust pipe, an air inlet pipe, a body shell, a heat exchanger and an axial flow fan, wherein the body shell is provided with the exhaust pipe and the air inlet pipe, the heat exchanger is respectively connected with the water inlet pipe 12 and the water outlet pipe 8 which extend out of the body shell, the heat exchanger and the axial flow fan are arranged in the body shell, two vertical cylindrical cavities are arranged in the body shell, a spiral water pipe is arranged in the cylindrical cavities, the axial line of the spiral water pipe is vertical, the upper end and the lower end of the spiral water pipe are respectively communicated with the water inlet pipe 12 and the water outlet pipe, the spiral water pipe is used as the heat exchanger, the axial flow fan is arranged at the upper end of the inner side of the body shell, the exhaust pipe is arranged, the two air flows respectively pass through the center of the spiral water flow from bottom to top.

The machine body shell comprises a guide cylinder 183, an upper embedded ferrule 4, a lower embedded ferrule 11, a vertical fixing frame 5, a heat insulation sleeve 6 and a heat conduction cylinder, wherein the upper embedded ferrule 4 is respectively arranged on the left side and the right side of the upper end of the vertical fixing frame 5, the lower embedded ferrule 11 is respectively arranged on the left side and the right side of the lower end of the vertical fixing frame 5 corresponding to the upper embedded ferrule and the right side of the ferrule, the upper embedded ferrule 4 and the lower embedded ferrule 11 on the same side of the vertical fixing frame 5 are concentric, the heat insulation sleeve 6 is embedded between the upper embedded ferrule and the lower embedded ferrule 11, and a; the spiral water pipe is divided into a left spiral pipe 14 and a right spiral pipe 15 corresponding to the two heat insulation sleeves 6, heat-conducting cylinders are embedded in the inner sides of the left spiral pipe 14 and the right spiral pipe 15, and an upper embedded ferrule 4 and a lower embedded ferrule are respectively embedded in the upper end and the lower end of each heat-conducting cylinder; the opposite end surfaces of the upper embedded ferrule 4 and the lower embedded ferrule 11 are respectively embedded with a guide cylinder 183, and the two guide cylinders 183 on the same side of the vertical fixing frame 5 extend oppositely and are respectively concentric with the heat-conducting cylinders on the same side; the lower ends of the two upper embedded ferrules 4 are respectively provided with a left axial flow fan 17 and a right axial flow fan 16, the upper and lower ends of the left axial flow fan 17 and the right axial flow fan 16 are respectively an air exhaust end and an air inlet end, and the guide cylinders 183 on the upper and lower sides of the heat conduction cylinder are respectively provided with an air inlet pipe and an exhaust pipe.

The exhaust pipe comprises a first exhaust pipe 1 and a second exhaust pipe 13, and the first exhaust pipe 1 and the second exhaust pipe 13 are respectively arranged at the upper end of the machine shell; the air inlet pipes comprise a first air inlet pipe 9 and a second air inlet pipe 10, and the first air inlet pipe 9 and the second air inlet pipe 10 are respectively arranged at the lower end of the machine body shell; the end parts of the first air inlet pipe 9, the second air inlet pipe 10, the first exhaust pipe 1 and the second exhaust pipe 13 close to the heat conducting cylinder are respectively nested with the port plate 2, and the port plate 2 is embedded in the center of the end part of the guide cylinder 183 far away from the heat conducting cylinder.

And in order to realize the uniform water inlet and the uniform water discharge of water flow, the left spiral pipe 14 and the right spiral pipe 15 are arranged in opposite spiral directions, the upper ends of the left spiral pipe 14 and the right spiral pipe 15 are attached together and connected with a flow dividing valve, the water inlet end of the flow dividing valve is communicated with the water inlet pipe 12, the lower ends of the left spiral pipe 14 and the right spiral pipe 15 are attached together and connected with a flow collecting valve, and the water discharge end of the flow collecting valve is communicated with a water discharge pipe, so that the water flow flows along the left spiral pipe 14 and the right spiral pipe 15 from top to bottom respectively.

The operation mechanism is as follows: the vertical fixing frame 5 is in an H-shaped structure, the left side and the right side of the vertical fixing frame are respectively provided with a fastening connecting hole 7, the vertical fixing frame 5 is fastened on a wall by an expansion bolt penetrating through the fastening connecting holes 7, a water inlet pipe 12 is supplied with water by a water pump, the water flow enters a left spiral pipe 14 and a right spiral pipe 15 from the water inlet pipe 12 through a flow divider valve respectively, then flows downwards along the left spiral pipe 14 and the right spiral pipe 15 respectively in a spiral mode, at the moment, an axial flow fan drives the air flow from bottom to top, the air flow penetrates through a heat conduction cylinder from bottom to top, the heat conduction cylinder is made of graphene high heat conduction material, the heat of the air flow can be rapidly transferred into the heat conduction cylinder, because the left spiral pipe 14 and the right spiral pipe 15 which are formed by spirally winding copper pipes are arranged outside the two heat conduction cylinders respectively, the heating power of the, and set up two sets of independent air intake and exhaust duct, can realize the air conditioner heat conduction mode that many tubules ventilate, compare in the thicker air intake and exhaust duct of current water air conditioner, it is less to the structural destruction of building.

Claims (10)

1. The utility model provides a domestic water assists heat transfer air conditioning unit, includes inlet tube, outlet pipe, exhaust pipe, air-supply line, body shell, heat exchanger and axial fan, be equipped with exhaust pipe and air-supply line on the body shell, the heat exchanger links to each other with the inlet tube and the outlet pipe that stretch out the body shell respectively, heat exchanger and axial fan set up its characterized in that in the body shell: two vertical cylindrical cavities are formed in the machine body shell, spiral water pipes are arranged in the cylindrical cavities, the axes of the spiral water pipes are vertical, the upper ends and the lower ends of the spiral water pipes are respectively communicated with a water inlet pipe and a water outlet pipe, the spiral water pipes serve as heat exchangers, and axial flow fans are arranged at the upper ends of the inner sides of the spiral water pipes;

an exhaust pipe is arranged on the part of the machine body shell, which is positioned right above the axial flow fan, an air inlet pipe is arranged on the part of the lower end of the machine body shell, which is positioned right below the axial flow fan, so that two water flows spirally flow downwards from top to bottom, and two air flows respectively pass through the centers of the spiral water flows from bottom to top.

2. The domestic water auxiliary heat exchange air conditioning unit of claim 1, wherein: the machine body shell comprises a guide cylinder, an upper embedded ferrule, a lower embedded ferrule, a vertical fixing frame, a heat insulation sleeve and a heat conduction cylinder, wherein the upper embedded ferrule is arranged on the left side and the right side of the upper end of the vertical fixing frame respectively, the lower embedded ferrule is arranged below the upper embedded ferrule and the lower embedded ferrule respectively and corresponds to the left side and the right side of the lower end of the vertical fixing frame, the heat insulation sleeve is embedded between the upper embedded ferrule and the lower embedded ferrule which are positioned on the same side of the vertical fixing frame in a concentric and opposite mode, and a cylindrical cavity is arranged inside the.

3. The domestic water auxiliary heat exchange air conditioning unit of claim 2, wherein: the spiral water pipe is divided into a left spiral pipe and a right spiral pipe corresponding to the two heat insulation sleeves, heat conducting cylinders are embedded in the inner sides of the left spiral pipe and the right spiral pipe, and an upper embedded ferrule and a lower embedded ferrule are respectively embedded in the upper end and the lower end of each heat conducting cylinder.

4. The domestic water auxiliary heat exchange air conditioning unit of claim 3, wherein: the opposite end faces of the upper embedded ferrule and the lower embedded ferrule are respectively embedded with guide cylinders, and the two guide cylinders on the same side of the vertical fixing frame extend oppositely and are respectively concentric with the heat-conducting cylinders on the same side.

5. The domestic water auxiliary heat exchange air conditioning unit of claim 4, wherein: the lower end of the upper embedded ferrule is respectively provided with an axial flow fan, the upper end and the lower end of the axial flow fan are respectively an air exhaust end and an air inlet end, and the guide cylinders on the upper side and the lower side of the heat conduction cylinder are respectively provided with an air inlet pipe and an air exhaust pipe.

6. The domestic water auxiliary heat exchange air conditioning unit of claim 5, wherein: the exhaust pipe includes first exhaust pipe and second exhaust pipe, first exhaust pipe and second exhaust pipe establish the upper end at the body shell respectively.

7. The domestic water auxiliary heat exchange air conditioning unit of claim 6, wherein: the air inlet pipe comprises a first air inlet pipe and a second air inlet pipe, and the first air inlet pipe and the second air inlet pipe are respectively arranged at the lower end of the machine body shell.

8. The domestic water auxiliary heat exchange air conditioning unit of claim 7, wherein: the end parts of the first air inlet pipe, the second air inlet pipe, the first exhaust pipe and the second exhaust pipe, which are close to the heat-conducting cylinder, are respectively nested with a port plate, and the port plates are embedded in the center of the end part, far away from the heat-conducting cylinder, of the guide cylinder.

9. The domestic water auxiliary heat exchange air conditioning unit of claim 8, wherein: left side spiral pipe and right spiral pipe spiral opposite direction, the upper end subsides of left side spiral pipe and right spiral pipe spiral are leaned on together and are connected with the flow divider, the end and the inlet tube intercommunication of intaking of flow divider, the lower extreme of left side spiral pipe and right spiral pipe spiral pastes and leans on together and is connected with the flow collecting valve, the drainage end and the drain pipe intercommunication of flow collecting valve for rivers top-down flows along left spiral pipe and right spiral pipe spiral respectively.

10. A domestic water assisted heat exchange air conditioning unit according to any one of claims 2 to 9, wherein: the vertical fixing frame is of an H-shaped structure, fastening connecting holes are formed in the left side and the right side of the vertical fixing frame respectively, and the vertical fixing frame is fastened on a wall through expansion bolts penetrating through the fastening connecting holes.

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