CN218237810U - Heat energy recycling device of air conditioner - Google Patents

Abstract

The utility model relates to an air conditioner heat recovery technical field just discloses a heat recovery utilizes device of air conditioner, the load simulator comprises a case, disappointing pipe is installed to the bottom surface of machine case, disappointing pipe's internally mounted has one-way relief valve, thermal-insulated heated board is installed to the inner wall of machine case, the heat preservation chamber has been seted up to thermal-insulated heated board's inside, the metal pipe is installed to the inside top surface in heat preservation chamber, outlet duct and lower outlet duct are installed respectively to metal pipe's surface upside and downside, the pipe inner chamber has been seted up to metal pipe's inside. The heat energy recycling device of the air conditioner is characterized in that the heat dissipation guide pipe of the air conditioner external unit and the external water pipe are respectively communicated with the inner cavity of the guide pipe, so that heat can be introduced into the air conditioner external unit, and the water pipe can be heated through the metal guide pipe, so that the heated warm water can be used by people.

Description

Heat energy recycling device of air conditioner

Technical Field

The utility model relates to an air conditioner heat recovery technical field specifically is a heat recovery utilizes device of air conditioner.

Background

The air conditioner, i.e. an air conditioner, has the function of adjusting parameters such as the temperature, humidity, cleanliness and air flow rate of air in a room (or an enclosed space or a region) so as to meet the requirements of human comfort or technological processes.

Air conditioning unit can be installed in the great place in space such as some superstores, office building mostly for indoor cooling or heating, air conditioning unit in the use, outer machine can discharge certain hot-air because of the heat dissipation, and these hot-air mostly can directly discharge outdoors, and then cause the waste of heat energy.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides a heat recovery utilizes device of air conditioner has solved the inconvenient recycle's of air conditioning unit's heat energy problem.

(II) technical scheme

For the purpose of realizing the convenient recycle of the heat energy of above-mentioned air conditioning unit, the utility model provides a following technical scheme: a heat energy recycling device of an air conditioner comprises a case, wherein an air release pipe is installed on the bottom surface of the case, a one-way pressure release valve is installed inside the air release pipe, a heat insulation board is installed on the inner wall of the case, a heat insulation cavity is formed in the heat insulation board, a metal guide pipe is installed on the top surface of the interior of the heat insulation cavity, an upper air outlet pipe and a lower air outlet pipe are respectively installed on the upper side and the lower side of the outer surface of the metal guide pipe, and a guide pipe inner cavity is formed in the metal guide pipe;

the utility model discloses a heat-insulating air conditioner, including pipe inner chamber, last air duct, last heat conduction panel, the last surface mounting of air duct has down heat conduction panel down, go up the heat conduction panel and install the interior water pipe down between the heat conduction panel, through being linked together with last air duct and air duct down with outer quick-witted cooling tube of air conditioner respectively, and then can make progress the leading-in air conditioner during operation heat that produces of air duct and the inside of air duct down, and the heat can flow to the bottom of last air duct and air duct down, be linked together outside water pipe and interior water pipe, can be to the leading-in rivers in the inside of interior water pipe, the rivers can flow to the bottom of interior water pipe, and the heat can be in-process that flows to the bottom in last air duct and air duct down, can heat the interior water pipe from upper and lower both sides through last heat conduction panel, and then can heat the inside rivers that flow down of interior water pipe, and be warm water state after the rivers heating, and can be by the bottom outflow of interior water pipe, so that supply people to use.

Preferably, the material of going up heat conduction panel and heat conduction panel down is the aluminium system panel, is convenient for through the last heat conduction panel and the heat conduction panel down of aluminium system panel material, can heat the inside rivers of internal water pipe from upper and lower both sides.

Preferably, go up the outlet duct and run through metal conduit and be linked together with last air duct, the outlet duct runs through metal conduit and is linked together with air duct down, go up the inside downflow heat of air duct and lower air duct, can be discharged to the inside in heat preservation chamber by last outlet duct and lower outlet duct respectively, so that increase the temperature of heat preservation intracavity portion, thereby can follow the outside and heat the metal conduit once more and keep warm, so that the heat reuse that the outer machine of air conditioner produced, and along with the inside thermal increase in heat preservation chamber, can make the inside pressure increase in heat preservation chamber, when the inside pressure increase in heat preservation chamber reaches the certain degree, can discharge the outside to the quick-witted case with the heat through one-way relief valve, prevent that the inside pressure of heat preservation chamber is too big to produce danger, and one-way theory of operation does: the working principle of the one-way valve is that the medium is only allowed to flow in one direction, and the medium is prevented from flowing in the opposite direction, generally, the valve works automatically, and a valve clack is opened under the action of the pressure of fluid flowing in one direction; when the fluid flows in the opposite direction, the valve flap is combined by the fluid pressure and the self-weight of the valve flap to act on the valve seat, thereby cutting off the flow.

Preferably, the bottom ends of the upper air duct and the lower air duct are located inside the inner cavity of the duct and are in a closed state, so that heat flowing downwards from the upper air duct and the lower air duct is prevented from being dissipated to the outside of the case, and therefore heat generated by an air conditioner outdoor unit can be reused.

Preferably, the bottom end of the inner water pipe penetrates through the metal guide pipe and extends to the outer side of the case, so that the heated water flow can be discharged through the inner water pipe conveniently and can be used by people.

Preferably, the heat insulation and heat preservation plate is a polyurethane foam plate, and the polyurethane heat preservation material is the heat preservation material with the best performance in the current market and mulberry. The polyurethane foam board has the advantages of light weight, low heat conductivity coefficient, good heat resistance, aging resistance, easy adhesion with other substrates, no generation of molten drops during combustion and the like, is convenient to pass through the heat insulation board made of the polyurethane foam board, can insulate the heat of the heat insulation cavity again, and can reuse the heat exhausted by the upper air outlet pipe and the lower air outlet pipe.

Compared with the prior art, the utility model provides a heat recovery utilizes device of air conditioner possesses following beneficial effect:

1. this heat recovery utilizes device of air conditioner, be linked together with last air duct and air duct down through outer quick-witted cooling tube of air conditioner respectively, and then can make up the heat that the leading-in air conditioner during operation of the inside of air duct and air duct down produced, and the heat can make up the bottom flow of air duct and air duct down, be linked together outside water pipe and interior water pipe, can the leading-in rivers in inside of interior water pipe, the rivers can flow to the bottom of interior water pipe, and the heat is at the inside in-process that flows to the bottom of last air duct and air duct down, can heat the interior water pipe from upper and lower both sides through last heat conduction panel and lower heat conduction panel, and then can heat the inside rivers that flow downwards of interior water pipe, and be warm water state after the rivers heating, and can be flowed by the bottom of interior water pipe, so that the confession people used.

2. This heat recovery utilizes device of air conditioner, the inside heat that flows downwards of last air duct and lower air duct can be discharged to the inside in heat preservation chamber by last outlet duct and lower outlet duct respectively to increase the inside temperature in heat preservation chamber, thereby can follow the outside and heat the heat preservation to the metal pipe once more, so that the heat reuse to the outer machine production of air conditioner.

Drawings

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

FIG. 2 is a main sectional view of the structure case of the present invention;

FIG. 3 is a schematic view of the structural metal conduit of the present invention;

fig. 4 is an enlarged schematic view of a structure shown in fig. 1 according to the present invention.

Wherein: 1. a chassis; 2. an air escape pipe; 3. a one-way pressure relief valve; 4. a heat insulation board; 5. a heat preservation cavity; 6. a metal conduit; 7. an upper air outlet pipe; 8. a lower air outlet pipe; 9. a catheter lumen; 10. an upper airway; 11. a lower airway; 12. an upper thermally conductive panel; 13. a lower thermally conductive panel; 14. an inner water pipe.

Detailed Description

Please refer to fig. 1-4, the utility model provides a heat energy recycling device of air conditioner, including the machine case 1, the bottom surface of machine case 1 is installed with disappointing pipe 2, the inside of disappointing pipe 2 is installed with one-way relief valve 3, the inner wall of machine case 1 is installed with thermal-insulated heated board 4, thermal-insulated heated board 4's inside has seted up heat preservation chamber 5, the inside top surface of heat preservation chamber 5 has installed metal pipe 6, metal pipe 6's surface upside and downside are installed with upper outlet duct 7 and lower outlet duct 8 respectively, the bottom of lower outlet duct 8 is located the inside bottom surface top in heat preservation chamber 5, the inside of metal pipe 6 has seted up pipe inner chamber 9;

the upper air duct 10 is installed on the top surface inside the inner duct cavity 9, the lower air duct 11 is installed on the bottom surface inside the inner duct cavity 9, the upper heat conduction panel 12 is installed on the bottom surface of the upper air duct 10, the lower heat conduction panel 13 is installed on the upper surface of the lower air duct 11, the inner water pipe 14 is installed between the upper heat conduction panel 12 and the lower heat conduction panel 13, the outer radiating pipe of the air conditioner is respectively communicated with the upper air duct 10 and the lower air duct 11, heat generated during the operation of the air conditioner can be led into the upper air duct 10 and the lower air duct 11, the heat can flow towards the bottom ends of the upper air duct 10 and the lower air duct 11, the outer water pipe is communicated with the inner water pipe 14, water flow can be led into the inner water pipe 14, the water flow can flow towards the bottom end of the inner water pipe 14, and in the process that the heat flows towards the bottom ends inside the upper air duct 10 and the lower air duct 11, the inner water pipe 14 can be heated from the upper side and the lower side through the upper heat conduction panel 12 and the lower heat conduction panel 13, water flow flowing downwards inside the inner water pipe 14 can be heated, and then flows out from the bottom end of the inner water pipe 14 for people.

Further, the upper heat conducting panel 12 and the lower heat conducting panel 13 are both made of aluminum panels, so that the water flow inside the inner water pipe 14 can be heated from the upper side and the lower side through the upper heat conducting panel 12 and the lower heat conducting panel 13 made of aluminum panels.

Further, go up outlet duct 7 and run through metal conduit 6 and be linked together with last air duct 10, lower outlet duct 8 runs through metal conduit 6 and is linked together with lower air duct 11, go up air duct 10 and the inside downflow heat of 11 inside down air ducts, can be discharged to the inside in heat preservation chamber 5 by last outlet duct 7 and lower outlet duct 8 respectively, so as to increase the temperature of 5 inside heat preservation chambers, thereby can heat the heat preservation to metal conduit 6 once more from the outside, so as to reuse the heat that the outer machine of air conditioner produced, and along with the inside thermal increase in heat preservation chamber 5, can make the inside pressure increase in heat preservation chamber 5, when the inside pressure increase in heat preservation chamber 5 reaches certain degree, can discharge the heat to the outside of quick-witted case 1 through one-way relief valve 3, prevent 5 inside pressures in heat preservation chamber from too big production danger, and the theory of operation of one-way relief valve 3 does: the working principle of the one-way valve is that the medium is allowed to flow in one direction and is prevented from flowing in the opposite direction, generally, the valve works automatically, and the valve clack is opened under the action of fluid pressure flowing in one direction; when the fluid flows in the opposite direction, the valve flap is combined by the fluid pressure and the self-weight of the valve flap to act on the valve seat, thereby cutting off the flow.

Furthermore, the bottom ends of the upper air duct 10 and the lower air duct 11 are located inside the duct inner cavity 9 and are in a closed state, so that the downward flowing heat of the upper air duct 10 and the lower air duct 11 is prevented from being dissipated to the outside of the case 1, and the heat generated by an air conditioner external unit can be reused.

Furthermore, the bottom end of the inner water pipe 14 penetrates through the metal guide pipe 6 and extends to the outside of the case 1, so that the heated water flow can be discharged through the inner water pipe 14 for people to use.

Further, the heat insulation board 4 is a polyurethane foam board, and a polyurethane heat insulation material is the best heat insulation material in the current market and mulberry performance. The heat insulation plate has the excellent performances of light weight, low heat conductivity coefficient, good heat resistance, aging resistance, easy adhesion with other base materials, no generation of molten drops during combustion and the like, is convenient to perform heat insulation on the heat insulation cavity 5 again through the heat insulation plate 4 made of the polyurethane foam plate material, and can reuse the heat discharged by the upper air outlet pipe 7 and the lower air outlet pipe 8.

When the heat pipe is used, the heat generated during the operation of the air conditioner can be introduced into the upper air duct 10 and the lower air duct 11 by respectively communicating the heat radiating pipe of the air conditioner external unit with the upper air duct 10 and the lower air duct 11, the heat can flow towards the bottom ends of the upper air duct 10 and the lower air duct 11, the external water pipe is communicated with the internal water pipe 14, water flow can be introduced into the internal water pipe 14, the water flow can flow towards the bottom end of the internal water pipe 14, and the heat can flow towards the bottom end in the upper air duct 10 and the lower air duct 11, the internal water pipe 14 can be heated from the upper side and the lower side through the upper heat conducting panel 12 and the lower heat conducting panel 13, the water flow flowing downwards in the internal water pipe 14 can be heated, and is warm water after being heated and can flow out from the bottom end of the internal water pipe 14 for people to use, the heat flowing downwards in the upper air duct 10 and the lower air duct 11 can be discharged into the heat preserving cavity 5 through the upper air outlet pipe 7 and the lower air outlet pipe 8 respectively, so as to increase the temperature in the heat preserving cavity 5, and further heat can be heated from the outside for recycling the heat generated by the air conditioner external unit.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a heat recovery utilizes device of air conditioner, includes quick-witted case (1), its characterized in that: the heat insulation and heat preservation cabinet is characterized in that an air release pipe (2) is installed on the bottom surface of the cabinet (1), a one-way pressure release valve (3) is installed inside the air release pipe (2), a heat insulation and heat preservation plate (4) is installed on the inner wall of the cabinet (1), a heat preservation cavity (5) is formed inside the heat insulation and heat preservation plate (4), a metal guide pipe (6) is installed on the top surface inside the heat preservation cavity (5), an upper air outlet pipe (7) and a lower air outlet pipe (8) are installed on the upper side and the lower side of the outer surface of the metal guide pipe (6) respectively, the bottom end of the lower air outlet pipe (8) is located above the bottom surface inside the heat preservation cavity (5), and a guide pipe inner cavity (9) is formed inside the metal guide pipe (6);

air duct (10) are installed to the inside top surface of pipe inner chamber (9), air duct (11) down are installed to the inside bottom surface of pipe inner chamber (9), go up heat conduction panel (12) are installed to the bottom surface of air duct (10), the last surface mounting of air duct (11) has down heat conduction panel (13) down, go up heat conduction panel (12) and install interior water pipe (14) down between heat conduction panel (13).

2. A heat energy recovery and utilization apparatus for an air conditioner according to claim 1, characterized in that: the upper heat conduction panel (12) and the lower heat conduction panel (13) are both made of aluminum panels.

3. A heat energy recovery and utilization apparatus for an air conditioner according to claim 1, characterized in that: the upper air outlet pipe (7) penetrates through the metal guide pipe (6) and is communicated with the upper air guide pipe (10), and the lower air outlet pipe (8) penetrates through the metal guide pipe (6) and is communicated with the lower air guide pipe (11).

4. A heat energy recovery and utilization apparatus for an air conditioner according to claim 1, characterized in that: the bottom ends of the upper air duct (10) and the lower air duct (11) are positioned in the inner cavity (9) of the catheter and are in a closed state.

5. A heat energy recovery and utilization apparatus for an air conditioner according to claim 1, characterized in that: the bottom end of the inner water pipe (14) penetrates through the metal guide pipe (6) and extends to the outer side of the case (1).

6. The heat energy recovery and utilization device of an air conditioner according to claim 1, characterized in that: the heat insulation and heat preservation plate (4) is a polyurethane foam plate.

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