CN217058002U - Waste energy recovery device of air source heat pump - Google Patents

Abstract

The utility model relates to an air source heat pump technical field, in particular to an air source heat pump waste energy recovery device, including the dust screen frame, the top of dust screen frame is fixed with the roof, the inside of dust screen frame is provided with the air source heat pump body, the top of roof is fixed with the controller, the top of roof is provided with the waste energy utilization subassembly, one side of dust screen frame is provided with connecting box that the quantity is two; through setting up drive assembly and dust removal subassembly, can clean the dust screen frame at the in-process of air source heat pump body work, thereby reduce the condition that the adhesion dust influences the normal use of dust screen frame, and then reduce staff's clearance number of times, the life of dust screen frame has been improved, the maintenance cost in later stage has been reduced, utilize the subassembly through setting up controller and waste energy simultaneously, can carry out the preliminary treatment through waste energy to the water that needs refrigerate or heat, and then the work efficiency of follow-up air source heat pump body has been improved.

Description

Waste energy recovery device of air source heat pump

Technical Field

The utility model relates to an air source heat pump technical field, very much relate to an air source heat pump waste energy recovery unit.

Background

The waste energy recovery device of the air source heat pump is equipment for recovering and reusing waste energy generated during the work of the air source heat pump, so that the effects of improving the resource utilization rate and saving a high-level heat source are achieved.

However, in the in-service use process, the dust screen needs to be installed to the air source heat pump to prevent to absorb the inside normal use that influences the device of dust entering device when the outside air carries out the heat exchange, but long-time back of using, the dust screen is because the adhesion dust leads to the filter effect to reduce or even unable normal filtration, needs the staff regularly to clear up the dust screen and changes, and maintenance cost is higher, current demand of satisfying that can not be fine.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an air source heat pump waste energy recovery device just in order to solve above-mentioned problem, improve the higher problem of air source heat pump dust screen later maintenance cost.

The utility model discloses a following technical scheme realizes above-mentioned purpose, an air source heat pump waste energy recovery device, including the dust screen frame, the top fixed mounting of dust screen frame has the roof, the inside of dust screen frame is provided with the air source heat pump body, the top fixed mounting of roof has the controller, the top of roof is provided with the waste energy and utilizes the subassembly, one side of dust screen frame is provided with quantity and is two connecting-box, the inside of connecting-box is provided with the inlet tube, the one end of inlet tube runs through connecting-box and dust screen frame in proper order and extends to the inside of air source heat pump body, the surface symmetry distribution of dust screen frame has the dust removal subassembly that quantity is two, the waste energy utilizes the inside of subassembly to be provided with drive assembly.

Preferably, the waste energy utilization assembly comprises a waste energy pipe, the waste energy pipe is arranged at the top of the top plate, one end of the waste energy pipe sequentially penetrates through the top plate and is communicated with the air source heat pump body, a temperature sensor is fixedly arranged inside the waste energy pipe, the other end of the waste energy pipe is communicated with two connecting pipes, and the output end of the temperature sensor is electrically connected with the input end of the controller.

Preferably, the inside of two connecting pipes is provided with first solenoid valve and second solenoid valve respectively, two the other end of connecting pipe respectively with two the connecting box is linked together, the input of first solenoid valve and second solenoid valve all with the output electric connection of controller.

Preferably, the dust removal component comprises an installation block, the installation block is fixedly installed on one side of the top plate, a connecting rod is arranged at the top of the installation block, a rotating rod is fixedly connected to the bottom of the connecting rod, the lower end of the rotating rod penetrates through the installation block and is fixedly connected with a knocking ball, and the knocking ball is in contact with the surface of the dustproof screen frame.

Preferably, the surface of dwang is provided with the torsional spring, the one end of torsional spring and the bottom fixed connection of connecting rod, the other end of torsional spring and the fixed surface of installation piece are connected.

Preferably, drive assembly includes deflector and pivot, pivot and deflector set gradually under to on the inner wall of waste energy pipe from last, the fixed surface of pivot is connected with the flabellum, the first cone pulley of waste energy pipe and fixedly connected with is all run through at the both ends of pivot.

Preferably, the driving assembly further comprises a shifting rod, the bottom of the shifting rod is rotatably connected with the top of the top plate, and the top of the shifting rod is fixedly connected with a second cone pulley meshed with the first cone pulley.

The beneficial effects of the utility model are that: through setting up drive assembly and dust removal subassembly, can clean the dust screen frame at the in-process of air source heat pump body work, thereby reduce the condition that the adhesion dust influences the normal use of dust screen frame, and then reduce staff's clearance number of times, the life of dust screen frame has been improved, the maintenance cost in later stage has been reduced, utilize the subassembly through setting up controller and waste energy simultaneously, can carry out the preliminary treatment through the waste energy to the water that needs refrigerate or heat, and then the work efficiency of follow-up air source heat pump body has been improved.

Drawings

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

Fig. 2 is a schematic view of the waste energy utilization assembly and the connection box of the present invention.

Fig. 3 is a schematic view of the connection between the dust removing assembly and the driving assembly of the present invention.

Fig. 4 is a system flow chart of the present invention.

In the figure: 1. a dust-proof screen frame; 2. a controller; 3. a waste energy utilization assembly; 4. a connecting box; 5. a water inlet pipe; 6. a dust removal assembly; 7. a drive assembly; 101. a top plate; 301. a waste energy pipe; 302. a temperature sensor; 303. a connecting pipe; 304. a first solenoid valve; 305. a second solenoid valve; 601. mounting blocks; 602. a connecting rod; 603. a torsion spring; 604. rotating the rod; 605. knocking and hitting the ball; 701. a guide plate; 702. a fan blade; 703. a rotating shaft; 704. a first cone pulley; 705. a second cone; 706. a deflector rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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 efforts all belong to the protection scope of the present invention.

In the specific implementation: 1-4 show, an air source heat pump waste energy recovery device, including dustproof screen frame 1, the top fixed mounting of dustproof screen frame 1 has roof 101, the inside of dustproof screen frame 1 is provided with the air source heat pump body, the top fixed mounting of roof 101 has controller 2, the top of roof 101 is provided with waste energy and utilizes subassembly 3, one side of dustproof screen frame 1 is provided with connecting box 4 that quantity is two, the inside of connecting box 4 is provided with inlet tube 5, the one end of inlet tube 5 runs through connecting box 4 and dustproof screen frame 1 in proper order and extends to the inside of air source heat pump body, the surface symmetry distribution of dustproof screen frame 1 has dust removal subassembly 6 that quantity is two, waste energy utilizes the inside of subassembly 3 to be provided with drive assembly 7, two inlet tubes 5 are leading-in respectively the water that needs refrigeration or heat production, the setting of dustproof screen frame 1 is used for preventing the dust from getting into the inside normal work that influences the air source heat pump body of air source heat pump body.

As shown in fig. 1, 2 and 4, the waste energy utilization assembly 3 includes a waste energy pipe 301, the waste energy pipe 301 is disposed on the top of the top plate 101, one end of the waste energy pipe 301 sequentially penetrates through the top plate 101 and is communicated with the air source heat pump body, a temperature sensor 302 is fixedly mounted inside the waste energy pipe 301, the other end of the waste energy pipe 301 is communicated with two connecting pipes 303, an output end of the temperature sensor 302 is electrically connected with an input end of the controller 2, the waste energy pipe 301 is used for guiding out waste heat or waste cold generated after the air source heat pump body works, the temperature sensor 302 is disposed to detect waste energy so as to distinguish heat energy or cold energy and transmit a signal to the controller 2, a first electromagnetic valve 304 and a second electromagnetic valve 305 are respectively disposed inside the two connecting pipes 303, the other ends of the two connecting pipes 303 are respectively communicated with the two connecting boxes 4, input ends of the first electromagnetic valve 304 and the second electromagnetic valve 305 are both electrically connected with an output end of the controller 2, the signal transmitted by the temperature sensor 302, the controller 2 opens the first electromagnetic valve 304 or the second electromagnetic valve 305, the second electromagnetic valve 305 is closed when the first electromagnetic valve 304 is opened, the first electromagnetic valve 304 is closed when the second electromagnetic valve 305 is opened, and then cold energy or heat energy can be respectively guided into the inside of different connecting pipes 303, the cold energy can be pre-cooled by the inside of the connecting box 4 where the water inlet pipe 5 needs to be refrigerated through the guiding of the connecting pipe 303, thereby accelerating the subsequent refrigeration efficiency, the working efficiency of the device is improved, the heat energy can be preheated by the inside of the connecting box 4 where the water inlet pipe 5 needs to be heated through the guiding of the connecting pipe 303, thereby accelerating the subsequent efficiency of heating water, the waste energy generated when the air source heat pump body works is effectively utilized, and the working efficiency of the air source heat pump body is effectively improved.

As shown in fig. 2, 3 and 4, the dust removing assembly 6 includes an installation block 601, the installation block 601 is fixedly installed on one side of the top plate 101, a connection rod 602 is installed on the top of the installation block 601, a rotation rod 604 is fixedly connected to the bottom of the connection rod 602, the lower end of the rotation rod 604 penetrates through the installation block 601 and is fixedly connected with a striking ball 605, the striking ball 605 contacts with the surface of the dust screen frame 1, the rotation rod 604 can be driven to rotate by the rotation of the connection rod 602 through the rotation rod 602, so as to drive the position of the striking ball 605 to deviate, a torsion spring 603 is installed on the surface of the rotation rod 604, one end of the torsion spring 603 is fixedly connected with the bottom of the connection rod 602, the other end of the torsion spring 603 is fixedly connected with the surface of the installation block 601, when the connection rod 602 rotates, the connection rod 602 can drive the torsion spring 603 to contract, so as to drive the connection rod 602 to reset under the action of the torsion spring 603 after the connection rod 602 is loosened, the connecting rod 602 drives the knocking ball 605 and knocks the surface of the dustproof screen frame 1 through the rotating rod 604, so that the adhered dust is shaken off, the influence of the adhered dust on the surface of the dustproof screen frame 1 on the normal filtering effect is avoided, the cleaning times of workers are reduced, the service life of the dustproof screen frame 1 is prolonged, and the later maintenance cost is reduced;

the driving assembly 7 comprises a guide plate 701 and a rotating shaft 703, the rotating shaft 703 and the guide plate 701 are sequentially arranged on the inner wall of the waste energy pipe 301 from top to bottom, the surface of the rotating shaft 703 is fixedly connected with a fan blade 702, both ends of the rotating shaft 703 penetrate through the waste energy pipe 301 and are fixedly connected with a first cone pulley 704, waste energy of the air source heat pump body is discharged through the waste energy pipe 301 in an air flow manner, in the process, the fan blade 702 can be driven to rotate under the action of the air flow guiding plate 701, so that the rotating shaft 703 is driven to rotate through the fan blade 702, the driving assembly 7 further comprises a shifting rod 706, the bottom of the shifting rod 706 is rotatably connected with the top of the top plate 101, the top of the shifting rod 706 is fixedly connected with a second cone pulley meshed with the first cone pulley 704, under the rotating action of the rotating shaft, the first cone pulley 703 can be driven to rotate, so that the second cone pulley 705 is driven to rotate through the rotation of the first cone pulley 704, and the shifting rod 706 rotates around the second cone pulley 705, in the rotating process of the shift lever 706, the shift lever 706 can shift the connecting rod 602 to rotate and enable the knocking ball 605 to gradually get away from the dust screen frame 1, and after the shift lever 706 is separated from the connecting rod 602, the connecting rod 602 is driven to reset under the action of the torsion spring 603 and the knocking ball 605 knocks the surface of the dust screen frame 1, so that the effect of cleaning the dust screen frame 1 is achieved.

When the utility model is used, water is guided into the air source heat pump body through the water inlet pipe 5 to refrigerate or heat, meanwhile, waste energy generated by the air source heat pump body is discharged through the waste energy pipe 301, in the process, the dust screen frame 1 can prevent external dust from entering the air source heat pump body to avoid influencing the normal use of the air source heat pump body, in the waste energy discharging process, the waste energy is judged to be cold energy or heat energy through the temperature sensor 302, and the first electromagnetic valve 304 or the second electromagnetic valve 305 is opened through the controller 2, so that the cold energy or the heat energy is guided into different connecting boxes 4 through the connecting pipe 303 to pre-cool or preheat water, the waste energy generated when the air source heat pump body works is effectively utilized, the working efficiency of the air source heat pump body is effectively improved, meanwhile, through the arrangement of the driving assembly 7, the discharged waste energy is guided under the action of the guide plate 701, thereby drive fan blade 702 is rotatory, and then can make driving lever 706 rotate under drive assembly 7's effect to stir connecting rod 602 rotatoryly through driving lever 706 intermittent type, and clean the surface of dust screen frame 1 under the effect of dust removal subassembly 6, reduce staff's clearance number of times, improved the life of dust screen frame 1, and then reduced the maintenance cost in later stage.

Claims (7)

1. The utility model provides an air source heat pump waste energy recovery device, includes dust screen frame (1), its characterized in that: the utility model discloses a dust screen frame, including dust screen frame (1), roof (101), air source heat pump body, the top fixed mounting of roof (101) has controller (2), the top of roof (101) is provided with useless ability and utilizes subassembly (3), one side of dust screen frame (1) is provided with connecting box (4) that quantity is two, the inside of connecting box (4) is provided with inlet tube (5), the one end of inlet tube (5) runs through connecting box (4) and dust screen frame (1) in proper order and extends to the inside of air source heat pump body, the surface symmetry distribution of dust screen frame (1) has the dust removal subassembly (6) that quantity is two, the inside that useless ability utilized subassembly (3) is provided with drive assembly (7).

2. The air-source heat pump waste energy recovery device of claim 1, wherein: the waste energy utilization assembly (3) comprises a waste energy pipe (301), the waste energy pipe (301) is arranged at the top of the top plate (101), one end of the waste energy pipe (301) sequentially penetrates through the top plate (101) and is communicated with the air source heat pump body, a temperature sensor (302) is fixedly arranged inside the waste energy pipe (301), the other end of the waste energy pipe (301) is communicated with two connecting pipes (303), and the output end of the temperature sensor (302) is electrically connected with the input end of the controller (2).

3. The waste heat recovery device of claim 2, wherein: the two connecting pipes (303) are internally provided with a first electromagnetic valve (304) and a second electromagnetic valve (305) respectively, the other ends of the two connecting pipes (303) are communicated with the two connecting boxes (4) respectively, and the input ends of the first electromagnetic valve (304) and the second electromagnetic valve (305) are electrically connected with the output end of the controller (2).

4. The air-source heat pump waste energy recovery device of claim 1, wherein: the dust removal component (6) comprises an installation block (601), the installation block (601) is fixedly installed on one side of the top plate (101), a connecting rod (602) is arranged at the top of the installation block (601), a rotating rod (604) is fixedly connected to the bottom of the connecting rod (602), the lower end of the rotating rod (604) penetrates through the installation block (601) and is fixedly connected with a knocking ball (605), and the knocking ball (605) is in contact with the surface of the dust screen frame (1).

5. The air-source heat pump waste energy recovery device of claim 4, wherein: the surface of dwang (604) is provided with torsional spring (603), the bottom fixed connection of the one end of torsional spring (603) and connecting rod (602), the other end of torsional spring (603) and the fixed surface of installation piece (601) is connected.

6. The air source heat pump waste energy recovery device of claim 1, wherein: drive assembly (7) include deflector (701) and pivot (703), pivot (703) and deflector (701) set gradually under to from last in the inner wall of waste energy pipe (301), the fixed surface of pivot (703) is connected with flabellum (702), the both ends of pivot (703) all run through waste energy pipe (301) and the first cone pulley of fixedly connected with (704).

7. The waste heat recovery device of claim 6, wherein: the driving assembly (7) further comprises a shifting rod (706), the bottom of the shifting rod (706) is rotatably connected with the top of the top plate (101), and a second cone pulley (705) meshed with the first cone pulley (704) is fixedly connected to the top of the shifting rod (706).

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