CN217004749U - Air-cooled heat pump adiabatic air inlet cooling energy-saving environment-friendly system - Google Patents

Abstract

The utility model discloses an energy-saving and environment-friendly system for cooling heat insulation and air inlet of an air-cooled heat pump, which comprises an air-cooled heat pump main body and the air-cooled heat pump main body, wherein air inlet grooves are formed in the outer walls of two sides of the air-cooled heat pump main body, an air outlet fan is fixedly arranged on the upper surface of the air-cooled heat pump main body, an air inlet device is arranged on one side, away from the air inlet grooves, of the air inlet groove, a hot air cooling device is arranged on one side, away from the air inlet grooves, of the air inlet device, a liquid circulation device is arranged inside the hot air cooling device, and an air suction structure is arranged on one side, away from the air inlet device, of the hot air cooling device. This adiabatic air inlet cooling energy-saving environmental protection system of air cooled heat pump can reach and reduce the influence of high temperature air current to the air cooled heat pump main part through setting up hot-blast cooling device and liquid circulating device, improves the cooling efficiency and the effect of air cooled heat pump main part, improves the utilization to the coolant liquid simultaneously, reduce cost's purpose.

Description

Air-cooled heat pump adiabatic air inlet cooling energy-saving environment-friendly system

Technical Field

The utility model relates to the technical field of air-cooled heat pumps, in particular to an energy-saving and environment-friendly system for cooling heat-insulated intake air of an air-cooled heat pump.

Background

An air-cooled heat pump is an air conditioning unit which is different from an air-cooled water chilling unit in the air conditioning industry. Besides the function of preparing cold water by the air-cooled water chilling unit, the air-cooled water chilling unit can also be switched to a heating working condition to prepare hot water, and the basic principle of the air-cooled heat pump is based on compression type refrigeration cycle, the refrigerant is used as a carrier, and heat is absorbed or discharged from the atmosphere through forced heat exchange of a fan so as to meet the requirements of refrigeration or heating.

However, the air inlet of the existing air-cooled heat pump does not have a cooling function, and when the outside air temperature is higher, the air directly entering the air-cooled heat pump has poor cooling effect due to higher temperature, which is not favorable for normal refrigeration work of the air-cooled heat pump, and reduces the refrigeration efficiency and effect of the air-cooled heat pump, so that the air-cooled heat pump heat-insulation air-inlet cooling energy-saving environment-friendly system is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an energy-saving and environment-friendly system for cooling an air-cooled heat pump by heat insulation air intake aiming at the defects in the prior art so as to solve the problems in the background art.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides an energy-concerving and environment-protective system of adiabatic air inlet cooling of air-cooled heat pump, includes air-cooled heat pump main part, air-cooled heat pump main part both sides outer wall has seted up the intake stack, fixed surface installs the air-out fan in the air-cooled heat pump main part, one side that air-cooled heat pump main part was kept away from to the intake stack is provided with hot air cooling device, one side that air cooling device kept away from the intake stack is provided with hot air cooling device, the inside liquid circulation device that is provided with of hot air cooling device, one side that hot air cooling device kept away from air cooling device is provided with the structure of induced drafting.

As a preferred technical scheme of the utility model, the air inlet device comprises an air inlet pipeline, air inlet strips and first air inlets, wherein the air inlet strips are distributed in the air inlet pipeline at equal intervals, the air inlet strips are designed to be hollow, the first air inlets are distributed in the air inlet strips at equal intervals, and the air inlet strips and the first air inlets play a role in guiding air flow after cooling.

As a preferred technical scheme of the present invention, the hot air cooling device includes a first frame, a first cooling pipe, a first air pipe, a support column, a liquid inlet pipe, a liquid outlet pipe, and a second air inlet, wherein a connecting pipe is fixedly installed on a first cooling pipe support, two ends of the first cooling pipe are respectively and fixedly connected to the first air pipe and the support column, two ends of the first air pipe simultaneously penetrate through the first cooling pipe and the air inlet strip, and the first cooling pipe can cool and cool an external air flow, so that an influence of a high temperature air flow on the air-cooled heat pump main body is reduced, and a cooling effect of the air-cooled heat pump main body is improved.

As a preferable technical scheme, the liquid circulation device comprises a cooling box and a second cooling pipe, two ends of the second cooling pipe are respectively and fixedly connected with the liquid inlet pipe and the liquid outlet pipe, a pressure pump is installed at the joint, the second cooling pipe is in a wave-shaped design, the wave-shaped design of the second cooling pipe can enhance the contact surface of the second cooling pipe with air, and the cooling efficiency is improved.

As a preferable technical scheme of the present invention, the liquid circulation device further includes a grid filter screen, a side baffle and a cooling fan, the cooling fan and the grid filter screen are horizontally distributed, the side baffle is fixedly installed inside the cooling box, and the cooling fan and the grid filter screen are used in cooperation, so that liquid inside the second cooling pipe can be cooled, thereby realizing recycling and reducing cooling cost.

As a preferred technical scheme of the utility model, the air suction structure comprises a second frame, a filter screen, a blower, a third air pipe, a splitter plate and a fourth air pipe, two ends of the splitter plate are respectively and fixedly connected with the third air pipe and the fourth air pipe, the splitter plate is in a hollow design, the fourth air pipe is fixedly connected with the first cooling pipe through a second air inlet, the size of the filter screen is matched with that of the second frame, two ends of the blower are respectively and fixedly connected with the third air pipe of the filter screen, and the blower, the third air pipe, the splitter plate and the fourth air pipe are matched for use, so that the external air can be split while being guided and is respectively injected into the first cooling pipe.

Compared with the prior art, the utility model provides an air-cooled heat pump heat insulation air inlet cooling energy-saving environment-friendly system, which has the following beneficial effects:

1. the heat-insulating air-inlet cooling energy-saving environment-friendly system of the air-cooled heat pump comprises an air inlet device, a hot air cooling device, a liquid circulating device and an air suction structure, when the system is used, after the air-cooled heat pump body starts to work, outside air is transmitted inwards through an air blower at the moment, impurities contained in outside air flow are initially reduced when the outside air flow enters a filter screen, and the damage of the impurities such as dust to the air-cooled heat pump body is reduced, when the outside air flow sequentially passes through a third air pipe, a flow distribution plate and a fourth branch pipe to reach a first cooling pipe, the outside air flow passes through the first cooling pipe from bottom to top, the outside air flow is cooled by liquid in the first cooling pipe and then is sent into the air-cooled heat pump body through the first air pipe, an air inlet strip, a first air inlet and an air inlet groove, the influence of high-temperature air flow on the air-cooled heat pump body is reduced, the cooling efficiency and the cooling effect of the air-cooled heat pump body are improved, after the first cooling liquid cools one end of time, the temperature rises, but this moment starting force pump and cooling blower, the force pump passes through feed liquor pipe and drain pipe with the inside coolant liquid of first cooling tube and second cooling tube and when realizing the circulation, cools down through cooling blower, and the cost is reduced has improved the utilization ratio of coolant liquid.

Drawings

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

FIG. 2 is a schematic view of the structure of the air intake device of the present invention;

FIG. 3 is a schematic structural view of a hot air cooling device according to the present invention;

FIG. 4 is a schematic view of the liquid circulation apparatus according to the present invention;

fig. 5 is a schematic structural view of an air suction device according to the present invention.

In the figure: 1. an air-cooled heat pump main body; 2. an air inlet groove; 3. an air outlet fan; 4. an air intake device; 401. an air inlet pipeline; 402. an air inlet bar; 403. a first air inlet; 5. a hot air cooling device; 501. a first frame; 502. a first cooling pipe; 503. a first air duct; 504. a support pillar; 505. a liquid inlet pipe; 506. a liquid outlet pipe; 507. a second air inlet; 6. a liquid circulation device; 601. a cooling tank; 602. a second cooling pipe; 603. a grid filter screen; 604. a side dam; 605. a cooling fan; 7. an air suction structure; 701. a second frame; 702. a filter screen; 703. a blower; 704. a third air duct; 705. a flow distribution plate; 706. and a fourth air duct.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-5, in this embodiment: an air-cooled heat pump heat insulation air inlet cooling energy-saving environment-friendly system comprises an air-cooled heat pump main body 1, the air-cooled heat pump main body 1 is provided with air inlet grooves 2 on the outer walls of two sides of the air-cooled heat pump main body 1, an air outlet fan 3 is fixedly arranged on the upper surface of the air-cooled heat pump main body 1, one side, away from the air-cooled heat pump main body 1, of each air inlet groove 2 is provided with an air inlet device 4, each air inlet device 4 comprises an air inlet pipeline 401, air inlet strips 402 and first air inlets 403, the air inlet strips 402 are distributed in the air inlet pipeline 401 at equal intervals, the air inlet strips 402 are hollow, the first air inlets 403 are distributed in the air inlet strips 402 at equal intervals, and the air inlet strips 402 and the first air inlets 403 play a role in guiding air flow after cooling; one side that air inlet unit 4 kept away from air inlet duct 2 is provided with hot air cooling device 5, hot air cooling device 5 includes first frame 501, first cooling tube 502, first tuber pipe 503, support column 504, feed liquor pipe 505, drain pipe 506 and second air intake 507, first cooling tube 502 support fixed mounting has the connecting pipe, the both ends of first cooling tube 502 respectively with first tuber pipe 503 and support column 504 fixed connection, first cooling tube 502 and air inlet strip 402 are run through simultaneously at first tuber pipe 503 both ends, first cooling tube 502 can carry out cooling treatment to external air current, thereby reduce the influence of high temperature air current to air-cooled heat pump main part 1, improve the effect of air-cooled heat pump main part 1 cooling.

Referring to fig. 4-5, a liquid circulation device 6 is disposed inside the hot air cooling device 5, the liquid circulation device 6 includes a cooling box 601 and a second cooling tube 602, two ends of the second cooling tube 602 are respectively and fixedly connected with the liquid inlet tube 505 and the liquid outlet tube 506, and a pressure pump is installed at the joint, the second cooling tube 602 is designed in a wave shape, and the wave shape of the second cooling tube 602 can enhance the contact surface with air, thereby improving the cooling efficiency; the liquid circulating device 6 further comprises a grid filter screen 603, a side baffle 604 and a cooling fan 605, the cooling fan 605 and the grid filter screen 603 are distributed horizontally, the side baffle 604 is fixedly arranged in the cooling box 601, and the cooling fan 605 and the grid filter screen 603 are matched for use and can cool liquid in the second cooling pipe 602, so that cyclic utilization is realized, and cooling cost is reduced; one side of the hot air cooling device 5, which is far away from the air intake device 4, is provided with an air suction structure 7, the air suction structure 7 comprises a second frame 701, a filter screen 702, an air blower 703, a third air pipe 704, a flow distribution plate 705 and a fourth air pipe 706, two ends of the flow distribution plate 705 are respectively fixedly connected with the third air pipe 704 and the fourth air pipe 706, the flow distribution plate 705 is in a hollow design, the fourth air pipe 706 is fixedly connected with the first cooling pipe 502 through a second air inlet 507, the size of the filter screen 702 is matched with that of the second frame 701, two ends of the air blower 703 are respectively fixedly connected with the third air pipe 704 of the filter screen 702, the air blower 703, the third air pipe 704, the flow distribution plate 705 and the fourth air pipe 706 are matched for use, the flow distribution can be realized while the external air is guided, and the external air is respectively injected into the first cooling pipe 502.

The working principle and the using process of the utility model are as follows: when the air-cooled heat pump main body 1 starts to work, at the moment, outside air is transmitted inwards through the air blower 703, impurities contained in outside air flow are initially reduced when the outside air flows through the filter screen 702, damage of the impurities such as dust to the air-cooled heat pump main body 1 is reduced, when the outside air flow sequentially passes through the third air pipe 704, the flow dividing plate 705 and the fourth air pipe 706 to reach the first cooling pipe 502, at the moment, the outside air flow passes through the first cooling pipe 502 from bottom to top, and is sent into the air-cooled heat pump main body 1 through the first air pipe 503, the air inlet strip 402, the first air inlet 403 and the air inlet groove 2 after being cooled by liquid in the first cooling pipe 502, so that influence of high-temperature air flow on the air-cooled heat pump main body 1 is reduced, the cooling efficiency and the cooling effect of the air-cooled heat pump main body 1 are improved, and after the liquid in the first cooling pipe 502 is cooled for a period of time, the temperature rises, and at this moment, the pressure pump and the cooling fan 605 can be started, and the pressure pump cools down through the cooling fan 605 while realizing the circulation of the cooling liquid inside the first cooling pipe 502 and the second cooling pipe 602 through the liquid inlet pipe 505 and the liquid outlet pipe 506, thereby reducing the cost and improving the utilization rate of the cooling liquid.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an adiabatic air inlet cooling energy-concerving and environment-protective system of air-cooled heat pump which characterized in that: including air-cooled heat pump main part (1), air inlet tank (2) have been seted up to air-cooled heat pump main part (1) both sides outer wall, fixed surface installs air-out fan (3) on air-cooled heat pump main part (1), one side that air-cooled heat pump main part (1) was kept away from in air inlet tank (2) is provided with hot-blast cooling device (5), one side that air inlet tank (2) were kept away from in hot-blast cooling device (4) is provided with hot-blast cooling device (5), the inside liquid circulation device (6) that is provided with of hot-blast cooling device (5), one side that air inlet device (4) were kept away from in hot-blast cooling device (5) is provided with induced draft structure (7).

2. The air-cooled heat pump heat insulation air intake cooling energy-saving environment-friendly system according to claim 1, characterized in that: air inlet unit (4) include intake stack (401), air inlet strip (402) and first air intake (403), air inlet strip (402) distribute at the inside equidistance of intake stack (401), air inlet strip (402) are hollow design, first air intake (403) distribute at the inside equidistance of air inlet strip (402).

3. The air-cooled heat pump heat insulation air intake cooling energy-saving environment-friendly system according to claim 2, characterized in that: hot-blast cooling device (5) include first frame (501), first cooling tube (502), first tuber pipe (503), support column (504), feed liquor pipe (505), drain pipe (506) and second air intake (507), first cooling tube (502) support fixed mounting has the connecting pipe, the both ends of first cooling tube (502) respectively with first tuber pipe (503) and support column (504) fixed connection, first cooling tube (502) and air inlet strip (402) are run through simultaneously at first tuber pipe (503) both ends.

4. The air-cooled heat pump heat insulation air intake cooling energy-saving environment-friendly system as claimed in claim 3, characterized in that: liquid circulating device (6) include cooling tank (601), second cooling tube (602), the both ends of second cooling tube (602) respectively with feed liquor pipe (505) and drain pipe (506) fixed connection, and install the force pump in the junction, second cooling tube (602) are the wave design.

5. The air-cooled heat pump heat insulation air intake cooling energy-saving environment-friendly system according to claim 1, characterized in that: the liquid circulating device (6) further comprises a grid filter screen (603), a side baffle (604) and a cooling fan (605), wherein the cooling fan (605) and the grid filter screen (603) are horizontally distributed, and the side baffle (604) is fixedly installed inside the cooling box (601).

6. The air-cooled heat pump heat insulation air intake cooling energy-saving environment-friendly system according to claim 3, characterized in that: induced draft structure (7) include second frame (701), filter screen (702), air-blower (703), third tuber pipe (704), flow distribution plate (705) and fourth tuber pipe (706), the both ends of flow distribution plate (705) respectively with third tuber pipe (704) and fourth tuber pipe (706) fixed connection, flow distribution plate (705) are hollow design, fourth tuber pipe (706) are through second air intake (507) and first cooling tube (502) fixed connection, the size and the second frame (701) looks adaptation of filter screen (702), the both ends of air-blower (703) respectively with third tuber pipe (704) fixed connection of filter screen (702).

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