CN217031662U - Prevent wind husky air source heat pump - Google Patents

Abstract

The utility model provides a wind and sand prevention air source heat pump, wherein wind and sand prevention salmonella are arranged at an air inlet and an air outlet of the air source heat pump, and the wind and sand prevention salmonella is opened when the air source heat pump runs and is closed when the air source heat pump stops running, so that fins, circuits and the like of an internal heat exchanger are positioned in the protection of a metal plate bounding wall and the wind and sand prevention salmonella when the air source heat pump runs, wind and sand, rain and snow cannot enter the inside of a unit, the fin heat exchanger, a fan, an internal sensor and a controller circuit of the unit are effectively protected, and the service life of the air source heat pump is greatly prolonged.

Description

Prevent wind husky air source heat pump

Technical Field

The utility model relates to the field of heating ventilation air conditioners, in particular to a heat pump unit.

Background

Air source heat pump set wide application is in high-end buildings such as office building, commercial building, hotel, because of can compromise simultaneously the refrigeration and heat, adjusts the work quantity and the operating condition of unit according to the heating of building or refrigeration demand, consequently has received people's favor. However, when the air source heat pump unit is applied to northern areas, especially northern windy and sandy areas and winter low-ambient-temperature areas, the finned heat exchanger of the unit is easily scratched by wind sand in the air, a hydrophilic structure on the surface is damaged, and the using effect of the unit is influenced. Simultaneously, the sand blown by the wind can produce the damage to the sensor in the unit, controller line body. When wind and snow enter the unit, the fins can be blocked in the gaps or accumulated on the line body and the pipeline, so that the service life of the air source heat pump unit is greatly shortened. A common solution to this problem in the prior art is to periodically clean the finned heat exchanger of the unit. However, as the cleaning interval and the cleaning standard are not uniform, and some non-professional customers do not have cleaning awareness, many units on the market are not cleaned until the units are damaged. There is therefore a need in the art for an air source heat pump that is capable of protecting against wind, sand, rain and snow.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects and shortcomings in the prior art, the utility model provides a wind and sand prevention air source heat pump which is provided with a heat pump box body, wherein a compressor, a four-way valve, a refrigerant pipeline, a wind side heat exchanger, a fan, a water side heat exchanger and a water pipe part are arranged in the heat pump box body;

an inlet wind-proof salmonella is arranged at the air inlet of the heat pump box body;

an outlet wind-proof salmonella is arranged at the air outlet of the heat pump box body;

the inlet wind-proof salmonella and the outlet wind-proof salmonella are opened when the air source heat pump runs and are closed when the air source heat pump stops running.

The utility model also provides a wind and sand prevention air source heat pump, which is provided with a heat pump frame, wherein a heat pump lower box body and a heat pump upper box body are formed in the heat pump frame, a compressor, a four-way valve, a refrigerant pipeline, a water side heat exchanger and a water pipe part are arranged in the heat pump lower box body, a wind side heat exchanger and a fan are arranged in the heat pump upper box body, air enters from an air inlet under the action of the fan, and flows out from an air outlet after passing through the wind side heat exchanger and the fan;

wherein: the heat pump upper box body and the heat pump lower box body are respectively sealed box bodies, and a hollow area is formed between the heat pump upper box body and the heat pump lower box body;

an inlet wind-proof salmonella is arranged at the air inlet of the upper box body of the heat pump;

an outlet wind-proof salmonella is arranged at the air outlet of the upper box body of the heat pump;

the inlet wind-proof salmonella and the outlet wind-proof salmonella are opened when the air source heat pump runs and are closed when the air source heat pump stops running.

Furthermore, the entrance wind-proof salmonella is a single door or a double door.

Furthermore, the exit wind-proof salmonella is a double door.

Furthermore, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are fixedly connected to the heat pump box body or the upper box body of the heat pump through a slide rail hinge support.

Furthermore, the slide rail hinge support is provided with a lock catch and a support, when the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are opened to a preset angle, the support is in a locked state, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are supported by the support and cannot be closed, and the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are in a locked state; when the inlet wind-proof salmonella and/or the outlet wind-proof salmonella is pulled to be larger than the preset angle, the lock catch is in a non-locking state, the support releases the inlet wind-proof salmonella and/or the outlet wind-proof salmonella, and therefore the inlet wind-proof salmonella and/or the outlet wind-proof salmonella can be closed.

Furthermore, a plurality of handles are arranged on the inlet wind-proof salmonella and/or the outlet wind-proof salmonella.

Furthermore, a lock tongue is arranged on the handle, the lock tongue can rotate to enable the handle to be in an opening state and a closing state, when the handle is in the opening state, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella can be opened, and when the handle is in the closing state, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are locked.

Furthermore, the air inlets of the air source heat pump are positioned on four sides of the air source heat pump, and the air outlets are positioned on the top surface of the air source heat pump.

Furthermore, the bottom of the upper box body of the heat pump and the top of the lower box body of the heat pump are respectively provided with a sealing metal plate, and the sealing metal plate is provided with a concentrated drain hole and/or an electric heating device.

The utility model can realize the following technical effects: when the heat pump unit needs to be started up and operated, the windproof salmonella at the top of the unit and around the fin heat exchanger is opened to ensure air circulation required by normal use of the unit, when the unit is shut down for a long time (for example, in a transition season after the heating season is over), the fin heat exchanger of the unit is cleaned, and the windproof salmonella is closed, at the moment, the air source heat pump unit is in the protection of the metal plate surrounding plate and the windproof salmonella, wind, sand and rain cannot enter the inside of the unit, the fin heat exchanger of the unit, a fan, an internal sensor and a controller circuit are effectively protected, and the service life of the air source heat pump unit is greatly prolonged.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the embodiments or the prior art descriptions will be briefly described below.

Fig. 1 is a schematic structural diagram of an air source heat pump according to an embodiment of the first aspect of the present invention.

Fig. 2 is a schematic structural diagram of an air source heat pump according to an embodiment of a second aspect of the present invention.

Fig. 3 is a schematic structural diagram of an air source heat pump according to a third aspect of the present invention.

Fig. 4 is a schematic structural diagram of an air source heat pump according to a fourth embodiment of the present invention.

Fig. 5 is a partially enlarged view of a-a of fig. 4.

Reference numerals:

1 air source heat pump, 2 heat pump box, 3-1 air inlet, 3-2 inlet windproof salmonella, 4-1 air outlet, 4-2 outlet windproof salmonella, 5 sliding rail hinge support, 6 handle

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings, which are provided for a better understanding of the utility model and are not to be construed as limiting the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments patented herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. appear, the indicated orientations or positional relationships thereof are based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the indicated device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, if appearing, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" should be interpreted broadly, e.g., as being fixed or detachable or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

Example 1

As shown in fig. 1, the present embodiment discloses a wind and sand proof air source heat pump 1, the air source heat pump 1 has a heat pump box 2, a compressor, a four-way valve, a refrigerant pipeline, a wind side heat exchanger, a fan, a water side heat exchanger, and a water pipe are arranged in the heat pump box 2, under the action of the fan, air enters from an air inlet 3-1, and after passing through the wind side heat exchanger and the fan, air flows out from an air outlet 4-1, wherein:

an inlet windproof salmonella 3-2 is arranged at the air inlet 3-1 of the heat pump box body 2;

an outlet windproof salmonella 4-2 is arranged at the air outlet 4-1 of the heat pump box body 2;

the inlet wind-proof salmonella and the 3-1 outlet wind-proof salmonella 4-2 are opened when the air source heat pump 1 operates and are closed when the air source heat pump 1 stops operating.

In the embodiment, the inlet wind-proof salmonella 3-2 is a single-door. The export wind-proof salmonella is a double door.

Specifically, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are fixedly connected to the heat pump box body 2 through a slide rail hinge support.

The sliding rail hinge support is provided with a lock catch and a support, when the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are/is opened to a preset angle, the support is in a locked state, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are/is supported by the support and cannot be closed, and the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are/is in a locked state; when the inlet wind-proof salmonella and/or the outlet wind-proof salmonella is pulled to be larger than the preset angle, the lock catch is in a non-locking state, the support releases the inlet wind-proof salmonella and/or the outlet wind-proof salmonella, and therefore the inlet wind-proof salmonella and/or the outlet wind-proof salmonella can be closed.

Still be provided with a plurality of handle on the salmonella is prevent wind to entry and/or the salmonella is prevent wind to export, be provided with the spring bolt on hand, thereby the spring bolt can rotate and make the handle is in the open and closed condition, works as when the handle is in the open condition, the salmonella is prevent wind to entry and/or the salmonella is prevent wind to export can be opened, works as when the handle is in the closed condition, the salmonella is prevent wind to entry and/or export is prevent wind the salmonella by the lock.

The air source heat pump is characterized in that air inlets of the air source heat pump are positioned on four side surfaces of the air source heat pump, and air outlets of the air source heat pump are positioned on the top surface of the air source heat pump.

The embodiment can achieve the following technical effects:

when the heat pump unit needs to be started to operate, windproof salmonella at the top of the heat pump unit and around the fin heat exchanger are opened, and air circulation required by normal use of the heat pump unit is ensured. When the unit is shut down for a long time (for example, in a transition season after the heating season is over), the fin heat exchanger of the unit is cleaned, and the wind-proof salmonella is closed, at the moment, the air source heat pump unit is in the protection of the sheet metal enclosing plate and the wind-proof salmonella, wind, sand, rain and snow cannot enter the unit, the fin heat exchanger of the unit, the fan, the internal sensor and the controller circuit are effectively protected, and the service life of the air source heat pump unit is greatly prolonged.

Before the unit operates, a locked handle is set to be in an open state, the windproof salmonella is opened to a preset angle by pulling the handle, the sliding rail hinge support is just opened to the preset angle and then is in a dead-locked state, the windproof salmonella is supported by the support and cannot be closed, and the doors on the side edge and the top of the unit are all opened, so that the doors are in the dead-locked state and can be started to operate.

After the unit is shut down, the wind and sand prevention door is pulled to a position larger than a preset angle, the wind and sand prevention door can be closed after the lock catch on the sliding rail hinge support is in a closed state, and then the handle is turned to the closed state to lock the wind and sand prevention door.

Example 2

As shown in fig. 2, the present embodiment discloses a wind and sand proof air source heat pump 1, the air source heat pump 1 has a heat pump housing 2, a compressor, a four-way valve, a refrigerant pipeline, a wind side heat exchanger, a fan, a water side heat exchanger, and a water pipe are arranged in the heat pump housing 2, under the action of the fan, air enters from an air inlet 3-1, and after passing through the wind side heat exchanger and the fan, air flows out from an air outlet 4-1, wherein:

an inlet windproof salmonella 3-2 is arranged at the air inlet 3-1 of the heat pump box body 2;

an outlet windproof salmonella 4-2 is arranged at the air outlet 4-1 of the heat pump box body 2;

the inlet wind-proof salmonella and the 3-1 outlet wind-proof salmonella 4-2 are opened when the air source heat pump 1 runs and are closed when the air source heat pump 1 stops running.

In the embodiment, the entrance wind-proof salmonella 3-2 is a double door. The export wind-proof salmonella is a double door.

Specifically, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are fixedly connected to the heat pump box body 2 through a slide rail hinge support.

The sliding rail hinge support is provided with a lock catch and a support, when the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are/is opened to 90 degrees, the support is in a locked state, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are/is supported by the support and cannot be closed, and the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are/is in a locked state; when the inlet wind-proof salmonella and/or the outlet wind-proof salmonella is pulled to be larger than 90 degrees, the lock catch is in a non-locking state, and the support releases the inlet wind-proof salmonella and/or the outlet wind-proof salmonella, so that the inlet wind-proof salmonella and/or the outlet wind-proof salmonella can be closed.

Still be provided with a plurality of handle on the salmonella is prevent wind to entry and/or the salmonella is prevent wind to export, be provided with the spring bolt on hand, thereby the spring bolt can rotate and make the handle is in and opens and the off-state, works as when the handle is in the on-state, the salmonella is prevent wind to entry and/or the salmonella is prevent wind to export can be opened, works as when the handle is in the off-state, the salmonella is prevent wind to entry and/or the salmonella is prevent wind to export is locked.

The air inlet of the air source heat pump is positioned on four side surfaces of the air source heat pump, and the air outlet is positioned on the top surface of the air source heat pump.

Example 3

As shown in fig. 3, the present embodiment discloses a wind and sand prevention air source heat pump 1, the air source heat pump 1 has a heat pump frame 1-1, a heat pump lower box 1-2 and a heat pump upper box 1-3 are formed in the heat pump frame 1-1, a compressor, a four-way valve, a refrigerant pipeline, a water side heat exchanger and a water pipe are arranged in the heat pump lower box 1-2, a wind side heat exchanger and a fan are arranged in the heat pump upper box 1-3, air enters from an air inlet 3-1 under the action of the fan, and flows out from an air outlet 4-1 after passing through the wind side heat exchanger and the fan.

Specifically, the heat pump upper box 1-3 and the heat pump lower box 1-2 are sealed boxes respectively, and a hollow area 1-4 is formed between the heat pump upper box 1-3 and the heat pump lower box 1-2.

An inlet windproof salmonella 3-2 is arranged at the air inlet 3-1 of the upper box body 1-3 of the heat pump, and an outlet windproof salmonella 4-2 is arranged at the air outlet 4-1 of the upper box body 1-3 of the heat pump. The inlet wind-proof salmonella 3-2 and the outlet wind-proof salmonella 4-2 are opened when the air source heat pump 1 is in operation and are closed when the air source heat pump stops operating.

Specifically, the bottom of the upper box body 1-3 of the heat pump and the top of the lower box body 1-2 of the heat pump are respectively provided with a sealing metal plate, and the sealing metal plate is provided with a concentrated drain hole and/or an electric heating device. When the electric heating device runs in winter, the defrosting condensed water can be prevented from freezing, and the defrosting water can be discharged through the concentrated water discharge holes.

The upper part and the lower part of the unit form two relatively closed box bodies, and the purposes of wind, sand, rain and snow prevention can be achieved. The hollow area in the middle is convenient for clearing away wind, sand, rain and snow.

In the embodiment, the inlet wind-proof salmonella 3-2 is a single-door. The outlet wind-proof salmonella is a double-door.

Specifically, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are fixedly connected to the heat pump box body 2 through a slide rail hinge support.

The sliding rail hinge support is provided with a lock catch and a support, when the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are opened to a preset angle, the support is in a locked state, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are supported by the support and cannot be closed, and the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are in a locked state; when the inlet wind-proof salmonella and/or the outlet wind-proof salmonella door is pulled to be larger than a preset angle, the lock catch is in a non-locking state, and the support releases the inlet wind-proof salmonella and/or the outlet wind-proof salmonella, so that the inlet wind-proof salmonella and/or the outlet wind-proof salmonella door can be closed.

Still be provided with a plurality of handle on the salmonella is prevent wind to entry and/or the salmonella is prevent wind to export, be provided with the spring bolt on hand, thereby the spring bolt can rotate and make the handle is in and opens and the off-state, works as when the handle is in the on-state, the salmonella is prevent wind to entry and/or the salmonella is prevent wind to export can be opened, works as when the handle is in the off-state, the salmonella is prevent wind to entry and/or the salmonella is prevent wind to export is locked.

The air source heat pump is characterized in that air inlets of the air source heat pump are positioned on four side surfaces of the air source heat pump, and air outlets of the air source heat pump are positioned on the top surface of the air source heat pump.

Example 4

As shown in fig. 4, the present embodiment discloses a wind and sand prevention air source heat pump 1, the air source heat pump 1 has a heat pump frame 1-1, a heat pump lower box 1-2 and a heat pump upper box 1-3 are formed in the heat pump frame 1-1, a compressor, a four-way valve, a refrigerant pipeline, a water side heat exchanger and a water pipe are arranged in the heat pump lower box 1-2, a wind side heat exchanger and a fan are arranged in the heat pump upper box 1-3, air enters from an air inlet 3-1 under the action of the fan, and flows out from an air outlet 4-1 after passing through the wind side heat exchanger and the fan.

Specifically, the heat pump upper box 1-3 and the heat pump lower box 1-2 are sealed boxes respectively, and a hollow area 1-4 is formed between the heat pump upper box 1-3 and the heat pump lower box 1-2.

An inlet windproof salmonella 3-2 is arranged at the air inlet 3-1 of the upper box body 1-3 of the heat pump, and an outlet windproof salmonella 4-2 is arranged at the air outlet 4-1 of the upper box body 1-3 of the heat pump. The inlet wind-proof salmonella 3-2 and the outlet wind-proof salmonella 4-2 are opened when the air source heat pump 1 is in operation and are closed when the air source heat pump stops operating.

Specifically, the bottom of the upper box body 1-3 of the heat pump and the top of the lower box body 1-2 of the heat pump are respectively provided with a sealing metal plate, and the sealing metal plate is provided with a concentrated drain hole and/or an electric heating device. When the electric heating device runs in winter, the defrosting condensed water can be prevented from freezing, and the defrosting water can be discharged through the concentrated water discharge holes.

The upper part and the lower part of the unit form two relatively closed box bodies, and the aim of preventing wind, sand, rain and snow can be achieved. The hollow area in the middle is convenient for clearing away wind, sand, rain and snow.

In this embodiment, the entrance wind-proof salmonella 3-2 is a double door. The export wind-proof salmonella is a double door.

Specifically, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are fixedly connected to the heat pump box body 2 through a sliding rail hinge support 5.

As shown in fig. 5, the slide rail hinge support 5 is provided with a lock catch and a support, when the inlet wind-proof salmonella and/or the outlet wind-proof salmonella is opened to 90 °, the support is in a locked state, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella is supported by the support and cannot be closed, and the inlet wind-proof salmonella and/or the outlet wind-proof salmonella is in a locked state; when the inlet wind-proof salmonella and/or the outlet wind-proof salmonella door is pulled to be larger than 90 degrees, the lock catch is in a non-locking state, and the support releases the inlet wind-proof salmonella and/or the outlet wind-proof salmonella, so that the inlet wind-proof salmonella and/or the outlet wind-proof salmonella door can be closed.

Still be provided with a plurality of handle 6 on the door of door and/or the door of door is prevent wind to entry, be provided with the spring bolt on the handle 6, thereby the spring bolt can rotate and make the handle is in and opens and the off-state, works as when the handle is in the on-state, door and/or door are prevent wind to entry can be opened, works as when the handle is in the off-state, door and/or door are prevent wind to entry is prevent wind and door and is locked.

The air inlet of the air source heat pump is positioned on four side surfaces of the air source heat pump, and the air outlet is positioned on the top surface of the air source heat pump.

The above embodiments are only used for explaining the present invention, and the structure, connection mode, manufacturing process and the like of each component can be changed, and all equivalent changes and modifications made on the basis of the technical scheme should not be excluded from the protection scope of the present invention.

Claims (17)

1. The utility model provides a prevent wind husky air source heat pump, air source heat pump has the heat pump box, be provided with compressor, cross valve, refrigerant pipeline, wind side heat exchanger, fan, water side heat exchanger, water pipe part in the heat pump box under the effect of fan, the air gets into from air inlet, is passing through flow from the air outlet behind wind side heat exchanger and the fan, its characterized in that:

an inlet wind-proof salmonella is arranged at the air inlet of the heat pump box body;

an outlet wind-proof salmonella is arranged at the air outlet of the heat pump box body;

the inlet wind-proof salmonella and the outlet wind-proof salmonella are opened when the air source heat pump runs and are closed when the air source heat pump stops running.

2. The air-source heat pump of claim 1, wherein: the entrance windproof salmonella is a single door or a double door.

3. The air-source heat pump of claim 1, wherein: the outlet wind-proof salmonella is a double-door.

4. The air-source heat pump of claim 1, wherein: the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are fixedly connected to the heat pump box body through a slide rail hinge support.

5. The air source heat pump according to claim 4, characterized in that: the sliding rail hinge support is provided with a lock catch and a support, when the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are/is opened to a preset angle, the support is in a locked state, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are/is supported by the support and cannot be closed, and the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are/is in a locked state; when the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are pulled to be larger than the preset angle, the lock catch is in a non-locking state, the support releases the inlet wind-proof salmonella and/or the outlet wind-proof salmonella, and therefore the inlet wind-proof salmonella and/or the outlet wind-proof salmonella can be closed.

6. The air-source heat pump of claim 1, wherein: and a plurality of handles are also arranged on the inlet wind-proof salmonella and/or the outlet wind-proof salmonella.

7. The air-source heat pump of claim 6, wherein: the handle is provided with a lock tongue, the lock tongue can rotate to enable the handle to be in an opening state and a closing state, when the handle is in the opening state, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella can be opened, and when the handle is in the closing state, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are locked.

8. The air-source heat pump of claim 1, wherein: the air source heat pump is characterized in that air inlets of the air source heat pump are positioned on four side surfaces of the air source heat pump, and air outlets of the air source heat pump are positioned on the top surface of the air source heat pump.

9. The utility model provides a prevent air source heat pump of wind sand which characterized in that: the air source heat pump is provided with a heat pump frame, a heat pump lower box body and a heat pump upper box body are formed in the heat pump frame, a compressor, a four-way valve, a refrigerant pipeline, a water side heat exchanger and a water pipe part are arranged in the heat pump lower box body, an air side heat exchanger and a fan are arranged in the heat pump upper box body, and under the action of the fan, air enters from an air inlet and flows out from an air outlet after passing through the air side heat exchanger and the fan;

wherein: the heat pump upper box body and the heat pump lower box body are respectively sealed box bodies, and a hollow area is formed between the heat pump upper box body and the heat pump lower box body;

an inlet windproof salmonella is arranged at the air inlet of the upper box body of the heat pump;

an outlet wind-proof salmonella is arranged at the air outlet of the upper box body of the heat pump;

the inlet wind-proof salmonella and the outlet wind-proof salmonella are opened when the air source heat pump runs and are closed when the air source heat pump stops running.

10. The air-source heat pump of claim 9, wherein: the entrance wind-proof salmonella is a single door or a double door.

11. The air-source heat pump of claim 9, wherein: the export wind-proof salmonella is a double door.

12. The air-source heat pump of claim 9, wherein: the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are fixedly connected to the upper box body of the heat pump through a slide rail hinge support.

13. The air-source heat pump of claim 12, wherein: the sliding rail hinge support is provided with a lock catch and a support, when the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are/is opened to a preset angle, the support is in a locked state, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are/is supported by the support and cannot be closed, and the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are/is in a locked state; when the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are pulled to be larger than the preset angle, the lock catch is in a non-locking state, the support releases the inlet wind-proof salmonella and/or the outlet wind-proof salmonella, and therefore the inlet wind-proof salmonella and/or the outlet wind-proof salmonella can be closed.

14. The air-source heat pump of claim 9, wherein: and a plurality of handles are also arranged on the inlet wind-proof salmonella and/or the outlet wind-proof salmonella.

15. The air source heat pump of claim 14, wherein: the handle is provided with a lock tongue, the lock tongue can rotate to enable the handle to be in an opening state and a closing state, when the handle is in the opening state, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella can be opened, and when the handle is in the closing state, the inlet wind-proof salmonella and/or the outlet wind-proof salmonella are locked.

16. The air-source heat pump of claim 9, wherein: the air source heat pump is characterized in that air inlets of the air source heat pump are positioned on four side surfaces of the air source heat pump, and air outlets of the air source heat pump are positioned on the top surface of the air source heat pump.

17. The air-source heat pump of claim 9, wherein: and sealing metal plates are respectively arranged at the bottom of the upper box body of the heat pump and the top of the lower box body of the heat pump, and a concentrated drain hole and/or an electric heating device are/is arranged on each sealing metal plate.

Images