CN220582569U - Heat pump type air conditioner outdoor unit and air conditioner - Google Patents

Abstract

The utility model provides a heat pump type air conditioner outdoor unit and an air conditioner, wherein the outdoor unit comprises a fan, a compressor assembly, a water module assembly and a shell structure, a wind isolation vertical plate is arranged between the fan and the compressor assembly, the water module assembly is connected with the water module assembly, at least part of plate body structure of the water module assembly is arranged between the compressor assembly and the water module assembly, the shell structure is provided with a fan, the fan at least can be communicated with a space where the compressor assembly is positioned, and the water module assembly is provided with a refrigerant sensor; according to the utility model, the compressor assembly and the water module assembly can be separated through the water module assembly plate, so that the refrigerant can be prevented from flowing to the water module assembly easily and directly, and the potential safety hazard of the water module assembly is reduced; meanwhile, by arranging the fan and the refrigerant sensor, when the concentration of the refrigerant reaches a certain threshold value, the leaked refrigerant at the compressor assembly is directly discharged to the external environment by starting the fan, so that potential safety hazards are avoided.

Description

Heat pump type air conditioner outdoor unit and air conditioner

Technical Field

The utility model relates to the technical field of air conditioners, in particular to a heat pump type air conditioner outdoor unit and an air conditioner.

Background

An air conditioner is an indispensable electrical device in daily life of people, and has various structural forms. With the continuous improvement of the industrial design level and the application of new technology, new materials and new models to air conditioners, various air conditioners are developed.

Taking a heat pump type air conditioner capable of heating water as an example, in the prior art, a water module is often arranged in the heat pump type air conditioner outdoor unit at the position close to a compressor assembly at the same time of the compressor assembly, firstly, a refrigerant is utilized to provide air conditioning refrigeration for a user, secondly, a high-temperature refrigerant formed after the air conditioning refrigeration is utilized to heat water through the water module. However, in the long-term service process of the air conditioner, refrigerant leakage can not be avoided at the compressor assembly, the refrigerant can flow to the water module adjacent to the compressor assembly directly, and as the electric heater is arranged in the water module, potential safety hazards such as explosion combustion and the like can exist along with the rise of the refrigerant concentration at the compressor assembly and the water module.

Even, along with the continuous leakage of refrigerant, there is some refrigerant to spread to the automatically controlled box of off-premises station, because set up a large amount of electrical components more intensively in the automatically controlled box, on the basis that there is the potential safety hazard in water module department, can further increase the explosion of air conditioner off-premises station inside, the risk of burning.

Disclosure of Invention

In view of the above, the present utility model is directed to a heat pump type air conditioner outdoor unit and an air conditioner, so as to solve the problem that when the heat pump type air conditioner outdoor unit leaks refrigerant, the water module is easy to have potential safety hazard along with the rise of the concentration of the refrigerant in the prior art.

In order to achieve the above purpose, the technical scheme of the utility model is realized as follows:

the utility model provides a heat pump type air condensing units, includes fan, compressor subassembly, water module subassembly, shell structure, set up the wind riser that separates between fan, the compressor subassembly, water module subassembly is connected with water module assembly board, at least part plate body structure of water module assembly board is set up between compressor subassembly, water module subassembly, shell structure sets up the fan, the fan can be with the space intercommunication that compressor subassembly was located at least, water module assembly board sets up the refrigerant sensor. Through setting up water module assembly plate, on the one hand provide assembly, supporting role to water module assembly, on the other hand water module assembly plate can separate compressor assembly, water module assembly to a certain extent, when compressor assembly takes place refrigerant and reveal, can play the effect of separation refrigerant to a certain extent, avoids the refrigerant can comparatively directly flow to water module assembly department easily, reduces the potential safety hazard of water module assembly department. Meanwhile, a fan is arranged on the shell structure, the refrigerant concentration of the compressor assembly and/or the water module assembly is detected through the refrigerant sensor, when the refrigerant concentration reaches a certain threshold value, the refrigerant leaked from the compressor assembly is directly discharged to the external environment through starting the fan, so that the water module assembly and even the electric control box and other parts are prevented from being at safety risk due to overhigh refrigerant concentration in the outdoor unit.

Further, the outdoor unit comprises a chassis, the lower ends of the air isolation vertical plates and the lower ends of the water module assembly plates are connected with the chassis, and the height of the water module assembly plates is smaller than that of the air isolation vertical plates in the vertical direction. Because the density of the refrigerant is often greater than that of the air, the leaked refrigerant is often concentrated at the middle lower part of the second chamber, and the middle lower part of the second chamber and the middle lower part of the third chamber are isolated through the water module assembly plate, so that the refrigerant is prevented from flowing into the third chamber to cause potential safety hazards; meanwhile, the upper part of the third chamber can be communicated with the upper part of the second chamber, so that a larger space is formed, and other parts of the air conditioner such as pipelines can be conveniently arranged.

Further, a refrigerant sensor is arranged at the upper part of the water module assembly plate. Due to the separation of the wind-isolating vertical plate and the water module assembly plate, leaked refrigerant tends to be concentrated at the middle lower part of the second chamber, and the refrigerant sensor is arranged at the upper part of the water module assembly plate, so that when the refrigerant in the second chamber reaches a certain amount and overflows from the second chamber to the third chamber, the refrigerant sensor can timely detect the condition that the refrigerant possibly flows to the water module assembly, and the air conditioner can timely start the fan; meanwhile, the phenomenon that the fan is started too frequently due to improper position setting of the refrigerant sensor can be avoided.

Further, the water module assembly plate includes first plate body, second plate body, first plate body and second plate body coupling, at least first plate body is set up between compressor assembly, water module assembly, the upper portion of first plate body sets up refrigerant sensor for refrigerant sensor can be located between compressor assembly, the water module assembly, detects the well upper portion of third cavity, the well upper portion of second cavity, when refrigerant overflows to the third cavity by the second cavity, refrigerant sensor can in time detect to make the air conditioner can in time open the fan, eliminates the potential safety hazard that probably can produce.

Further, the upper portion of first plate body sets up the mounting panel, refrigerant sensor is connected with the mounting panel, compressor assembly's liquid storage pot is connected with the mounting panel. Thereby through setting up the mounting panel, when assembling refrigerant sensor, be convenient for install fixedly to the individual part of compressor assembly, make the mounting panel can provide certain integrated assembly effect on the one hand, on the other hand avoid setting up too much assembly structure on the water module assembly plate to ensure the mechanical strength of water module assembly plate.

Further, the housing structure is a front panel, the front panel is provided with a mounting opening, the mounting opening is at least in direct communication with a space in which the compressor assembly is located, and the fan is disposed in the mounting opening and is detachably connected with the front panel. Because the front of the air conditioner outdoor unit is usually open, when the refrigerant is discharged outside the fan, the fan can directly discharge the refrigerant towards the front of the outdoor unit, so that the refrigerant can be conveniently diffused in time, and the refrigerant is prevented from stagnating at the outdoor unit.

Further, the lower edge of the mounting opening is higher than the upper end of the water module assembly plate. Therefore, the fan can be communicated with the second chamber, the upper part of the third chamber and the communication space of the upper part of the second chamber, and even the third chamber, so that the fan can simultaneously discharge the gas in the second chamber and the third chamber, the refrigerant concentration of the water module assembly and other parts (such as an electric control box at the top of an outdoor unit) of the air conditioner is reduced, and safety accidents are avoided.

Further, the outdoor unit comprises an electric control box, an assembly port is formed in the top end of the air isolation vertical plate, and the electric control box is arranged in the assembly port and is connected with the air isolation vertical plate. Therefore, on one hand, the air isolation vertical plate is used as a supporting assembly point of the electric control box, the electric control box is beneficial to improving the assembly firmness of the electric control box in the outdoor unit, on the other hand, the electric control box is located at the upper part of the outdoor unit and is far away from leaked refrigerants collected at the lower part in the second chamber as far as possible, meanwhile, under the action of the refrigerant sensor and the fan, when the refrigerants overflow from the upper part of the water module assembly plate, the refrigerants can be timely discharged from the interior of the outdoor unit, the leaked refrigerants cannot easily flow to the electric control box, and the electric control box is not enriched, so that the potential safety hazards of explosion and combustion of the electric control box caused by the leakage of the refrigerants are avoided.

An air conditioner comprises an indoor unit and the heat pump type air conditioner outdoor unit, wherein the indoor unit is connected with the outdoor unit.

Compared with the prior art, the heat pump type air conditioner outdoor unit and the air conditioner have the following advantages:

according to the heat pump type air conditioner outdoor unit and the air conditioner, on the basis that the heat pump type air conditioner outdoor unit is provided with the compressor component and the water module component, the water module assembly plate is arranged to provide assembly and support functions for the water module component, and the water module assembly plate can separate the compressor component and the water module component to a certain extent, so that the heat pump type air conditioner outdoor unit can play a role in blocking the refrigerant to a certain extent when the refrigerant leaks from the compressor component, the refrigerant can be prevented from flowing to the water module component easily and directly, and potential safety hazards at the water module component are reduced.

Simultaneously, this application sets up the fan at shell structure, detects the refrigerant concentration of compressor subassembly and/or water module subassembly department through the refrigerant sensor, and when refrigerant concentration reached certain threshold value, in directly discharging external environment with the refrigerant that compressor subassembly department was revealed through starting the fan to avoid leading to water module subassembly because of the inside refrigerant concentration of off-premises station is too high, even parts such as automatically controlled box exist the security risk.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

fig. 1 is a front view (front panel omitted) of a heat pump type outdoor unit of an air conditioner according to an embodiment of the present utility model;

fig. 2 is an isometric view (rear side view angle, and omitting a compressor assembly, an electric control box, and a fan) of a heat pump air conditioner outdoor unit according to an embodiment of the present utility model;

FIG. 3 is an exploded view of the embodiment of the present utility model based on FIG. 2;

fig. 4 is an isometric view (front view) of a water module assembly of a heat pump type air conditioner outdoor unit according to an embodiment of the present utility model.

Reference numerals illustrate:

1. a blower; 2. a compressor assembly; 3. a water module assembly; 4. a wind-isolating vertical plate; 41. an assembly port; 5. a water module assembly plate; 51. a first plate body; 52. a second plate body; 6. a mounting plate; 61. a refrigerant sensor; 7. a first chamber; 8. a second chamber; 9. a third chamber; 10. an electric control box; 11. a chassis; 12. a side plate; 13. a front panel; 131. a mounting opening; 14. a fan.

Detailed Description

The inventive concepts of the present disclosure will be described below using terms commonly used by those skilled in the art to convey the substance of their work to others skilled in the art. These inventive concepts may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other. The azimuth words adopted in the application are all based on the azimuth of the air conditioner outdoor unit in the conventional assembly and conventional placement state, and reference can be made to the coordinates in fig. 1.

The utility model will be described in detail below with reference to the drawings in connection with embodiments.

In the prior art, in the long-term service process of the heat pump type air conditioner outdoor unit, refrigerant leakage can not be avoided at the compressor assembly, the refrigerant can flow to the water module close to the compressor assembly directly, and as the electric heater is arranged in the water module, potential safety hazards such as explosion combustion and the like can exist along with the increase of the refrigerant concentration at the compressor assembly and the water module. Even, along with the continuous leakage of refrigerant, there is some refrigerant to spread to the automatically controlled box of off-premises station, because set up a large amount of electrical components more intensively in the automatically controlled box, on the basis that there is the potential safety hazard in water module department, can further increase the risk of the inside burning of air condensing units.

In order to solve the problem that when the heat pump type air conditioner outdoor unit in the prior art leaks refrigerant, along with the rise of the refrigerant concentration, the potential safety hazard easily exists at the water module, and this embodiment provides a heat pump type air conditioner outdoor unit, as shown in fig. 1-4, the outdoor unit includes a fan 1, a compressor assembly 2, a water module assembly 3, and a shell structure, a wind-isolating vertical plate 4 is disposed between the fan 1 and the compressor assembly 2, the water module assembly 3 is connected with the water module assembly 5, at least part of the plate structure of the water module assembly 5 is disposed between the compressor assembly 2 and the water module assembly 3, the shell structure is provided with a fan 14, the fan 14 at least can be communicated with the space where the compressor assembly 2 is located, and the water module assembly 5 is provided with a refrigerant sensor 61 for detecting the refrigerant concentration in the space where the compressor assembly 2 is located and/or the space where the water module assembly 3 is located.

To heat pump type air condensing units, on setting up compressor assembly 2, water module assembly 3's basis simultaneously, this application is through setting up water module assembly board 5, on the one hand provide assembly, supporting role to water module assembly 3, on the other hand water module assembly board 5 can separate compressor assembly 2, water module assembly 3 to a certain extent, when compressor assembly 2 takes place the refrigerant and reveal, can play the effect of separation refrigerant to a certain extent, avoid the refrigerant can flow to water module assembly 3 department relatively easily, reduce the potential safety hazard of water module assembly 3 department.

Meanwhile, the fan 14 is arranged on the shell structure, the refrigerant concentration of the compressor assembly 2 and/or the water module assembly 3 is detected through the refrigerant sensor 61, when the refrigerant concentration reaches a certain threshold value, the leaked refrigerant at the compressor assembly 2 is directly discharged to the external environment through starting the fan 14, so that the water module assembly 3, even the electric control box 10 and other components are prevented from being at safety risk due to overhigh refrigerant concentration in the outdoor unit.

Referring to the drawings, for convenience of description, because the inside of the outdoor unit is provided with the wind isolation vertical plate 4 and the water module assembly plate 5, the application sequentially separates the inner cavity of the outdoor unit into the first chamber 7, the second chamber 8 and the third chamber 9, the fan 1 is arranged in the first chamber 7, the compressor assembly 2 is arranged in the second chamber 8, and the water module assembly 3 is arranged in the third chamber 9. That is, the space in which the compressor assembly 2 is located is the second chamber 8, and the fan 14 is in direct communication with at least the second chamber 8.

The outdoor unit comprises a chassis 11, the lower ends of the wind isolation vertical plates 4 and the lower ends of the water module assembly plates 5 are connected with the chassis 11, and the height of the water module assembly plates 5 is smaller than that of the wind isolation vertical plates 4 in the vertical direction. Therefore, as the density of the refrigerant is always higher than that of the air, the leaked refrigerant is always concentrated at the middle lower part of the second chamber 8, and the middle lower part of the second chamber 8 and the middle lower part of the third chamber 9 are isolated through the water module assembly plate 5, so that the refrigerant is prevented from flowing to the third chamber 9 to cause potential safety hazards; meanwhile, the upper part of the third chamber 9 can be communicated with the upper part of the second chamber 8, so that a larger space is formed, and other parts of the air conditioner such as pipelines can be conveniently arranged.

The refrigerant sensor 61 is arranged at the upper part of the water module assembly plate 5, due to the separation of the wind isolation vertical plate 4 and the water module assembly plate 5, leaked refrigerant tends to concentrate at the middle lower part of the second chamber 8, and the refrigerant sensor 61 is arranged at the upper part of the water module assembly plate 5, so that when the refrigerant in the second chamber 8 reaches a certain amount and overflows from the second chamber 8 to the third chamber 9, the refrigerant sensor 61 can timely detect the condition that the refrigerant possibly flows to the water module assembly 3, and the fan 14 can be timely started by the air conditioner; at the same time, the fan 14 is prevented from being turned on too frequently due to improper positioning of the refrigerant sensor 61.

For the setting of fan 14, consider that second cavity 8 is located between first cavity 7, the third cavity 9, can supply the shell structure of installing fan 14 less, in this application, shell structure is preferably front panel 13, front panel 13 sets up mounting opening 131, mounting opening 131 at least with the space direct intercommunication that compressor assembly 2 is in, fan 14 is set up in mounting opening 131 to be connected with front panel 13 in a detachable mode, thereby because the place ahead of air condensing units tends to be comparatively spacious, when fan 14 discharges the refrigerant outward, makes fan 14 can directly be directed towards the place ahead of off-premises station refrigerant, and the refrigerant of being convenient for in time diffuses, avoids the refrigerant to stagnate in off-premises station department. Preferably, the fan 14 is connected with the front panel 13 through a fastener, so that the fan 14 can be conveniently disassembled and maintained while ensuring the firm connection.

Of course, the fan 14 may be disposed in other casing structures, such as a top plate, a side plate 12, etc., and a pipeline may be additionally disposed in the outdoor unit, where one end of the pipeline is communicated with the fan 14, and the other end of the pipeline extends to a specific position (such as the second chamber 8) as required, and the other end of the pipeline may be divided into multiple branches and extends to multiple positions. However, in view of the additional arrangement of the tubes in the outdoor unit, the arrangement of the original components in the outdoor unit is often affected, and the application does not suggest the additional arrangement as an optimal solution.

It should be noted that, for different designs of the outdoor unit, the front panel 13 may be a single front panel of a conventional outdoor unit, or may be composed of a plurality of panels, for example: the front panel 13 shown in the drawings of the present application may be regarded as one of a plurality of panels, which may be referred to as a small panel, and is mainly used as a front panel structure at the second chamber 8 and the third chamber 9, and correspondingly, another large panel (not shown) is also disposed at the first chamber 7, and the small panel and the large panel may together form the front panel structure of the whole outdoor unit.

In the vertical direction, the lower edge of the mounting opening 131 is higher than the upper end of the water module assembly plate 5, so that the fan 14 not only can be communicated with the second chamber 8, but also can be communicated with the upper portion of the third chamber 9 and the communicating space of the upper portion of the second chamber 8, and even be communicated with the third chamber 9, so that the fan 14 can simultaneously discharge the air in the second chamber 8 and the third chamber 9, and the refrigerant concentration of the water module assembly 3 and other parts (such as the electric control box 10 at the top of the outdoor unit) of the air conditioner is reduced, thereby avoiding the occurrence of safety accidents.

For the assembly of the refrigerant sensor 61, the water module assembly plate 5 includes a first plate 51 and a second plate 52, the first plate 51 is connected with the second plate 52, at least the first plate 51 is disposed between the compressor assembly 2 and the water module assembly 3, the refrigerant sensor 61 is disposed on the upper portion of the first plate 51, so that the refrigerant sensor 61 can be disposed between the compressor assembly 2 and the water module assembly 3, the upper middle portion of the third chamber 9 and the upper middle portion of the second chamber 8 are detected, when the refrigerant overflows from the second chamber 8 to the third chamber 9, the refrigerant sensor 61 can timely detect, and the air conditioner can timely turn on the fan 14, so as to eliminate potential safety hazards which may occur. The refrigerant sensor 61 is a refrigerant concentration sensor, and in view of the fact that the sensor in the prior art can be adopted or directly purchased from the market, the description thereof is omitted herein.

Meanwhile, the arrangement of the first plate 51 and the second plate 52 of the present application can be adjusted according to the actual occupied space of the water module, and is not limited to the form shown in the drawings of the present application, for example: the first plate 51 may be parallel to the wind-isolation vertical plate 4, or may intersect with a plane in which the wind-isolation vertical plate 4 is located; the included angle between the second plate 52 and the first plate 51 may be a right angle or other angles, the second plate 52 may be close to the rear side plate (not shown) of the outdoor unit, or may be close to the front panel 13 of the outdoor unit, but the application suggests that the second plate 52 is connected to the rear side end of the first plate 51, so that the second plate 52 is relatively close to the rear side plate of the outdoor unit, at this time, the first plate 51, the second plate 52, the side plate 12 and the front panel 13 may enclose the third chamber 9, and at the same time, when the outdoor unit is maintained, the front panel 13 is detached to directly perform maintenance operation from the front side of the outdoor unit.

Considering the assembly of the relevant components of the compressor assembly 2, the mounting plate 6 is disposed on the upper portion of the first plate body 51, the refrigerant sensor 61 is connected with the mounting plate 6, and meanwhile, the relevant components of the compressor assembly 2 (such as a liquid storage tank) are connected with the mounting plate 6, so that the mounting plate 6 is disposed, the refrigerant sensor 61 is assembled, and meanwhile, the individual components of the compressor assembly 2 are conveniently mounted and fixed, so that the mounting plate 6 can provide a certain integrated assembly effect, and excessive assembly structures are prevented from being disposed on the water module assembly plate 5, so that the mechanical strength of the water module assembly plate 5 is guaranteed.

The outdoor unit comprises an electric control box 10, an assembly port 41 is arranged at the top end of the wind isolation vertical plate 4, and the electric control box 10 is arranged in the assembly port 41 and is connected with the wind isolation vertical plate 4. Therefore, on one hand, the wind-isolating vertical plate 4 is used as a supporting assembly point of the electric control box 10, which is favorable for improving the assembly firmness of the electric control box 10 in the outdoor unit, on the other hand, the electric control box 10 is positioned at the upper part of the outdoor unit and is far away from leaked refrigerants collected at the middle and lower parts of the second chamber 8 as far as possible, meanwhile, under the action of the refrigerant sensor 61 and the fan 14, when the refrigerants overflow the upper part of the water module assembly plate 5, the refrigerants can be timely discharged from the inner part of the outdoor unit, so that the leaked refrigerants cannot easily flow to the electric control box 10, and can not be enriched in the electric control box 10, thereby being favorable for avoiding potential safety hazards of explosion and combustion of the electric control box 10 caused by refrigerant leakage.

Meanwhile, in consideration of space interference, the upper edge of the mounting opening 131 is lower than the bottom wall of the electric control box 10, so as to avoid the electric control box 10 from obstructing the refrigerant discharging process of the fan 14 and ensure the normal operation of the fan 14.

In the present utility model, the heat pump type air conditioner includes an indoor unit and the heat pump type air conditioner outdoor unit in the present embodiment, wherein the indoor unit is connected to the outdoor unit. Based on the related structure and the assembly relation of the outdoor unit provided by the embodiment, the air conditioner further comprises conventional components of the outdoor unit of the air conditioner, including a heat exchange coil, a chassis 11, related components of a shell and the like; likewise, the air conditioner further comprises an air conditioner indoor unit and related components; in view of the fact that they are all prior art, they are not described in detail herein.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (9)

1. The utility model provides a heat pump type air condensing units, its characterized in that, the off-premises station includes fan (1), compressor subassembly (2), water module subassembly (3), shell structure, set up between fan (1), the compressor subassembly (2) and separate wind riser (4), water module subassembly (3) are connected with water module assembly board (5), at least part plate body structure of water module assembly board (5) is set up between compressor subassembly (2), water module subassembly (3), shell structure sets up fan (14), fan (14) can be with the space intercommunication that compressor subassembly (2) are located at least, water module assembly board (5) set up refrigerant sensor (61).

2. The heat pump type outdoor unit of claim 1, wherein the outdoor unit comprises a chassis (11), the lower ends of the air blocking vertical plates (4) and the lower ends of the water module assembly plates (5) are connected with the chassis (11), and the height of the water module assembly plates (5) is smaller than the height of the air blocking vertical plates (4) in the vertical direction.

3. The outdoor unit of claim 1, wherein the water module assembly plate (5) is provided at an upper portion thereof with a refrigerant sensor (61).

4. The heat pump type air conditioner outdoor unit according to claim 1, wherein the water module assembly plate (5) comprises a first plate body (51) and a second plate body (52), the first plate body (51) is connected with the second plate body (52), at least the first plate body (51) is arranged between the compressor assembly (2) and the water module assembly (3), and a refrigerant sensor (61) is arranged at the upper part of the first plate body (51).

5. The outdoor unit of claim 4, wherein the upper portion of the first plate body (51) is provided with a mounting plate (6), the refrigerant sensor (61) is connected to the mounting plate (6), and the liquid storage tank of the compressor assembly (2) is connected to the mounting plate (6).

6. A heat pump type outdoor unit according to claim 1, wherein the housing structure is a front panel (13), the front panel (13) is provided with a mounting opening (131), the mounting opening (131) is directly connected to at least a space where the compressor assembly (2) is located, and the fan (14) is provided in the mounting opening (131) and detachably connected to the front panel (13).

7. The outdoor unit of claim 6, wherein the lower edge of the mounting opening (131) is higher than the upper end of the water module assembly plate (5).

8. The heat pump type air conditioner outdoor unit according to claim 1, wherein the outdoor unit comprises an electric control box (10), an assembly port (41) is formed in the top end of the air isolation vertical plate (4), and the electric control box (10) is arranged in the assembly port (41) and connected with the air isolation vertical plate (4).

9. An air conditioner, characterized in that the air conditioner comprises an indoor unit and the heat pump type air conditioner outdoor unit according to any one of claims 1 to 8, wherein the indoor unit is connected with the outdoor unit.