CN113587247A - Hanging air conditioner indoor unit and air conditioner with same - Google Patents

Abstract

The invention provides a hanging type air conditioner indoor unit and an air conditioner with the same. The bottom of the shell is provided with an air outlet with a downward opening. The main air deflector comprises a plate body, and a first side of the plate body is pivotally arranged at the bottom of the shell body so as to enable the plate body to rotate between a first position and a second position. The position of the plate body for closing the air outlet is a first position, and the position of the plate body extending downwards is a second position. The auxiliary air deflector is pivotally arranged on the second side of the plate body, wherein the second side of the plate body is opposite to the first side of the plate body; the driving assembly is used for driving the main air deflector and the auxiliary air deflector to rotate. The bottom of the shell is provided with an air outlet with a downward opening, the plate body does not shield the air outlet, the air outlet can vertically and downwardly send hot air out, and real hot air is blown downwards. When the included angle between the auxiliary air guide plate and the plate body is smaller than 90 degrees, the air direction can be guided to the indoor in the obliquely upward direction and the upward direction, and cold air is blown upwards.

Description

Hanging air conditioner indoor unit and air conditioner with same

Technical Field

The invention relates to the field of air purification, in particular to a hanging type air conditioner indoor unit and an air conditioner with the same.

Background

The existing hanging type air conditioner comprises a refrigeration mode and a heating mode, an air outlet blows hot air in the heating mode, and the hot air is not easy to sink, so that the hot air is expected to be blown downwards, carpet type air supply is realized, the temperature of the whole room is uniformly increased, and the heating effect is better. The air outlet blows out cold air under the refrigeration mode, because cold air sinks easily, consequently, hopes to blow cold air upwards, realizes the shower formula air supply, and whole room temperature evenly reduces, and refrigeration effect is better. Therefore, in the heating mode, the air supply direction is downward; in the cooling mode, the air supply direction is upward. In order to meet the air supply directions in different modes, the air outlet of the existing air conditioner is arranged at the front lower part of the shell, hot air is blown obliquely downwards during heating, and cold air is blown obliquely upwards during cooling. The wind guide range of the mode is limited, and real hot wind downward blowing and cold wind upward blowing cannot be realized.

Disclosure of Invention

The invention aims to provide a hanging type air conditioner indoor unit to solve the technical problems that hot air blows downwards and cold air blows upwards.

In particular, the present invention provides a hanging type air conditioner, comprising:

the bottom of the shell is provided with an air outlet with a downward opening;

a main air deflection plate, comprising:

the first side of the plate body is pivotally arranged at the bottom of the shell so that the plate body can rotate between a first position and a second position; the air outlet is closed by the plate body at a first position, and the plate body extends downwards at a second position;

the auxiliary air deflector is pivotally arranged on the second side of the plate body, wherein the second side of the plate body is opposite to the first side of the plate body;

and the driving assembly is used for driving the main air deflector and the auxiliary air deflector to rotate.

Optionally, the drive assembly comprises:

and the rotating shaft of the main motor is connected with one of two ends, opposite to the first side, of the plate body so as to drive the main air guide plate to rotate.

Optionally, the main deflector further comprises:

the two mounting plates are respectively arranged at two ends of the first side of the plate body;

the two main rotating shafts are respectively arranged on the two mounting plates in a penetrating way;

the two shaft sleeves are respectively arranged on the shell in a penetrating manner, one end of each shaft sleeve is respectively sleeved on the main rotating shaft so as to enable the plate body to be erected on the shell, and the other end of at least one shaft sleeve is sleeved on the rotating shaft of the main motor.

Optionally, the drive assembly further comprises:

and the at least one auxiliary motor is arranged on the second side of the plate body and drives the auxiliary air guide plate to rotate.

Optionally, the air deflector further comprises:

the two mounting seats are respectively arranged at two opposite ends of the second side of the plate body, an auxiliary motor is arranged in each mounting seat, and a rotating shaft of each auxiliary motor extends out of the mounting seat;

the auxiliary air guide plates are close to shaft holes formed at two ends of the second side of the main air guide plate, and the extended parts of the rotating shafts of the two auxiliary motors are respectively accommodated in the shaft holes formed at the two ends of the second side of the main air guide plate.

Optionally, the secondary air deflection plate rotates between a third position and a fourth position; the auxiliary air guide plate is in a third position when being attached to one side, facing the air outlet, of the plate body, and the auxiliary air guide plate is in a fourth position when being rotated to be consistent with the extending direction of the plate body from the third position.

Optionally, the shape and size of the secondary air deflectors are substantially the same as the shape and size of the air outlets.

Optionally, an air duct with a downward air supply direction is defined inside the casing, and an air outlet is formed at the bottom of the casing by the air duct.

Optionally, one side surface of the housing is a supporting surface, and the plate body is pivotally disposed on a side of the air outlet close to the supporting surface.

According to a second aspect of the present invention, there is also provided an air conditioner comprising an outdoor unit and a wall-hung indoor unit of an air conditioner as described in any one of the above embodiments.

The invention relates to a hanging type air conditioner indoor unit which comprises a shell, a main air deflector, an auxiliary air deflector and a driving assembly. The bottom of the shell is provided with an air outlet with a downward opening. The main air deflector comprises a plate body, and a first side of the plate body is pivotally arranged at the bottom of the shell body so as to enable the plate body to rotate between a first position and a second position. The position of the plate body for closing the air outlet is a first position, and the position of the plate body extending downwards is a second position. The auxiliary air deflector is pivotally arranged on the second side of the plate body, wherein the second side of the plate body is opposite to the first side of the plate body; the driving assembly is used for driving the main air deflector and the auxiliary air deflector to rotate. The casing bottom sets up the air outlet that the opening faces down, during the mode of heating, will rotate to the second position as the plate body, and the plate body does not have any to shelter from to the air outlet, and the air outlet can be sent out hot-blast perpendicular downwards, realizes really blowing down hot-blast. And when the baffle is located at the second position, the baffle guides the hot air blown out from the air outlet downwards vertically downwards, and the hot air is further blown downwards. When the included angle between the auxiliary air deflector and the plate body is 180 degrees, the wind can be guided to the indoor space; when the included angle between the auxiliary air deflector and the plate body is 90 degrees, the wind direction can be guided to the indoor in the horizontal direction; when the included angle between the auxiliary air guide plate and the plate body is smaller than 90 degrees, the air can be guided to the indoor in the obliquely upward and upward directions, the air guide range is wide, and the purpose of blowing cold air upwards can be really realized.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is a schematic view of a hanging type air conditioner indoor unit according to an embodiment of the present invention;

fig. 2 is a schematic view of another view of a hanging type air conditioning indoor unit according to an embodiment of the present invention;

fig. 3 is a schematic view showing one mode of a hanging type air conditioner indoor unit according to an embodiment of the present invention;

fig. 4 is a schematic view showing one mode of a hanging type air conditioner indoor unit according to an embodiment of the present invention;

FIG. 5 is a schematic cross-sectional view of a hanging type indoor unit of an air conditioner according to an embodiment of the present invention;

FIG. 6 is an exploded view of an indoor unit of a hanging air conditioner according to an embodiment of the present invention;

FIG. 7 is an enlarged schematic view at A in FIG. 6;

fig. 8 is a schematic view illustrating a secondary air guide plate in a hanging type air conditioning indoor unit according to an embodiment of the present invention.

Detailed Description

Fig. 1 is a schematic view of a hanging type air conditioner indoor unit according to an embodiment of the present invention; fig. 2 is a schematic view of another view of a hanging type air conditioning indoor unit according to an embodiment of the present invention; fig. 3 is a schematic view showing one mode of a hanging type air conditioner indoor unit according to an embodiment of the present invention; fig. 4 is a schematic view showing one mode of a hanging type air conditioner indoor unit according to an embodiment of the present invention; fig. 5 is a schematic cross-sectional view illustrating a hanging type air conditioning indoor unit according to an embodiment of the present invention. As shown in fig. 1 to 5, in the present embodiment, the hanging type air conditioning indoor unit includes a casing 100, an air inlet 130 is formed at the top of the casing 100 (i.e., the casing 100 located above), a supporting surface 140 is formed at the rear side of the casing 100, and an air outlet 110 is formed at the bottom of the casing 100 (i.e., the casing 100 located below). The evaporator 500, the fan 600, and the air duct 120 are sequentially disposed in the casing 100 from the top to the bottom. The hanging type air conditioning indoor unit can be hung on a wall through the support surface 140, that is, the casing 100 at the rear side.

As shown in fig. 1 to 5, the hanging type air conditioning indoor unit includes a casing 100, a main air deflector 200, a sub air deflector 300, and a driving assembly. The bottom of the housing 100 is provided with an air outlet 110 with a downward opening. The main air deflector 200 includes a plate body 210, and a first side of the plate body 210 is pivotally disposed at the bottom of the casing 100 to rotate the plate body 210 between a first position and a second position. The position of the plate 210 closing the air outlet 110 is a first position, and the position of the plate 210 extending downward is a second position. That is, the plate body 210 may be rotated from a position covering the outlet 110 to a position where the wind-out direction is uniform, or it may be understood that the plate body 210 is rotated 90 ° from a horizontal position (first position) to a vertical position (second position). As shown in fig. 1 to 2, when the plate 210 is located at the first position, the air outlet 110 is in a closed state due to the shielding of the plate 210, and this position of the plate 210 is referred to as the first position. As shown in fig. 3, when the plate 210 is located at the second position, the plate 210 does not shield the air outlet 110, and the air outlet 110 with a downward opening disposed at the bottom of the housing 100 can deliver the air vertically downward.

Therefore, the air outlet 110 with the downward opening is arranged at the bottom of the shell 100, and in the heating mode, when the plate body 210 rotates to the second position, the plate body 210 does not shield the air outlet 110, the air outlet 110 can vertically send out hot air downwards, and real hot air downward blowing is achieved. When the plate body 210 is located at the second position, the plate body 210 guides the hot air blown out from the air outlet 110 downward, so as to further blow the hot air downward.

As shown in fig. 2 to 4, the secondary air deflector 300 is pivotally disposed on a second side of the plate body 210, wherein the second side of the plate body 210 is disposed opposite to the first side of the plate body 210. A first side of the plate 210 is rotatably connected to the housing 100 and is located at one side of the air outlet 110, and a second side of the plate 210 is opposite to the first side.

In the cooling mode, the plate 210 rotates to the second position, the plate 210 does not shield the outlet 110, and the outlet 110 and the housing 100 do not interfere with the second side of the plate 210. The secondary air guiding plate 300 is pivoted to the second side of the plate 210 and can rotate at any angle. For example, the auxiliary air guiding plate 300 may be attached to the plate 210, and an included angle between the auxiliary air guiding plate 300 and the plate 210 is 0 °; the auxiliary air guiding plate 300 can also be rotated to a vertical position, and at this time, the included angle between the auxiliary air guiding plate 300 and the plate 210 is 180 °. As shown in fig. 2, at this time, the auxiliary air guiding plate 300 is attached to the plate body 210, the auxiliary air guiding plate 300 is not unfolded relative to the plate body 210, and an included angle between the auxiliary air guiding plate 300 and the plate body 210 is 0 degree; as shown in fig. 3, at this time, the secondary air guiding plate 300 is completely unfolded relative to the plate body 210, and an included angle between the secondary air guiding plate 300 and the plate body 210 is 180 °; the included angle between the secondary air guiding plate 300 and the plate body 210 can be arbitrarily selected from 0 ° to 180 °.

Therefore, when the angle between the auxiliary air deflector 300 and the plate 210 is 180 degrees, the air can be guided into the room; when the angle between the auxiliary air deflector 300 and the plate body 210 is 90 degrees, the wind direction can be guided to the indoor in the horizontal direction; when the included angle between the auxiliary air guide plate 300 and the plate body 210 is less than 90 degrees, the air can be guided to the indoor in the obliquely upward and upward directions, the air guide range is wide, and the purpose of blowing cold air upwards can be really achieved.

In some embodiments, as shown in fig. 3-4, the secondary air deflection plate 300 rotates between a third position and a fourth position; the third position is when the auxiliary air guiding plate 300 is attached to the side of the plate 210 facing the air outlet 110, and the fourth position is when the auxiliary air guiding plate 300 rotates from the third position to the same direction as the extending direction of the plate 210. The auxiliary air guiding plate 300 can be attached to the plate 210 at the third position, i.e. the auxiliary air guiding plate 300 is at an angle of 0 ° with respect to the plate 210, and the auxiliary air guiding plate 300 is at the fourth position, i.e. the auxiliary air guiding plate 300 is completely unfolded with respect to the plate 210, and at this time, the angle between the auxiliary air guiding plate 300 and the plate 210 is 180 °.

Therefore, when the angle between the auxiliary air deflector 300 and the plate 210 is 180 degrees, the air can be guided into the room; when the angle between the auxiliary air deflector 300 and the plate body 210 is 90 degrees, the wind direction can be guided to the indoor in the horizontal direction; when the included angle between the auxiliary air guide plate 300 and the plate body 210 is less than 90 degrees, the air can be guided to the indoor in the obliquely upward and upward directions, the air guide range is wide, and the purpose of blowing cold air upwards can be really achieved.

In some embodiments, the shape and size of the secondary air deflectors 300 are substantially the same as the shape and size of the outlet 110. If the auxiliary air guiding plate 300 is smaller than the outlet 110, the whole air delivered from the outlet 110 cannot be guided, and a part of the air is omitted. Therefore, the shape and size of the sub-air guide plate 300 are substantially the same as those of the outlet 110 so that the sub-air guide plate 300 can sufficiently guide the wind blown out from the outlet 110, thereby avoiding the omission.

In some embodiments, as shown in fig. 5, the casing 100 defines an air duct 120 with a downward air supply direction inside, and the air duct 120 forms the air outlet 110 at the bottom of the casing 100.

In some embodiments, one side of the casing 100 is the supporting surface 140, and the plate 210 is pivotally disposed at a side of the air outlet 110 close to the supporting surface 140.

FIG. 6 is an exploded view of an indoor unit of a hanging air conditioner according to an embodiment of the present invention; FIG. 7 is an enlarged schematic view at A in FIG. 6; fig. 8 is a schematic view illustrating a secondary air guide plate 300 in a hanging type air conditioning indoor unit according to an embodiment of the present invention. In some embodiments, as shown in fig. 6 and 7, the drive assembly comprises: at least one main motor 410 is disposed on the housing 100, and a rotating shaft of the main motor 410 is connected to one of two ends of the plate 210 opposite to the first side to drive the main air guiding plate 200 to rotate. The drive assembly further includes: at least one secondary motor 420 is disposed on the second side of the plate 210, and drives the secondary air guiding plate 300 to rotate. In this embodiment, the main air guiding plate 200 is driven by the main motor 410 to rotate, and the auxiliary air guiding plate 300 is driven by the auxiliary motor 420 to rotate, so that the rotation of the main air guiding plate 200 and the auxiliary air guiding plate 300 can be controlled in real time. Further, the independent control of the active air plate and the auxiliary air guide plate 300 is conveniently realized, and air supply in different modes and different directions is realized. For example, in the heating mode, the main motor 410 may be selected to drive the main air deflector 200 to rotate; in the cooling mode, the main air guide plate 200 and the auxiliary air guide plate 300 are respectively controlled to rotate, so that air supply in different directions can be realized, and the range of the air supply direction is wider.

In some embodiments, the main air deflection panel 200 further includes two mounting plates 220, two main shafts 230, and two bushings 240. The two mounting plates 220 are respectively arranged at two ends of the first side of the plate body 210; the two main shafts 230 are respectively disposed through the two mounting plates 220. The two shaft sleeves 240 are respectively inserted into the housing 100, one end of each shaft sleeve 240 is respectively sleeved on the main rotating shaft 230 so that the board body 210 is erected on the housing 100, and the other end of at least one shaft sleeve 240 is sleeved on the rotating shaft of the main motor 410. The main motor 410 drives the shaft sleeve 240 to rotate, the shaft sleeve 240 drives the main shaft 230 to rotate, and the main shaft 230 drives the plate 210 to rotate. It is clear that the above-described manner is only exemplary and not exclusive.

In some embodiments, the air guiding plate further includes two mounting seats 250, the two mounting seats 250 are respectively disposed at two opposite ends of the second side of the plate body 210, one secondary motor 420 is disposed in each mounting seat 250, and the rotating shaft 421 of each secondary motor extends out of the mounting seat 250. The secondary air guiding plate 300 is close to the two ends of the second side of the main air guiding plate 200 to form the axle holes 310, and the extended parts of the rotating shafts 421 of the two secondary motors are respectively accommodated in the two ends of the second side of the main air guiding plate 200 to form the axle holes 310.

According to a second aspect of the present invention, there is also provided an air conditioner including an outdoor unit and a wall-hung indoor unit of an air conditioner as described in any one of the above embodiments. Since the air conditioner comprises the hanging type air conditioner indoor unit of any one of the embodiments, the air conditioner has the technical effects of any one of the embodiments.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been illustrated and described in detail herein, many other variations or modifications consistent with the principles of the invention may be directly determined or derived from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.

Claims (10)

1. An indoor unit of a wall-mounted air conditioner, comprising:

the bottom of the shell is provided with an air outlet with a downward opening;

a main air deflection plate, comprising:

a plate body, a first side of the plate body being pivotally disposed at a bottom of the housing to rotate the plate body between a first position and a second position; the plate body is arranged at the first position and the second position, wherein the position of the plate body closing the air outlet is the first position, and the position of the plate body extending downwards is the second position;

the auxiliary air deflector is pivotally arranged on the second side of the plate body, wherein the second side of the plate body is opposite to the first side of the plate body;

and the driving assembly is used for driving the main air deflector and the auxiliary air deflector to rotate.

2. The hanging type air conditioner indoor unit of claim 1, wherein

The drive assembly includes:

at least one main motor is arranged on the shell, and a rotating shaft of the main motor is connected with one of two ends, opposite to the first side, of the plate body so as to drive the main air deflector to rotate.

3. The hanging type air conditioner indoor unit of claim 2, wherein

The main aviation baffle still includes:

the two mounting plates are respectively arranged at two ends of the first side of the plate body;

the two main rotating shafts are respectively arranged on the two mounting plates in a penetrating way;

the two shaft sleeves penetrate through the shell respectively, one end of each shaft sleeve is sleeved on the main rotating shaft respectively so that the plate body is erected on the shell, and the other end of each shaft sleeve is sleeved on the rotating shaft of the main motor.

4. The hanging type air conditioner indoor unit of claim 1, wherein

The drive assembly further includes:

and the at least one auxiliary motor is arranged on the second side of the plate body and drives the auxiliary air deflector to rotate.

5. The hanging type air conditioner indoor unit of claim 4, wherein

The aviation baffle still includes:

the two mounting seats are respectively arranged at two opposite ends of the second side of the plate body, an auxiliary motor is arranged in each mounting seat, and a rotating shaft of each auxiliary motor extends out of the mounting seat;

the auxiliary air guide plates are close to shaft holes formed at two ends of the second side of the main air guide plate, and the extended parts of the rotating shafts of the two auxiliary motors are respectively accommodated in the shaft holes formed at two ends of the second side of the main air guide plate.

6. The hanging type air conditioner indoor unit of claim 1, wherein

The auxiliary air deflector rotates between a third position and a fourth position; the third position is formed when the auxiliary air deflector is attached to one side, facing the air outlet, of the plate body, and the fourth position is formed when the auxiliary air deflector rotates from the third position to the position consistent with the extending direction of the plate body.

7. The hanging type air conditioner indoor unit of claim 1, wherein

The shape and size of the auxiliary air deflector are approximately the same as those of the air outlet.

8. The hanging type air conditioner indoor unit of claim 1, wherein

An air duct with a downward air supply direction is limited in the shell, and the air duct forms the air outlet at the bottom of the shell.

9. The hanging type air conditioner indoor unit of claim 1, wherein

One side surface of the shell is a supporting surface, and the plate body is pivotally arranged on one side, close to the supporting surface, of the air outlet.

10. An air conditioner comprising an outdoor unit and the indoor unit of a wall-mounted air conditioner as claimed in any one of claims 1 to 9.

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