RU2557489C1 - Indoor unit of air conditioning - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: indoor unit (10) of air conditioning comprises a first frame (17) which has support parts (17h) for a heat exchanger, which support the heat exchanger (13), and a mounting part (17d) for mounting the rear surface of the indoor unit on the side wall (45). The second frame (27) together with the first one form a lower opening for air inlet, and a lower inlet channel extending from the lower opening for air inlet to the heat exchanger.

EFFECT: improved properties.

3 cl, 6 dwg

Description

FIELD OF THE INVENTION

The present invention relates to an indoor air conditioning unit.

BACKGROUND OF THE INVENTION

Patent Document 1 (JP-A No. 2001-116346) discloses an indoor air conditioning unit that has openings for air inlet in the front portion, the upper portion and the lower portion of the housing, respectively. Air that has been sucked in from the lower air inlet in the lower portion of the housing passes through the lower air inlet and is supplied to the heat exchanger. The lower air inlet and the lower air inlet are formed by a frame. The frame holds the weight of the heat exchanger, and therefore a lot of force is applied to it, so it is necessary to increase the strength of the frame.

SUMMARY OF THE INVENTION

Technical problem

However, in Patent Document 1 there is no disclosure as to how to increase the strength of the frame, which forms the lower air inlet and the lower air inlet.

Therefore, the aim of the present invention is to provide an indoor air conditioning unit, which has a frame structure, the strength of which can be increased.

Solution

An indoor air conditioning unit related to the first aspect of the present invention is an indoor air conditioning unit having a lower air inlet opening located in a lower portion, the indoor air conditioning unit comprising a first frame that has supporting sections for a heat exchanger that support the heat exchanger, and installation area for installing the rear surface of the indoor air conditioning unit on the side wall for installation, and a second frame, cat Together with the first frame, it forms a lower air inlet and a lower air inlet passing from the lower air inlet to the heat exchanger, the second frame being installed facing the side wall for installation.

According to this indoor air conditioning unit, the first frame is formed by supporting sections for the heat exchanger that support the heat exchanger, which is a heavy object, and an installation section that is directly attached to the side wall for installation, which are made as a whole. Thus, compared with the case in which the frame that supports the heavy object and the frame that is mounted on the side wall for installation are made separately, there is no longer a weak point in the connected part, where the individual frames are connected together, and the strength of the first frame can to be increased.

An indoor air conditioning unit related to the second aspect of the present invention is an indoor air conditioning unit related to the first aspect, in which a first surface that forms an air outlet for exhausting air from the heat exchanger, and a second surface that is a surface on the opposite side from the first surface are formed on the first frame, and the third surface, which forms the lower air inlet channel and the lower air inlet hole in in place with a second surface of the first frame by means of a second frame fixed on the side of the rear surface of the first frame, formed on the second frame.

In accordance with this indoor air conditioning unit, the two, first and second, frames are made of profiled sheet and are easily removed from the molds. In addition, the necessary lower air inlet channel and the lower air inlet opening can be made by connecting two leaf-shaped, first and second, frames.

An indoor air conditioning unit related to the third aspect of the present invention is an indoor air conditioning unit related to the first aspect, in which the first frame further has a connecting hole for supplying air from the lower air inlet to the heat exchanger, and the second surface is fixed so that extend from the open end portion of the connecting hole, and continuously forms the lower air inlet channel and the connecting hole.

According to this indoor air conditioning unit, a second frame is fixed to the first frame so that the connecting hole becomes continuous from the lower air inlet. Thus, air that has passed through the lower air inlet is efficiently supplied from the connecting hole.

Favorable Results of the Invention

In the indoor air conditioning unit related to the first aspect of the present invention, the strength of the first frame can be increased by supporting sections for the heat exchanger that support the heat exchanger, which is a heavy object, and an installation section that is directly attached to the side wall for installation, which are made as one.

In the indoor air conditioning unit related to the second aspect of the present invention, the first and second frames are made of a profiled sheet and are easily removed from the molds.

In the indoor air conditioning unit related to the third aspect of the present invention, the connecting hole is continuous from the lower air inlet, so that air that has passed through the lower air inlet is effectively supplied to the heat exchanger from the connecting hole.

Brief Description of the Drawings

FIG. 1 is a perspective view of an indoor air conditioning unit in accordance with an embodiment of the present invention;

FIG. 2 is a sectional view of an indoor air conditioning unit according to an embodiment of the present invention;

FIG. 3 (a) and 3 (b) are schematic views of configurations of a first frame and a second frame, wherein FIG. 3 (a) is a sectional view, and FIG. 3 (b) is a front view showing the relative position between the first frame and the heat exchanger;

FIG. 4 is a perspective view showing a state in which a second frame is secured to a first frame;

FIG. 5 is a perspective rear view of the first frame; and

FIG. 6 is a perspective front view of a second frame.

Description of Embodiment

An embodiment of the present invention will be described below with reference to the drawings. The embodiment below is a specific example of the present invention and is not intended to limit the technical scope of the present invention.

Implementation example

(1) General configuration

The general configuration of the indoor air conditioning unit 10 will be described with reference to FIG. 1 and FIG. 2. FIG. 1 is a perspective view of an indoor air conditioning unit in accordance with an embodiment of the present invention. FIG. 2 is a sectional view of an indoor air conditioning unit according to an embodiment of the present invention.

The indoor air conditioning unit 10 according to an embodiment of the present invention is a wall type unit and comprises a housing casing 11, a heat exchanger 13, an indoor fan 15, a first frame 17, a second frame 27, a filter 25 and a controller 41.

The housing casing 11 has a front surface grille 11a and a front surface panel 11b and is secured by a mounting plate 11c to the side wall 45 for installation (see FIG. 3). The heat exchanger 13, the indoor fan 15, the filter 25 and the controller 41 are arranged in a three-dimensional space defined by the front surface grid 11a, the front surface panel 11b and the first frame 17. The second frame 27 is located on the rear surface of the first frame 17 between the first frame 17 and the mounting plate 11c. The front surface panel 11b covers the front surface of the front surface grating 11a, and the upper end of the front surface panel 11b is rotatably supported on the front surface grating 11a and can be articulated.

The heat exchanger 13 carries out heat exchange with the air passing through it. In addition, the heat exchanger 13 has an inverted V-shape in which both ends are bent downward, as seen from the side view, and mounted on the first frame 17.

The indoor fan 15 is located under the heat exchanger 13. The indoor fan 15 is a radially blowing fan, directs the air drawn in from the room to the heat exchanger 13, forces the air to pass through the heat exchanger 13, and releases air into the room.

The hole 19 for the release of air is located on the lower surface of the casing 11 of the housing. The damper 29, which directs the air blown out of the air outlet 19, is rotatably disposed on the air outlet 19. The damper 29 is driven by an electric motor (in the drawings) and not only changes the direction in which air is discharged, but can also open and close the air outlet 19. The air exhaust port 19 is connected via the air outlet 18 to the inside of the housing casing 11 and provides air that has been heat exchanged in the heat exchanger 13. The air outlet 18 is formed along the first frame 17 from the air outlet 19.

In addition, the lower air inlet opening 21 is located on a portion of the lower surface of the housing casing 11 on the wall side of the air outlet 19. The lower air inlet 21 is formed by an opening in the lower portion between the first frame 17 and the second frame 27 and is connected via the lower air inlet 16 to the inside of the housing casing 11. A flap 31, which opens and closes the lower air inlet 21 as a result of rotation by the opening and closing mechanism 32, is located on the lower air inlet 21. The lower air inlet 16 is formed along the space between the first frame 17 and the second frame 27. Thus, the lower air inlet 16 is located adjacent to the air outlet 18 for the first frame 17.

The room air in the vicinity of the lower air inlet 21 is sucked due to the operation of the indoor fan 15 into the indoor fan 15 through the lower air inlet 21, the lower air inlet 16, the filter 25 and the heat exchanger 13 and is discharged from the exhaust outlet 19 air through the exhaust channel 18 for air from the fan 15 of the indoor installation.

The filter 25 is located between the grill 11a of the front surface of the housing casing 11 and the heat exchanger 13. The filter 25 removes contaminants contained in the air passing into the heat exchanger 13.

An upper air inlet 22 is located on the front upper portion of the front surface grill 11a. Room air in the vicinity of the upper air inlet 22 is sucked due to the operation of the indoor fan 15 into the indoor fan 15 through the upper air inlet 22, a filter 25 and a heat exchanger 13, and is discharged from the air outlet 19 through the air outlet 18 from the fan 15 indoor installation.

A controller 41 is installed in the front of the housing casing 11 and provides instructions for controlling the rotational speed of the indoor fan 15, adjusting the degree of opening of the air outlet 19, adjusting the degree of opening of the lower air inlet 21, and adjusting the degree of opening of the upper air inlet 22.

(2) Configurations of the first frame and the second frame

Next, configurations of the first frame 17 and the second frame 27 will be described with reference to FIG. 2 and FIG. 3 (a) and 3 (b). FIG. 3 (a) and 3 (b) are schematic views of configurations of the first frame 17 and the second frame 27, wherein FIG. 3 (a) is a sectional view, and FIG. 3 (b) is a front view showing the relative position between the first frame and the heat exchanger.

A mounting plate 11c for supporting the housing casing 11 is secured to the housing casing 11. The second frame 27 and the first frame 17 are arranged in this order, directing from the mounting plate 11c to the front surface panel 11b. The first frame 17 supports a heat exchanger 13 located on its front surface.

(2-1) First frame

The first frame 17 has an end portion 17a of the air outlet, a portion 17b defining an air outlet, a drain pan 17c, a mounting portion 17d, a connecting hole 17e, and support portions 17h for the heat exchanger.

The end portion 17a of the air outlet is one end portion of the first frame 17, located in the vicinity of the air outlet 19 and is fixed to the housing casing 11 as a result of folding relative to the portion 17b forming the air outlet, as shown, for example, in the drawings.

The portion 17b forming the air outlet is made to extend from the end portion 17a of the air outlet and forms the air outlet 18, which allows air to be discharged by the indoor fan 15 to the air outlet 19. The first surface 17f and the second surface 17g on the opposite side from the first surface 17f are formed on the first frame 17, and the first surface 17f of the air discharge duct portion 17b forms one surface of the air exhaust duct 18.

The drain pan 17c is configured to branch, for example, from a portion 17b forming an air outlet, and has a first receiving portion 17c-1 and a second receiving portion 17c-2. The first receiving section 17c-1 and the second receiving section 17c-2 form a sump that holds the liquid flowing down from the heat exchanger 13.

The mounting portion 17d is the other end portion of the first frame 17 and is formed extending from the first receiving portion 17c-1 of the drain pan 17c. The mounting portion 17d is fixed to the mounting plate 11c, whereby the first frame 17 can support a heavy object, such as a heat exchanger 13.

The connecting hole 17e is an air supply hole that has been sucked from the lower air inlet 21 and moved through the lower air inlet 16 to the heat exchanger 13. The connecting hole 17e is formed between the first receiving portion 17c-1 of the drain pan 17c and the mounting portion 17d .

As shown in FIG. 3 (b), the supporting sections 17h for the heat exchanger are located at both end sections in the width direction of the housing casing 11 and support the heat exchanger 13. The supporting sections 17h for the heat exchanger include a first supporting section 17h-1 for the heat exchanger and a second supporting section 17h-2 for heat exchanger. The first support portion 17h-1 for the heat exchanger and the second support portion 17h-2 for the heat exchanger support both ends of the heat exchanger 13.

(2-2) Second frame

The second frame 27 forms a lower air inlet 21 and a lower air inlet 16 together with the first frame 17 and has a rear surface portion 27a, a connecting portion 27b, and a portion 27c forming a tube compartment.

A rear surface portion 27a is formed along the mounting plate 11c.

The tube compartment forming portion 27c is folded from one end of the rear surface portion 27a so as to form a tube compartment 60 between itself and the mounting plate 11c. Tubes and the like connected between the outdoor air conditioning unit and the indoor air conditioning unit 10 are housed in the tube section 60.

The connecting portion 27b is formed extending from the other end of the rear surface portion 27a to the first frame 17. The connecting portion 27b is connected to an end portion of the connecting hole 17e, so that air that has passed through the lower air inlet 16 is supplied through the connecting hole 17e to the heat exchanger 13 The second frame 27 is secured to the first frame 17 so that the connecting hole 17e becomes continuous from the lower air inlet 16, so that air that has passed through the lower inlet channel 16 for the air, effectively extends the heat exchanger 13 from the connecting hole 17e.

A third surface 27d and a fourth surface 27e on the opposite side of the third surface 27d are formed on the second frame 27. The second frame 27 is fixed to the side of the rear surface of the first frame 17, as a result of which the second surface 17g of the first frame 17 and the third surface 27d of the second frame 27 form the lower air inlet 16.

(3) The principle of operation of the first frame and the second frame

A heavy object, such as a heat exchanger 13, is supported by the first frame 17. The first frame 17 is mounted on the side wall 45 for installation without using the second frame 27. That is, the end portion 17a of the air outlet, the portion 17b forming the air outlet, drain pan 17c, the mounting portion 17d and the supporting portions 17h for the heat exchanger of the first frame 17 are continuous and integral. In addition, the supporting portions 17h for the heat exchanger of the continuous and integral whole of the first frame 17 support a heavy object, such as a heat exchanger 13. Thus, compared with the case when the frame that supports the heavy object and the frame that is mounted on the side wall 45 for installation, made separately, there is no longer a weak spot in the connected part, in which the individual frames are connected together, and the strength of the first frame 17 can be increased.

Suppose, for example, that these two frames are separated and formed by a frame on the front side that supports a heavy object, such as a heat exchanger, and a frame on the back surface side, which supports the weight gained by the frame on the front side, and is fixed to the wall. In this case, it is necessary to make the connection between the frame on the front side and the frame on the back surface side to ensure that the frame on the front side does not fall under the weight of a heavy object. However, in a design in which the frame on the front side and the frame on the side of the rear surface are separate, it is difficult to eliminate a weak point in the connected part. According to the present embodiment, the first frame 17, which supports the heavy object, is itself mounted on the side wall 45 for installation as described above, so that the heavy object can be supported sufficiently.

In addition, the first frame 17 and the second frame 27, which form the lower air inlet 16 and the lower air inlet 21, are separate frames, thus the mold limitations are also removed. That is, frames, such as the first frame 17 and the second frame 27, are usually formed by injection molding or the like using a mold. However, due to limitations on the molds, it is difficult to integrate the first frame 17 and the second frame 27 as a whole. The reason is that in the case when the molding material is fed into the mold to be made as a whole, the first frame 17 and the second frame 27, the frame cannot be removed from the mold, or it is difficult to remove the frame from the mold. In addition, even if the first frame 17 and the second frame 27 can be made integrally, they are limited by the shape of the frame, which can be removed from the mold, and the degree of freedom of the shape of the frame becomes small. For this reason, the first frame 17 and the second frame 27 are formed using a mold for the first frame 17 and a mold for the second frame 27, respectively. According to the configuration of the present embodiment, the first frame 17, which forms one surface of the lower air inlet channel 16, and the second frame 27, which forms the other surface, are made separately, so that the mold limitations are overcome. In addition, the two, first and second, frames 17 and 27 are made of profiled sheet and are easily removed from the molds.

(4) Valid sample

A specific configuration of the present embodiment will be described with reference to FIG. 4-6. FIG. 4 is a perspective view showing a state in which a second frame is secured to a first frame. FIG. 5 is a perspective rear view of the first frame, and FIG. 6 is a perspective front view of a second frame.

The first frame 17 shown in FIG. 5 is a frame that supports a heavy object, such as a heat exchanger 13. FIG. 5 shows the side of the rear surface of the first frame 17, and the side of the front surface of the second frame 27 shown in FIG. 6 is opposite this side of the rear surface. As shown in FIG. 5, the end portion 17a of the air outlet, the portion 17b forming the air outlet, the drain pan 17c, the mounting portion 17d and the supporting portions 17h for the heat exchanger of the first frame 17 are made continuously and as a whole. As shown in FIG. 4, the second frame 27 is fixed to the first frame 17 so as to cover part of the rear surface of the first frame 17, and forms a lower air inlet 16.

(5) Characteristics

(5-1)

The heat exchanger 13, which is a heavy object, is supported by the first frame 17. The first frame 17, which supports the heat exchanger 13, is mounted on the side wall 45 for installation without using the second frame 27. That is, the first frame 17 is formed by supporting sections 17h for the heat exchanger, which supporting a heat exchanger 13, which is a heavy object, and a mounting portion 17d, which is directly attached to the side wall 45 for installation, which are made in one piece. Thus, compared with the case where the frame that supports the heavy object and the frame that is mounted on the side wall 45 for installation are made separately, there is no longer a weak point in the connected part in which the individual frames are connected together, and the strength of the first frame 17 may be upgraded.

In addition, the first frame 17 and the second frame 27, which form the lower air inlet 16 and the lower air inlet 21, are separate frames, thus the mold limitations are also overcome.

(5-2)

Two, first and second, frames 17 and 27 are made of profiled sheet and are easily removed from the molds. In addition, the necessary lower air inlet 16 and the lower air inlet 21 can be made by connecting two sheet-like first and second frames 17 and 27.

(5-3)

The second frame 27 is fixed to the first frame 17 so that the connecting hole 17e becomes continuous from the lower air inlet 16. Thus, air that has passed through the lower air inlet 16 is efficiently supplied to the heat exchanger 13 from the connecting hole 17e.

(6) Examples of modifications

(6-1) Modification Example 1A

In the above embodiment, the heat exchanger 13 is directly mounted on the first frame 17. This is sufficient to support the heat exchanger 13 with the first frame 17, so the heat exchanger 13 can be directly supported by the first frame 17 or can be supported indirectly by the first frame 17. For example, the first frame 17 can also support the heat exchanger 13 with the supporting sections 17h for the heat exchanger using another element.

(6-2) Modification Example 1B

In the above embodiment, the first frame 17 supports the heat exchanger 13. This is sufficient for the first frame 17, which is a frame that can support a heavy object with a relatively large weight among the devices supported in the housing casing 11, thus, for example, the first frame 17 can only support heat exchanger 13 or can support heat exchanger 13 and other devices such as indoor fan 15.

Industrial applicability

As described above, in accordance with the present invention, a frame structure can be provided, the strength of which can be improved, thus, the present invention is useful for wall-mounted indoor air conditioning units.

List of Reference Items

10 - indoor air conditioning unit

11 - housing casing

11a - front surface grille

11b - front surface panel

11c - mounting plate

13 - heat exchanger

15 - indoor fan

16 - lower air inlet

17 - first frame

17a — end portion of the air outlet

17b - section 17b forming the exhaust channel for air

17c - drain pan

17h-1 - the first receiving area

17h-2 - second receiving section

17d - installation area

17e - connecting hole

17f - first surface

17g - second surface

17h - reference sections for the heat exchanger

17f-1 — first support portion for heat exchanger

17f-2 - second support section for the heat exchanger

18 - exhaust channel for air

19 - air outlet

21 - lower air inlet

22 - upper air inlet

25 - filter

27 - second frame

27a is a section of the rear surface

27b - connecting section

27c is a section forming a compartment for tubes

27d third surface

27e fourth surface

29 - shutter

31 - sash

32 - opening and closing mechanism

41 - controller

45 - side wall for installation

60 - branch

List of bibliographic references

Patent Literature

Patent Document 1: JP-A No. 2001-116346

Claims (3)

1. An indoor air conditioning unit (10) having a lower air inlet (21) located in a lower portion, the indoor air conditioning unit comprising
a first frame (17) that has support sections (17h) for the heat exchanger that support the heat exchanger (13), and an installation section (17d) for mounting the rear surface of the indoor air conditioning unit on the side wall (45) for installation; and
a second frame (27), which together with the first frame forms a lower air inlet opening and a lower air inlet channel extending from the lower air inlet opening to the heat exchanger, the second frame being installed facing the side wall for installation. 2. The indoor air conditioning unit according to claim 1, wherein
a first surface (17f) that forms an air outlet for air to exhaust air from the heat exchanger, and a second surface (17g), which is a surface on the opposite side of the first surface, is formed on the first frame, and
a third surface (27d), which forms a lower air inlet and a lower air inlet together with a second surface of the first frame, is formed on the second frame by a second frame fixed to the rear surface of the first frame. 3. The indoor air conditioning unit according to claim 1, wherein
the first frame further has a connecting hole (17e) for supplying air from the lower air inlet to the heat exchanger, and
the second frame is fixed so as to extend from the open end portion of the connecting hole, and continuously forms the lower air inlet channel and the connecting hole.

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