JP2007183011A - Indoor unit of air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an indoor unit of an air conditioner capable of preventing generation of short circuit even when the air is sucked from a main body front side. <P>SOLUTION: This indoor unit 1 of the air conditioner comprises the main body 2, a front panel 10 and a lower short circuit preventing portion 51. The main body 2 has a front-side opening 2a, an upper supply opening 24 and a lower supply opening 25. The front-side opening 2a is formed at a front side of the main body 2. The upper supply opening 24 is formed at an upper part of the front-side opening 2a. The lower supply opening 25 is formed at a lower part of the front-side opening 2a. The front panel 10 is flat and disposed at a front part of the front-side opening 2a. The front panel 10 has an upper suction opening 11a, a lower suction opening 11b, a first side suction opening 11c and a second side suction opening 11d at its upper and lower, and right and left four sides. The lower short circuit preventing portion 51 prevents short circuit of airflow between the lower suction opening 11b and the lower supply opening 25. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an indoor unit of an air conditioner having a plurality of blowing passages.

Conventionally, there is an indoor unit described in Patent Document 1 as an indoor unit of an air conditioner having a plurality of blowout passages. This indoor unit has a configuration in which air inlets are provided on both side surfaces of the main body, and air outlets are provided on the upper surface and the lower end of the front surface, respectively, and air conditioning is performed by blowing air from the upper and lower directions. It has become.
Japanese Unexamined Patent Publication No. 64-58965

However, in the indoor unit described in Patent Document 1, the air suction port is disposed on both side surfaces of the main body, which is a position separated from the air outlet. However, in such a configuration, when installing the indoor unit indoors, the indoor unit must be installed so that the air suction port is not blocked by furniture or a wall, and there are restrictions on the installation of the indoor unit.
Thus, it is conceivable to provide an air suction port on the front surface of the main body so as not to be restricted in the installation of the indoor unit. However, in this case, the air blown from above and below is easily sucked into the air suction port, and a short circuit is likely to occur.

  The subject of this invention is providing the indoor unit of the air conditioner which can prevent generation | occurrence | production of a short circuit even if it inhales air from the main body front side.

The indoor unit of the air conditioner of the first invention includes a main body, a front panel, and a lower short circuit prevention unit. The main body has a front side opening, an upper outlet, and a lower outlet. The front side opening is formed on the front side of the main body. The upper outlet is formed above the front side opening. The lower outlet is formed below the front side opening. The front panel is flat and is disposed in front of the front side opening. The front panel has an upper suction port, a lower suction port, a first side suction port, and a second side suction port in four directions, top, bottom, left and right. A lower short circuit prevention part prevents the short circuit of the air flow between a lower suction inlet and a lower blower outlet.
Here, since the indoor unit includes the lower short circuit prevention unit, it is possible to prevent a short circuit of the air flow between the lower suction port and the lower air outlet.

The indoor unit of the air conditioner of the second invention is the indoor unit of the air conditioner of the first invention, and the lower short circuit prevention unit has a front edge and a protrusion. The front edge is disposed between the lower suction port and the lower air outlet. The leading edge protrudes forward. The protrusion is at the top of the lower outlet.
Here, since the lower short circuit prevention part has a front edge and a projection part, the front space of each of the lower suction port and the lower air outlet is separated by the front edge, and the front from the lower air outlet. Air blows out from below. Thereby, it is possible to reliably prevent a short circuit between the lower inlet and the lower outlet.

The indoor unit of the air conditioner of the third invention is the indoor unit of the air conditioner of the second invention, and the front edge has a vertical width of 10 mm or more.
Here, since the vertical width of the front edge is 10 mm or more, a sufficient distance between the lower suction port and the lower air outlet can be secured, and a short circuit can be prevented more reliably.

The indoor unit of the air conditioner of the fourth invention is the indoor unit of the air conditioner of the first invention, and the lower suction port is disposed at a position hidden by the front panel in a front view.
Here, since the lower suction port is disposed at a position hidden by the front panel in a front view, the appearance is improved.

An indoor unit for an air conditioner according to a fifth aspect of the present invention is the indoor unit for an air conditioner according to the first aspect of the present invention, further comprising an upper short circuit prevention unit. The upper short circuit prevention unit prevents a short circuit of the air flow between the upper air outlet and the upper air inlet.
Here, since the indoor unit includes the upper short circuit prevention unit, it is possible to prevent a short circuit of the air flow between the upper suction port and the upper air outlet.

  The indoor unit of the air conditioner of the sixth invention is the indoor unit of the air conditioner of the fifth invention, and the upper suction port is a slit opened on the front surface of the front panel. The upper short circuit prevention portion is a portion between the upper suction port and the upper air outlet at the upper portion of the front panel.

  Here, the upper short circuit prevention part separates the upper suction port made of the slit and the upper blower outlet and sucks air from the front into the upper suction port made of the slit, thereby It is possible to prevent a short circuit of the air flow between them.

According to the first invention, it is possible to prevent a short circuit of the air flow between the lower suction port and the lower air outlet.
According to the 2nd invention, the short circuit between a lower suction inlet and a lower blower outlet can be prevented reliably.
According to the third aspect of the invention, a sufficient distance between the lower suction port and the lower air outlet can be secured, and a short circuit can be prevented more reliably.

According to the fourth aspect of the invention, the appearance of the indoor unit is improved.
According to the fifth invention, it is possible to prevent a short circuit of the air flow between the upper suction port and the upper air outlet.
According to the sixth invention, the upper short circuit prevention portion separates the upper suction port composed of the slit and the upper air outlet and sucks air from the front into the upper suction port composed of the slit, thereby allowing the upper suction port and the upper suction port to be separated from each other. A short circuit of the air flow between the air outlet and the air outlet can be prevented.

Hereinafter, an indoor unit of an air conditioner according to an embodiment of the present invention will be described with reference to the drawings.
An indoor unit 1 of an air conditioner shown in FIGS. 1 to 5 is a floor-standing indoor unit, and includes a main body 2, an indoor heat exchanger 3, a fan 4, a shutter 5, a step motor 6, The filter 7, the front grill 8, the front panel 10, and the lower short circuit prevention unit 51 are provided. The front panel 10 disposed on the front surface of the main body 2 has a flat shape.

The main body 2 houses an indoor heat exchanger 3, a fan 4, a shutter 5, a step motor 6, a filter 7, and a front grill 8.
The indoor unit 1 is used in a state where it is installed on the floor of the living room. The indoor unit 1 is installed not only with the main body 2 in contact with the surface of the wall of the living room, but also with all or part of the rear portion A (see FIG. 2) of the main body 2 embedded in the wall of the living room. It is also possible. The indoor unit 1 further includes a detachable cover 9 for covering both side surfaces and a part of the upper surface of the rear portion A of the main body 2. Therefore, the cover 9 can be attached and detached according to the length embedded in the wall of the rear portion A of the main body 2.

<Configuration of body 2>
As shown in FIG. 3, the main body 2 includes a hollow housing made of synthetic resin. Inside the main body 2, a filter 7, an indoor heat exchanger 3, and a fan 4 are arranged in this order from the front side opening 2 a formed on the front side to the rear.
A front grill 8 is attached to the periphery of the front side opening 2 a of the main body 2. A filter 7 is fitted in the front grill 8.

A flat front panel 10 is disposed in front of the front side opening 2a of the main body 2 in a state of being floated from the front side opening 2a.
The front panel 10 includes an upper suction port 11a, a lower suction port 11b, a first side suction port 11c, and a second side suction port 11d in four directions, upper, lower, left and right. Specifically, since the front panel 10 is disposed to be spaced forward from the main body 2, the upper suction port 11a at three locations and the first side suction are provided on the upper side and the left and right sides of the front panel 10. A port 11c and a second side suction port 11d (see FIG. 1) are formed. A slit-like lower suction port 11b is formed at a position below the front panel 10 and slightly above the lower air outlet 25. As a result, suction ports 11a, 11b, 11c, and 11d are arranged in the four directions of the front panel 10 in the vertical and horizontal directions, respectively.

On the upper and lower portions of the front panel 10, fitting protrusions 10a and 10b are formed, respectively. By fitting the fitting protrusions 10a and 10b into the fitting recess 8a of the front grill 8 and the fitting hole 2b near the front lower end of the main body 2, the front panel 10 is lifted from the front opening 2a of the main body 2. Fixed in state.
The main body 1 is formed with a suction passage P1, an upper blowing passage P2, and a lower blowing passage P3.

The suction passage P1 passes through any one of the upper suction port 11a, the lower suction port 11b, the first side suction port 11c, or the second side suction port 11d of the front panel 10, The passage enters the main body 2 through the side opening 2 a and passes through the filter 7, the outdoor heat exchanger 3, and the fan 4 in this order.
The upper blowing passage P2 is a passage from the fan 4 to the upper outlet 24 through the upper space 27. The upper outlet 24 is formed above the front side opening 2 a of the main body 2. A movable plate 26 that can be opened and closed is disposed at the upper outlet 24.

The lower blowing passage P3 is a passage from the fan 4 through the lower space 28 to the lower outlet 25. The lower outlet 25 is formed below the front side opening 2 a of the main body 2. An openable / closable shutter 5 is disposed in the lower space 28. Further, a stopper 37 that contacts the shutter 5 in a closed state is formed inside the lower space 28. A plurality of slits 10c extending in the horizontal direction are formed in the front panel 10 on the front side of the lower outlet 25.
Further, as shown in FIG. 4, a plurality of vertical wind direction plates 31 and a vertical wind direction plate 31 for adjusting the horizontal direction of the wind blown from the lower outlet 25 are connected to the lower space portion 28, respectively. A connection bar 32 and a lever 33 for manual operation connected to the connection bar 32 are further arranged.

<Configuration of fan 4>
The fan 4 is a turbo fan that is a type of centrifugal fan that blows wind in the centrifugal direction, and includes a fan rotor 41, a motor 42, and a fan casing 43 as shown in FIG. 3. The fan rotor 41 has a plurality of blades 41a (shaded portions in FIG. 3) arranged so as to separate from the center 41b while drawing a spiral.

The fan casing 43 is a casing that houses the fan rotor 41 and the motor 42. The upper part of the fan casing 43 communicates with the upper space part 27 of the main body 2. The lower part of the fan casing 43 communicates with the lower space 28 of the main body 2.
The air flow generated in the centrifugal direction generated by the fan 4 branches up and down from the fan casing 43 and passes through the upper blow-out passage P2 and the lower blow-out passage P3, respectively. 2 is discharged to the outside.

<Description of the lower short circuit prevention unit 51>
The lower short circuit prevention part 51 prevents the short circuit of the air flow between the lower inlet 11b and the lower outlet 25 formed in the vicinity of the lower end of the front panel 10, as shown in FIGS. .
The lower short circuit prevention part 51 is formed integrally with the front panel 10 by synthetic resin or the like.

  The lower short circuit prevention unit 51 includes a protrusion 52 and a front edge 53. The front edge 53 is disposed between the lower inlet 11b and the lower outlet 25 and has a shape protruding forward. The protrusion 52 is at the upper part of the lower outlet 25. Specifically, the protrusion 52 protrudes downward from the upper surface of the inner wall of the lower air outlet 25 so that the air flow B <b> 1 blows out from the lower air outlet 25 forward and downward.

  As shown in FIG. 5, the air flow S <b> 1 sucked into the lower suction port 11 b flows from the front of the front panel 10 and is then sucked into the downward lower suction port 11 b. At this time, the air flow B <b> 1 whose direction is changed by the protrusion 52 is forward and downward from the lower air outlet 25 in a state where the front spaces of the lower suction port 11 b and the lower air outlet 25 are separated by the front edge 53. Blow out. As a result, a short circuit between the lower inlet 11b and the lower outlet 25 can be reliably prevented.

The front edge 53 preferably has a wide vertical width W (see FIG. 5), and the width W is preferably 10 mm or more. If the width W is increased to 10 mm or more, a sufficient distance between the lower inlet 11b and the lower outlet 25 can be secured, and a short circuit can be prevented more reliably. Further, it is preferable that the front edge 53 has a longer length protruding forward than the lower air outlet 25. In this case as well, it is possible to more reliably prevent a short circuit.
Since the lower inlet 11b is arranged at a position hidden by the front panel 10 in a front view, the appearance is improved.

<Configuration of shutter 5>
As shown in FIGS. 3 to 4, the shutter 5 is provided in the lower space 28 of the lower blowing passage P <b> 3. The shutter 5 is a rectangular plate-like member that matches the cross-sectional shape of the lower space 28. The shutter 5 has a fitting cylinder portion 5a that fits with the output shaft 6a so that the shutter 5 can rotate integrally with the output shaft 6a of the step motor 6.

When the shutter 5 is closed, the shutter 5 is maintained in the closed state using the pressure of the air flow generated by the fan 4. Thereby, sealing performance improves.
In the closed state, the shutter 5 is located at a second position A2 (see FIG. 4) in which the shutter 5 is in a vertical posture or a posture in which the shutter 5 falls over. Therefore, the shutter 5 can be maintained in the closed state regardless of whether the wind from the fan 4 is strong or weak. It is also possible to reduce the load applied to the step motor 6 in the closed state.

As shown in FIG. 4, the shutter 5 can move from the open state to the closed state by rotating in the lower blowing passage P <b> 3 on the side far from the fan 4, specifically in the R <b> 2 direction shown in FIG. 4. Is possible. Therefore, when the shutter 5 shifts from the open state to the closed state, the shutter 5 can reliably move to the position where the shutter 5 is maintained in the closed state using the wind pressure generated by the fan 4.
As shown in FIG. 4, in the open state, the shutter 5 is located at a first position A1 (see FIG. 4) where no pressure is applied to the shutter 5 in the direction in which the shutter 5 closes, specifically, in the R2 direction. The first position A1 is inside the recess 30 formed in the inner wall 29 that forms the lower space 28 of the lower blowing passage P3.

<Configuration of Step Motor 6>
The step motor 6 is a motor for rotationally driving the shutter 5. The step motor 6 stops rotational driving so as not to apply torque to the shutter 5 in the closed state.

  Specifically, the indoor unit 1 of the present embodiment is provided with a limit switch 36 (see FIG. 4) for controlling the rotational drive of the step motor 6. Therefore, when the shutter 5 is in the closed state, the limit switch 36 can be operated to stop the rotation drive of the step motor 6. At this time, since the shutter 5 maintains the closed state using the pressure of the air flow in the closed state, there is no fear of air leakage from the periphery of the shutter 5.

<Description of operation>
During heating, the shutter 5 of the lower blowing passage P3 is opened to the first position A1 by the rotational driving force of the step motor 6. At the same time, the movable plate 26 in the blowing passage P2 is also opened by a step motor (not shown). The air flow generated by the upper fan 4 is heated by the indoor heat exchanger 3. The heated air can be blown out from the upper outlet 24 and the lower outlet 25 through the fan 4 and the upper outlet passage P2 and the lower outlet passage P3, respectively. Therefore, the heated air blows out from the indoor unit 1 upward and downward in the indoor space, so that the room can be quickly warmed.

  On the other hand, at the time of cooling, the shutter 5 is closed to the second position A2 where the shutter 5 is in the vertical posture or in the posture of falling on the stopper 37 by the rotational driving force of the step motor 6. On the other hand, the movable plate 26 in the blowing passage P2 is opened. When the shutter 5 is rotated to the second position A2, the rotational drive of the step motor 6 is stopped by the limit switch 36. When the shutter 5 is closed, the shutter 5 is maintained in the closed state using the pressure of the air flow generated by the fan 4. The air flow generated by the fan 4 is cooled by the indoor heat exchanger 3. The cooled air can be blown upward from the upper outlet 24 through the upper blowout passage P2 via the fan 4 to cool the indoor space.

<Features>
(1)
In the indoor unit 1 of the embodiment, since the lower short circuit prevention unit 51 is provided between the lower suction port 11b and the lower air outlet 25, the air flow between the lower air inlet 11b and the lower air outlet 25 is provided. It is possible to prevent short circuits.

Moreover, the capability of an indoor unit can be ensured by preventing the short circuit of the air flow between the lower inlet 11b and the lower blower outlet 25, and also the dew condensation on the surface of the indoor unit 1 can be prevented.
(2)
In the indoor unit 1 of the embodiment, the lower short circuit prevention unit 51 includes a protrusion 52 disposed at the upper part of the lower air outlet 25, and a front edge 53 disposed between the lower air inlet 11b and the lower air outlet 25. And have. Therefore, the air flow B1 whose direction has been changed by the projection 52 is blown forward and downward from the lower air outlet 25 in a state where the front spaces of the lower suction port 11b and the lower air outlet 25 are separated by the front edge 53. . Thereby, it is possible to reliably prevent a short circuit between the lower suction port 11b and the lower air outlet 25.
(3)
In the indoor unit 1 of the embodiment, the lower suction port 11b is arranged at a position hidden by the front panel 10 in a front view, so that the appearance is improved.

<Modification>
(A)
In the above-described embodiment, the indoor unit 1 having the lower short circuit prevention unit 51 has been described as an example. However, the upper short circuit prevention unit 65 shown in FIG. You may prepare.

The upper short circuit prevention part 65 prevents the short circuit of the air flow between the upper inlet 11a formed in the upper end of the front panel 10, and the upper blower outlet 24, as FIG. 6 shows.
The upper short circuit prevention part 65 is integrally formed with the main body 2 by synthetic resin or the like.

The upper short circuit prevention unit 65 has a protrusion 66 and a front edge 67. The front edge 67 is arrange | positioned between the upper inlet 11a and the upper blower outlet 24, and has the shape which protrudes ahead. The protrusion 66 is located below the upper outlet 24. Specifically, the protrusion 66 protrudes upward from the lower surface of the inner wall of the upper outlet 24.
As shown in FIG. 6, the air flow S <b> 2 sucked into the upper suction port 11 a flows from the front or top of the front panel 10, and is then sucked into the upward upper suction port 11 a. At this time, the air flow B <b> 2 whose direction has been changed by the protrusion 66 is forwardly and upwardly from the upper air outlet 24 in a state where the front spaces of the upper air inlet 11 a and the upper air outlet 24 are separated by the front edge 67. Blow out. As a result, a short circuit between the upper inlet 11a and the upper outlet 24 can be reliably prevented.

Moreover, the capability of an indoor unit can be ensured by preventing the short circuit of the air flow between the upper inlet 11a and the upper blower outlet 24, and also the dew condensation on the surface of the indoor unit 1 can be prevented.
(B)
The upper short circuit prevention unit 65 shown in FIG. 6 may have the same structure as the lower short circuit prevention unit 51 (see FIG. 5) of the above embodiment. In this case, the appearance of the indoor unit 1 is a balanced appearance that is symmetrical in the vertical direction, and the appearance is improved.

(C)
As another modification, as shown in FIG. 7, the upper suction port 111 a may be a slit opened on the front surface of the front panel 10. In this case, the upper short circuit prevention unit 60 is configured by a portion between the upper inlet 111 a and the upper outlet 24 in the upper part of the front panel 10. Also in this case, the upper short circuit prevention unit 60 separates the slit-shaped upper suction port 111a from the upper blow-out port 24 and sucks air from the front into the slit-shaped upper suction port 111a, whereby the upper suction port 111a. It is possible to prevent a short circuit of the air flow between the upper air outlet 24 and the upper air outlet 24.

Moreover, the capability of an indoor unit can be ensured by preventing the short circuit of the air flow between the upper inlet 111a and the upper blower outlet 24, and also the dew condensation on the surface of the indoor unit 1 can be prevented.
(D)
As still another modification, the upper short circuit prevention portion may be formed in a fin shape, and in this case as well, it is possible to prevent a short circuit of the air flow between the upper suction port 11a and the upper air outlet 24. is there.

(E)
In the embodiment, the floor-standing indoor unit has been described as an example. However, the present invention is not limited to this, and any indoor unit having upper and lower blowing passages and upper, lower, left and right blowing passages may be used. The present invention can be applied. For example, the present invention can be applied to an indoor unit installed on a ceiling. In addition, when installing an indoor unit, you may install an indoor unit in a suitable direction according to an installation surface (for example, a ceiling, a wall, etc.).

  The present invention can be applied to an indoor unit having upper and lower outlet passages and upper, lower, left and right outlet passages.

The front view of the indoor unit of the air conditioner concerning embodiment of this invention. The side view of the indoor unit of FIG. The longitudinal cross-sectional view of the indoor unit of FIG. FIG. 4 is an enlarged view near the shutter of FIG. 3. The enlarged view of the lower short circuit prevention part of FIG. The enlarged view of the upper short circuit prevention part of the indoor unit concerning the modification of embodiment of this invention. The enlarged view of the upper short circuit prevention part of the indoor unit concerning the other modification of embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Indoor unit 2 Main body 3 Indoor heat exchanger 4 Fan 5 Shutter 6 Step motor 7 Filter 8 Front grill 10 Front panel 24 Upper blower outlet 25 Lower blower outlet 27 Upper space part 28 Lower space part 29 Inner wall 30 Recessed part 51 Lower circuit prevention Part 52 Projection part 53 Front edge 60, 65 Upper short circuit prevention part

Claims (6)

A front side opening (2a) formed on the front side, an upper outlet (24) formed above the front side opening (2a), and a lower outlet formed below the front side opening (2a) A body (2) having an outlet (25);
The upper suction port (11a, 111a), the lower suction port (11b), the first side suction port (11c), and the second side suction port are arranged in front of the front side opening (2a) and in four directions, up, down, left and right. A flat front panel (10) having (11d);
A lower short circuit prevention part (51) for preventing a short circuit of the air flow between the lower suction port (11b) and the lower air outlet (25);
Air conditioner indoor unit (1). The lower short circuit prevention unit (51)
A front edge (53) disposed between the lower inlet (11b) and the lower outlet (25) and protruding forward;
A protrusion (52) at the top of the lower outlet (25),
The indoor unit (1) according to claim 1. The vertical width (W) of the front edge (53) is 10 mm or more.
The indoor unit (1) according to claim 2. The lower suction port (11b) is disposed at a position hidden by the front panel (10) in a front view.
The indoor unit (1) according to claim 1. An upper short circuit prevention unit (60, 65) for preventing a short circuit of an air flow between the upper air outlet (24) and the upper suction port (11a, 111a);
The indoor unit (1) according to claim 1. The upper suction port (111a) is a slit opened on the front surface of the front panel (10),
The upper short circuit prevention part (60) is a part between the upper inlet (111a) and the upper outlet (24) in the upper part of the front panel (10).
The indoor unit (1) according to claim 5.

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