642468 KPO-2503
DESCRIPTION
Title of Invention
HOUSING COVER AND INDOOR UNIT OF AIR CONDITIONING APPARATUS
HAVING THE HOUSING COVER
5
Technical Field [0001]
The present invention relates to a housing cover for a housing of a remote
control receiving section of an indoor unit of an air conditioning apparatus, and to an
10 indoor unit of an air conditioning apparatus having the housing cover.
Background Art [0002]
Conventionally, there have been indoor units of air conditioning apparatuses in
15 which the indoor units include a light transmissive surface provided on a portion of a
casing and inclined diagonally downward from the front and a light receiving section arranged behind the light transmissive surface being opposed to and parallel to the light transmissive surface to improve reception performance of a remote control (see, for example, Patent Literature 1).
20 [0003]
There have also been indoor units of air conditioning apparatuses in which the indoor units have a temperature detection sensor for contactlessly sensing the surface temperature of an object in a room (see, for example, Patent Literature 2).
25 Citation List
Patent Literature [0004]
Patent Literature 1: Japanese Unexamined Patent Application Publication No. 2011-17490
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Patent Literature 2: Japanese Unexamined Patent Application Publication No. 2010-210200
Summary of Invention
5 Technical Problem
[0005]
In Patent Literature 1, the casing is cut out diagonally at a corner on the front
and bottom side thereof to form the light transmissive surface. However, the recent
trend toward square-shaped casings for improved design has made it necessary to
10 improve reception performance of remote controls for square-shaped casings. In
Patent Literature 2, the temperature detection sensor protrudes from a casing,
impairing design.
[0006]
The present invention has been made to overcome the foregoing problems and
15 an object of the present invention is to provide a housing cover of an indoor unit of an
air conditioning apparatus having a structure in which a temperature detection sensor
protrudes from a casing, the housing cover being capable of improving design, and
an indoor unit of an air conditioning apparatus having the housing cover.
20 Solution to Problem
[0007]
A housing cover of an embodiment of the present invention is housing cover of an indoor unit of an air conditioning apparatus, the indoor unit including a casing, and a housing section provided on a bottom portion of the casing, the housing section
25 including a remote control receiving section configured to receive an infrared signal
from a remote control, and a temperature detection sensor configured to contactlessly detect a surface temperature of an object in a room, the housing cover being provided on the housing section and comprising: a light transmissive surface inclined diagonally downward from a front; and a sensor opening port formed behind the light
30 transmissive surface, the light transmissive surface being formed in front of the
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remote control receiving section to be opposed to and be parallel to the remote control receiving section, the sensor opening port being formed such that the temperature detection sensor protrudes from the opening port
5 Advantageous Effects of Invention
[0008]
The housing cover of the embodiment of the present invention is capable of
providing improved design by being used for the indoor unit of the air conditioning
apparatus having a structure in which the temperature detection sensor protrudes
10 from the casing.
Brief Description of Drawings [0009]
[Fig. 1] Fig. 1 is an external perspective view, as viewed from the front, of an
15 indoor unit of an air conditioning apparatus according to an embodiment of the
present invention.
[Fig. 2] Fig. 2 is an enlarged external perspective view of a housing section of Fig. 1 and its surroundings.
[Fig. 3] Fig. 3 is an exploded perspective view of the housing section of Fig. 1
20 and its surroundings.
[Fig. 4] Fig. 4 is a perspective view of the housing section of the indoor unit of the air conditioning apparatus according to the embodiment of the present invention.
[Fig. 5] Fig. 5 is a cross-sectional view taken along line A-A of Fig. 4.
[Fig. 6] Fig. 6 is a perspective view of a housing cover according to the
25 embodiment of the present invention with an openable lid removed.
[Fig. 7] Fig. 7 is an enlarged environmental external perspective view of the housing section of Fig. 2.
[Fig. 8] Figs. 8(a) and 8(b) are side views exemplarily showing an indoor unit of a conventional air conditioning apparatus.
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[Fig. 9] Figs. 9(a) and 9(b) are side views exemplarily showing an indoor unit of a conventional air conditioning apparatus different from that of Figs. 8.
[Fig. 10] Figs. 10(a) and 10(b) are side views exemplarily showing the indoor
unit of the air conditioning apparatus according to the embodiment of the present
5 invention.
[Fig. 11 ] Figs. 11 (a), 11 (b) and 11 (c) are side views exemplarily showing casings of shapes different from that of the casing of the indoor unit of the air conditioning apparatus according to the embodiment of the present invention.
[Fig. 12] Fig. 12 is a side view exemplarily showing the indoor unit of the
10 conventional air conditioning apparatus with a temperature detection sensor
protruded therefrom.
[Fig. 13] Fig. 13 is a side view exemplarily showing the indoor unit of the air conditioning apparatus according to the embodiment of the present invention with a temperature detection sensor protruded therefrom. 15
Description of Embodiment [0010]
An embodiment of the present invention will be described hereinafter with
reference to the drawings. It should be noted that the present invention is not limited
20 to the embodiment described below. Additionally, in the drawings below, the size
relationships of the structural members may be different from actual ones. [0011] Embodiment
Fig. 1 is an external perspective view of an indoor unit 100 of an air
25 conditioning apparatus according to an embodiment of the present invention , as
viewed from the front. Fig. 2 is an enlarged external perspective view of a housing section 20 of Fig. 1 and its surroundings, and Fig. 3 is an exploded perspective view of the housing section 20 of Fig. 1 and its surroundings.
In the description below, directional terms (for example, "top", "bottom", "right",
30 "left", "front", and "back") are used as appropriate for ease of understanding, but they
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are intended to be illustrative only and not to limit the present invention. "Top",
"bottom", "right", "left", "front", and "back" are used for the indoor unit 100 as seen
from the front.
[0012]
5 A configuration of the indoor unit 100 will be described with reference to Figs. 1
to 3.
The indoor unit 100 according to the present embodiment supplies conditioned
air to an air-conditioning target space such as inside a room by utilizing a refrigeration
cycle that circulates refrigerant. It should be noted that the present embodiment is
10 an example where the indoor unit 100 is a wall-mount type to be attached to a wall of
the air-conditioning target space.
[0013]
As shown in Fig. 1, the indoor unit 100 includes a rear case 1 to be attached to
a wall and a square-shaped casing 6 that is attached to the front of the rear case 1.
15 The casing 6 has an air inlet 12 opening on a top portion thereof for mainly drawing
room air therein. The casing 6 has an air outlet 5 opened on a front bottom portion
thereof for supplying the conditioned air to the air-conditioning target space, and the
air outlet 5 is provided with an up-down wind direction louver (not shown) that controls
an outlet direction of air flow.
20 [0014]
As shown in Fig. 2, the casing 6 houses a fan (not shown) that draws in the
room air from the air inlet 12 and blows out the conditioned air from the air outlet 5, a
heat exchanger 2 that is arranged on an air channel between the air inlet 12 and the
air outlet 5 and exchanges heat between the refrigerant and the room air to produce
25 the conditioned air, and an electrical component box 8 that is arranged on a side of
the heat exchanger 2 and contains, for example, a control board (not shown) for
controlling operation of the indoor unit 100.
[0015]
The electrical component box 8 is provided, on a bottom portion thereof, with
30 the housing section 20 that is composed, for example, of a remote control receiving
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section 21 (see, Fig. 5 described below), and as shown in Figs. 1 and 2, the housing
section 20 is arranged on a bottom portion of the casing 6. As shown in Fig. 3, the
air outlet 5 is formed below the heat exchanger 2 and the housing section 20 is
arranged on a side of the air outlet 5. This is to prevent sensors provided in the
5 housing section 20 from being affected by the conditioned air.
[0016]
Air flow inside the indoor unit 100 will now be briefly described. The room airflows into the indoor unit 100 from the air inlet 12 formed on the top portion of the casing 6 by the fan not shown. Dust in the air is removed at this
10 point by a filter not shown. This room air is heated or cooled by the refrigerant
conducting inside the heat exchanger 2 when passing through the heat exchanger 2 and is turned into the conditioned air. The conditioned air is then blown outside the indoor unit 100, that is, into the air-conditioning target space from the air outlet 5 formed on the front bottom portion of the casing 6.
15 [0017]
Fig. 4 is a perspective view of the housing section 20 of the indoor unit 100 of the air conditioning apparatus according to the embodiment of the present invention. Fig. 5 is a cross-sectional view taken along line A-A of Fig. 4. Fig. 6 is a perspective view of a housing cover 30 according to the embodiment of the present invention with
20 an openable lid 35 removed, and Fig. 7 is an enlarged external perspective view of
the housing section 20 of Fig. 2 and its surroundings.
A configuration of the housing section 20 according to the embodiment will now be described.
As shown in Figs. 4 and 5, the housing section 20 is provided with a remote
25 control receiving section 21 that receives an infrared signal from a remote control, a
manual operation switch 22 for manually causing the indoor unit 100 to operate, and a temperature detection sensor 23 that contactlessly detects a surface temperature of an object in a room. The temperature detection sensor 23 detects the surface temperature of a body, for example, with an infrared sensor. However, a camera, or
30 other sensor, may also be used for the temperature detection sensor 22.
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[0018]
The housing section 20 is also provided with the housing cover 30 for housing
the remote control receiving section 21, the manual operation switch 22, and all or a
part of the temperature detection sensor 23.
5 In front of the housing cover 30, a light transmissive surface 31 is formed
through which the infrared signal from the remote control passes. The light transmissive surface 31 is formed inclined at an angle from the front of the housing cover 30 to the back bottom side thereof, that is, it is inclined diagonally downward from the front of the indoor unit 100 and is made of a material that is transparent to
10 the infrared signal.
[0019]
The remote control receiving section 21 is arranged behind the light transmissive surface 31 to be opposed to and be parallel to the light transmissive surface 31. In other words, the light transmissive surface 31 is arranged in front of
15 the remote control receiving section 21 to be opposed to and be parallel to the remote
control receiving section 21 for reasons that will be described below. [0020]
A sensor opening port 32 is formed behind the light transmissive surface 31 and the temperature detection sensor 23 is moved in a top-bottom direction in and out
20 of the sensor opening port 32. The sensor opening port 32 has on a periphery
thereof a flange 33 extending downwardly. This flange 33 has a shape tapering from the top to the bottom and has a bottom diameter that is smaller than a top diameter. [0021]
It should be noted that the temperature detection sensor 23 may protrude
25 downward from the sensor opening port 32 when in use and be housed inside the
housing cover 30 when not in use, or may protrude downward from the sensor opening port 32 at all times. The flange 33 being formed on the periphery of the sensor opening port 32 obscures the protrusion of the temperature detection sensor 23, that is, this configuration provides improved design. In addition, the flange 33
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having a shape tapering from the top to the bottom further obscures the protrusion of the temperature detection sensor 23 and provides improved design even more. [0022]
As shown in Figs. 6 and 7, a switch opening port 34 is formed between the light
5 transmissive surface 31 and the sensor opening port 32, and the manual operation
switch 22 appears facing downward from the switch opening port 34. Also provided is the openable lid 35 that covers the manual operation switch 22. This openable lid 35 is provided on be openable and closable by moving in a left-right direction, and allows the manual operation switch 22 to be pressed when open and covers the
10 manual operation switch 22 when closed. Thus, the manual operation switch 22
need not be a separate body at the bottom portion of the casing 6 and can be arranged as a part of the housing section 20 and can also hide the manual operation switch 22, thereby providing improved design. In addition, keeping the manual operation switch 22 hidden when not in use prevents operational errors.
15 Furthermore, since the manual operation switch 22 appears facing downward when
the openable lid 35 is open, the manual operation switch 22 can be pressed easily from a low position in the case in which the indoor unit 100 is installed in an elevated position. [0023]
20 It should be noted that the openable lid 35 may be openable and closable in a
front-back direction. The positions of the sensor opening port 32 and the switch opening port 34 may be reversed in which case the positions of the manual operation switch 22 and the temperature detection sensor 23 should also be reversed. The sensor opening port 32 and the switch opening port 34 need not be formed directly
25 behind the light transmissive surface 31 and may be formed side-by-side as long as
they are formed behind the light transmissive surface 31. [0024]
Figs. 8(a) and 8(b) are side views exemplarily showing an indoor unit of a conventional air conditioning apparatus. Fig. 8(a) is a side view of the entire indoor
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unit and Fig. 8(b) is an enlarged side view of a remote control receiving section 51 of the indoor unit and its surroundings.
The remote control receiving section 51 of the conventional indoor unit shown
in Figs. 8(a) and 8(b) will now be described.
5 Conventionally, an infrared signal sent from a remote control 53 passes
through a light transmissive surface 52 that is formed on a portion of a casing 50 and is received by the remote control receiving section 51 that is arranged behind the light transmissive surface 52. [0025]
10 When an infrared transmittance distance 54, which is the distance over which
the infrared signal transmitted travels to pass through the light transmissive surface 52, is increased due to a direction of transmission of the remote control 53, it may be difficult for the infrared signal to reach the remote control receiving section 51. That is, receiver sensitivity of the remote control receiving section 51 may decrease and
15 the remote control receiving section 51 may not receive the infrared signal.
[0026]
The light transmissive surface 52 is thus inclined diagonally downward from the front and the remote control receiving section 51 is arranged behind the light transmissive surface 52 to be opposed to and be parallel to the light transmissive
20 surface 31, that is, the remote control receiving section 51 is arranged to be opposed
to diagonally downward toward the front. This prevents the infrared transmittance distance 54 from increasing even when the direction of transmission of the remote control 53 changes and suppresses reduction in the receiver sensitivity of the remote control receiving section 51 due to the direction of transmission of the remote control
25 53. Consequently, reception in a wide area is enabled, that is, the receiver
sensitivity may be increased. The receiver sensitivity may be maximized by having the remote control receiving section 51 inclined at 45 degrees to the horizontal. [0027]
Figs. 9(a) and 9(b) are side views exemplarily showing an indoor unit of a
30 conventional air conditioning apparatus different from that of Figs. 8(a) and 9(b). Fig.
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9(a) is a side view of the entire indoor unit and Fig. 9(b) is an enlarged side view of a remote control receiving section 61 of the indoor unit and its surroundings.
The remote control receiving section 61 of the conventional indoor unit shown
in Figs. 9(a) and 9(b) will now be described.
5 In the case in which the indoor unit has a square-shaped casing 60 for
improved design, as shown in Figs. 9(a) and 9(b), a light transmissive surface 62 is formed on front and bottom surfaces of the casing 60. Although the remote control receiving section 61 needs to be arranged inclined relative to the horizontal to increase receiver sensitivity, the remote control receiving section 61 here cannot be
10 arranged to be opposed to and be parallel to the light transmissive surface 62. Thus,
an infrared transmittance distance 64 may increase depending on a direction of transmission of a remote control 63, causing reduction in receiver sensitivity of the remote control receiving section 61 due to the direction of transmission of the remote control 63.
15 [0028]
Figs. 10(a) and 10(b) are side views exemplarily showing the indoor unit 100 of the air conditioning apparatus according to the embodiment of the present invention. Fig. 10(a) is a side view of the entire indoor unit 100 and Fig. 10(b) is an enlarged environmental view of the remote control receiving section of the indoor unit 100.
20 This embodiment, as shown in Figs. 10(a) and 10(b), has the square-shaped
casing 6 provided on the front bottom portion thereof with the housing section 20 that includes, for example, the remote control receiving section 21. The housing section 20 is provided with the housing cover 30 that has the light transmissive surface 31 inclined diagonally downward from the front, the housing cover 30 housing, for
25 example, the remote control receiving section 21. The remote control receiving
section 21 is arranged to be opposed to and be parallel to the light transmissive surface 31. [0029]
Such a configuration prevents an infrared transmittance distance 42 from
30 increasing even when a direction of transmission of a remote control 41 changes.
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Thus, even when the indoor unit 100 has the square-shaped casing 6, this
configuration can suppress reduction in the receiver sensitivity of the remote control
receiving section 21 due to the direction of transmission of the remote control 41.
[0030]
5 Figs. 11 (a), 11 (b) and 11 (c) are side views exemplarily showing casings of
shapes different from that of the casing 6 of the indoor unit 100 of the air conditioning apparatus according to the embodiment of the present invention.
Although in the present embodiment, the housing section 20 is provided on the bottom portion of the square-shaped casing 6, the housing section 20 can be
10 provided on bottom portions such as of a casing 6a a portion of which is inclined
diagonally downward shown in Fig. 11 (a), a casing 6b a portion of which is rounded shown in Fig. 11 (b), or a triangular casing 6c shown in Fig. 11 (c) to obtain similar effects to those of the square-shaped casing 6. [0031]
15 Fig. 12 is a side view exemplarily showing the indoor unit of the conventional
air conditioning apparatus with a temperature detection sensor 65 protruded therefrom, and Fig. 13 is a side view exemplarily showing the indoor unit 100 of the air conditioning apparatus according to the embodiment of the present invention with the temperature detection sensor 23 protruded therefrom.
20 As shown in Fig. 12, in the conventional case where a housing cover is not
provided on the bottom portion of the casing 60, protrusion of the temperature detection sensor 65 is noticeable when the temperature detection sensor 65 is protruded downward from the casing 60. This configuration impairs design. [0032]
25 By contrast, as shown in Fig. 13, in the case in which the housing cover 30 is
provided on the bottom portion of the casing 6 as in the embodiment, the temperature detection sensor 23 protrudes downward from the sensor opening port 32 of the housing cover 30. As a result, a portion of the temperature detection sensor 23 is hidden by the housing cover 30 when the temperature detection sensor 23 protrudes
30 downward from the casing 6 so that the temperature detection sensor 23 looks
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shorter, that is, the amount of protrusion of the temperature detection sensor 23 is reduced, obscuring the protrusion and thus providing improved design.
Reference Signs List
5 [0033]
1 rear case 2 heat exchanged air outlet 6 casing 6a casing 6b
casing 6c casing 8 electrical component box 12 air inlet 20 housing
section 21 remote control receiving section 22 manual operation switch 23
temperature detection sensor 30 housing cover31 light transmissive surface 32
10 sensor opening port 33 flange 34 switch opening port 35 openable lid 41
remote control 42 infrared transmittance distance 50 casing 51 remote
control receiving section 52 light transmissive surface 53 remote control 54
infrared transmittance distance 60 casing 61 remote control receiving section 62
light transmissive surface63 remote control 64 infrared transmittance
15 distance 65 temperature detection sensor 100 indoor unit
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CLAIMS
[Claim 1]
A housing cover of an indoor unit of an air conditioning apparatus, the indoor
unit including
5 a casing, and
a housing section provided on a bottom portion of the casing, the housing section including
a remote control receiving section configured to receive an infrared
signal from a remote control, and
10 a temperature detection sensor configured to contactlessly detect a
surface temperature of an object in a room,
the housing cover being provided on the housing section and comprising:
a light transmissive surface inclined diagonally downward from a front;
and
15 a sensor opening port formed behind the light transmissive surface,
the light transmissive surface being formed in front of the remote control receiving section to be opposed to and be parallel to the remote control receiving section,
the sensor opening port being formed such that the temperature
20 detection sensor protrudes from the opening port.
[Claim 2]
The housing cover of claim 1, wherein a flange is formed to extend downwardly
on a periphery of the sensor opening port.
[Claim 3]
25 The housing cover of claim 1 or 2, wherein the housing cover is provided on
the housing section of the indoor unit of the air conditioning apparatus, the housing section having a manual operation switch for manually causing the air-conditioning apparatus to operate, the housing cover comprising
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a switch opening port formed behind the light transmissive surface, and formed such that the manual operation switch appears facing downward from the opening port.
[Claim 4]
5 The housing cover of claim 3 provided with an openable lid openably and
closeably covering the manual operation switch. [Claim 5]
An indoor unit of an air conditioning apparatus, the indoor unit comprising:
the casing;
10 the housing section provided on the bottom portion of the casing and including
the remote control receiving section for receiving an infrared signal from a remote control and the temperature detection sensor configured to contactlessly detect a surface temperature of an object in a room; and
the housing cover provided on the housing section,
15 the housing cover, the casing, and the housing section being of any one of
claims 1 to 4. [Claim 6]
The indoor unit of the air conditioning apparatus of claim 5, comprising:
the housing section having the manual operation switch for manually causing
20 the air-conditioning apparatus to operate; and
the housing cover of claim 3 or 4 provided on the housing section.
14