JP2014215012A - Decorative laminate panel and air conditioner indoor unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To propose an opening/closing structure capable of easily rotating an air intake grill having an extension formed from a panel main body.SOLUTION: A decorative laminate panel (40) comprises a rotation mechanism (80) that includes coupling members (90, 100, 130) each coupling an inner circumferential surface of an intake flow path (42) in a panel main body (41) with a back surface of a grill main body (61), and that is configured to displace the coupling members (90, 100, and 130) downward so that an intake grill (60) rotates at least 90 degrees with respect to the panel main body (41).

Description

    The present invention relates to a decorative panel of an air conditioner and an indoor unit of an air conditioner including the decorative panel, and particularly relates to a suction grill opening / closing structure.

    Conventionally, an air conditioner that performs indoor cooling or heating is known. For example, the air conditioner disclosed in Patent Document 1 includes an indoor unit provided on a ceiling. The indoor unit includes an indoor fan, an indoor heat exchanger, a casing that houses a drain pan, and a decorative panel that is attached to a lower portion of the casing.

    A suction grille having a plurality of suction openings is provided at the center of the decorative panel. The suction grill is provided so as to be rotatable with respect to the main body of the decorative panel. Specifically, in the decorative panel of Patent Document 1, a hinge mechanism is provided on the inner edge of the decorative panel body, and a suction grille is held by the hinge mechanism (see FIG. 1 of Patent Document 1). In the indoor unit, the interior of the decorative panel is opened by rotating the suction grille with respect to the decorative panel body. Thereby, the user can perform maintenance inside the decorative panel.

JP 2011-133190 A

    By the way, in the suction grill of the decorative panel as described above, it is conceivable to form an extended portion that extends from the entire circumference toward the outlet. Specifically, in the suction grille, an extension portion is formed that extends outward from the entire circumference of the grill body facing the suction grille so as to overlap the lower surface of the panel body. Thereby, since a closed loop-like gap is not formed between the outer periphery of the suction grille and the panel body, the boundary (joint) between the suction grille and the panel body becomes inconspicuous, and the appearance of the decorative panel can be improved.

    On the other hand, in the suction grill having the extension portion formed as described above, if the structure in which the suction grill is rotated with respect to the panel main body is applied, the extension portion of the suction grille and the panel main body portion interfere with each other, making the suction grill easy. There was a problem that could not be opened and closed.

    This invention is made | formed in view of this point, The objective is to propose the opening / closing structure which can rotate the suction grille in which the extension part was formed easily from a panel main body.

    A first invention is directed to a decorative panel of an air conditioner provided at a lower portion of an indoor unit main body (21) provided on a ceiling, a panel main body (41) in which a suction flow path (42) is formed, and the panel A suction grill (60) attached to the suction flow path (42) of the main body (41), and the suction grill (60) includes the grill main body (61) facing the suction flow path (42) and the grill An extension portion (65) extending outward from the entire circumference of the main body (61) so as to overlap the lower surface of the panel main body (41), and the suction passage (42) of the panel main body (41) A connecting member (90, 100, 130) for connecting the inner peripheral surface and the rear surface of the grill body (61), and the suction grill (60) is rotated at least 90 degrees relative to the panel body (41); A pivot mechanism (80) configured to displace the connecting member (90, 100, 130) downward is provided. And wherein the door.

    The suction grill (60) of the first invention is formed with an extension (65) extending outward from the entire circumference of the grill body (61) so as to overlap the lower surface of the panel body (41). As a result, the boundary (joint) between the extension part (65) and the grill body (61) becomes inconspicuous, and the appearance of the decorative panel (40) is improved.

    Further, in the decorative panel (40), the inner peripheral surface of the suction flow path (42) of the panel body (41) and the back surface of the grill body (61) are coupled by the coupling members (90, 100, 130). Here, in the present invention, the rotation mechanism (80) displaces the connecting member (90, 100, 130) downward, so that the suction grille (60) can rotate at least 90 degrees or more with respect to the panel body (41). It becomes. That is, in the present invention, the rotation mechanism (80) displaces the connecting member (90, 100, 130) downward, so that the extension (65) of the suction grill (60) does not interfere with the panel main body (41), and the suction grill (60) can be rotated.

    In a second aspect based on the first aspect, the rotating mechanism (80) is configured such that the outer end of the extending portion (65) of the rotating suction grill (60) is connected to the panel main body (41). The connecting member (90, 100, 130) is configured to be displaced so as to be positioned on the lower side.

    In the turning mechanism (80) of the second invention, the outer end of the suction grille (60) in the turning state is located on the lower side of the panel body (41) as the connecting member (90, 100, 130) is displaced downward. Located in. Thus, when the suction grill (60) is rotated, the outer end of the suction grill (60) does not interfere with the panel body (41).

    In a third aspect based on the first aspect, the rotating mechanism (80) is provided on the inner peripheral surface of the suction flow path (42), and holds the connecting members (90, 100) slidably in the vertical direction. The slide member (81, 110) is provided.

    In the third invention, the slide member (81, 110) is provided on the inner peripheral surface of the suction flow path (42), and the slide member (81, 110) holds the connecting member (90, 100) slidably in the vertical direction. As a result, the suction grille (60) can be displaced downward together with the connecting members (90, 100).

In a fourth aspect based on the third aspect, the lower end portion of the slide member (81, 110) is provided with a pivot portion (88) for rotatably holding the connecting member (90, 100). In the invention, the connecting member (90) guided downward along the slide member (81) rotates around the pivot (88). As a result, the suction grill (60) rotates relative to the panel body (41) without the extension (65) of the suction grill (60) interfering with the panel body (41).

    According to a fifth invention, in any one of the first to fourth inventions, a rotation range of the connecting member (90) is provided at a lower inner edge portion of the suction channel (42) of the panel body (41). A notch (72) is formed so as to enlarge the width of the area.

    In the fifth invention, the notch (72) is formed in the lower inner edge of the suction channel (42) of the panel body (41). If the notch (72) is not formed in the lower inner edge of the suction passage (42) of the panel body (41), the lower inner edge and the connecting member (90) interfere with each other, and the panel body The rotation range of (41) is limited. On the other hand, in the present invention, since the connecting member (90) rotates to the inside of the notch (72) by forming the notch (72), the rotation range of the connecting member (90) is reduced. Become wider.

    In a sixth aspect based on the second aspect, the connecting member (100) is made of a flexible material.

    In 6th invention, a connection member (100) is comprised with a flexible material. For this reason, the suction grille (60) can be rotated with respect to the panel body (41) by bending a predetermined portion of the connecting member (100).

    According to a seventh invention, in the first invention, the connecting member (130) has one end rotatably connected to the inner peripheral surface of the suction flow path (42), and one end of the connecting member (130). Pivots the other end of the second link part (132) connected to the back surface of the panel body (41) and the first link part (131) and the second link part (132). It is characterized by comprising a link mechanism (130) having a link connecting part (133) that is freely connected.

    In the connection member (130) of the seventh invention, the grill main body (61) is displaced downward by bringing the first link portion (131) and the second link portion (132) close to a vertical state. As a result, a space in which the suction grille (60) can rotate with respect to the panel body (41) can be secured. Further, in the link mechanism (130), the suction grill (60) can be rotated within a predetermined range with respect to the panel body (41) by rotating the link portions (131, 132).

The eighth invention is directed to an indoor unit of an air conditioner including an indoor unit main body (21) provided on a ceiling and a decorative panel (40) provided at a lower portion of the indoor unit main body (21). The decorative panel (40) is formed of any one of the decorative panels according to claims 1 to 7.

    In the eighth invention, in the indoor unit, the suction grill (60) can be rotated without the extension portion (65) of the suction grill (60) interfering with the panel body (41).

    According to the present invention, the extension (65) overlapping the panel main body (41) is formed on the outer periphery of the suction grill (60). For this reason, the boundary (joint) between the suction grille (60) and the panel body (41) becomes inconspicuous, and the beauty of the decorative panel (40) can be improved.

    According to the present invention, the connecting member (90, 100, 130) that connects the panel main body (41) and the grill main body (61) allows the suction grill (60) to rotate more than 90 degrees with respect to the panel main body (41). Thus, the suction grill (60) can be easily moved to the open position without interference between the extension (65) of the suction grill (60) and the panel body (41).

    According to the third aspect of the invention, the suction grill (60) between the panel body (41) and the suction grill (60) is slid downward along the slide member (81, 110). A space for rotation can be easily secured. According to the fourth aspect of the invention, the suction grill (60) can be easily rotated with respect to the panel body (41) by rotating one end of the connecting member (90) about the pivot (88). Can be moved.

    According to the fifth aspect, the rotation angle of the suction grill (60) can be made larger than 90 degrees by forming the notch (72) in the lower inner edge of the suction flow path (42). As a result, when the suction grill (60) is opened, it is possible to prevent an increase in stress at the contact portion between the connecting member (90) and the panel body (41), and it is possible to prevent the contact portion from being damaged.

    According to the sixth invention, the connecting member (100) is made of a flexible material, and thus the connecting member (100) is bent without providing a rotation shaft for rotating the connecting member (100). The suction grill (60) can be rotated.

    According to the seventh invention, by using the link mechanism (130), it is possible to easily realize a structure in which the suction grill (60) can be displaced downward and rotated with respect to the panel body (41).

FIG. 1 is a schematic piping system diagram showing a configuration of a refrigerant circuit of an air conditioner according to an embodiment. FIG. 2 is a perspective view illustrating an appearance of the indoor unit according to the embodiment. FIG. 3 is a longitudinal sectional view showing the internal structure of the indoor unit according to the embodiment. FIG. 4 is a plan view of the interior of the indoor unit according to the embodiment as viewed from the top plate side. FIG. 5 is a longitudinal sectional view showing the internal structure of the decorative panel according to the embodiment. FIG. 6 is a front view of the rotation mechanism according to the embodiment. FIG. 7 is a cross-sectional view taken along the line XX of FIG. 6 and shows a state where the suction grill is attached to the panel body (a state where the rotation angle of the suction grill is 0 degree). FIG. 8 is a cross-sectional view taken along the line XX of FIG. 6 and shows a state where the rotation angle of the suction grill is about 45 degrees. FIG. 9 is a cross-sectional view taken along the line XX of FIG. 6 and shows a state where the rotation angle of the suction grill is about 90 degrees. FIG. 10 is a cross-sectional view taken along the line XX of FIG. 6 and shows a state where the rotation angle of the suction grill is about 145 degrees. FIG. 11 is a view corresponding to FIG. 12 is a view corresponding to FIG. 10 of the turning mechanism according to the first modification. FIG. 13 is a front view of a connecting plate according to the first modification. FIG. 14 is a view corresponding to FIG. 8 of the turning mechanism according to the second modification. FIG. 15 is a perspective view of a link mechanism according to the second modification.

    Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The following embodiments are essentially preferable examples, and are not intended to limit the scope of the present invention, its application, or its use.

    An embodiment of the present invention is an air conditioner (10) that performs indoor cooling and heating. As shown in FIG. 1, the air conditioner (10) includes an outdoor unit (11) installed outdoors and an indoor unit (20) installed indoors. The outdoor unit (11) and the indoor unit (20) are connected to each other by two connecting pipes (2, 3). Thereby, a refrigerant circuit (C) is comprised in an air conditioner (10). In the refrigerant circuit (C), a vapor compression refrigeration cycle is performed by circulating the filled refrigerant.

<Configuration of refrigerant circuit>
The outdoor unit (11) is provided with a compressor (12), an outdoor heat exchanger (13), an outdoor expansion valve (14), and a four-way switching valve (15). The compressor (12) compresses the low-pressure refrigerant and discharges the compressed high-pressure refrigerant. In the compressor (12), a compression mechanism such as a scroll type or a rotary type is driven by the compressor motor (12a). The rotation speed (operation frequency) of the compressor motor (12a) is variable by an inverter device.

    The outdoor heat exchanger (13) is a fin-and-tube heat exchanger. An outdoor fan (16) is installed in the vicinity of the outdoor heat exchanger (13). In the outdoor heat exchanger (13), the air conveyed by the outdoor fan (16) and the refrigerant exchange heat. The outdoor fan (16) is constituted by a propeller fan driven by an outdoor fan motor (16a). The outdoor fan motor (16a) is configured such that its rotational speed is variable by an inverter device.

    The outdoor expansion valve (14) is an electronic expansion valve having a variable opening. The four-way switching valve (15) has first to fourth ports. In the four-way switching valve (15), the first port is connected to the discharge side of the compressor (12), the second port is connected to the suction side of the compressor (12), and the third port is the outdoor heat exchanger (13 ) And the fourth port is connected to the gas-side stop valve (5). The four-way selector valve (15) switches between a first state (state indicated by a solid line in FIG. 1) and a second state (state indicated by a broken line in FIG. 1). In the four-way selector valve (15) in the first state, the first port communicates with the third port, and the second port communicates with the fourth port. In the four-way selector valve (15) in the second state, the first port communicates with the fourth port and the second port communicates with the third port.

    The two connecting pipes are composed of a liquid connecting pipe (2) and a gas connecting pipe (3)). One end of the liquid communication pipe (2) is connected to the liquid side closing valve (4), and the other end is connected to the liquid side end of the indoor heat exchanger (32). One end of the gas communication pipe (3) is connected to the gas side shut-off valve (5), and the other end is connected to the gas side end of the indoor heat exchanger (32).

    The indoor unit (20) is provided with an indoor heat exchanger (32) and an indoor expansion valve (39). The indoor heat exchanger (32) is a fin-and-tube heat exchanger. An indoor fan (27) is installed in the vicinity of the indoor heat exchanger (32). The indoor fan (27) is a centrifugal blower driven by an indoor fan motor (27a). The indoor fan motor (27a) is configured to have a variable rotational speed by an inverter device. The indoor expansion valve (39) is connected to the liquid end side of the indoor heat exchanger (32) in the refrigerant circuit (C). The indoor expansion valve (39) is an electronic expansion valve having a variable opening.

<Detailed structure of indoor unit>
The detailed structure of the indoor unit (20) of the air conditioner (10) will be described with reference to FIGS. The indoor unit (20) of the present embodiment is configured to be embedded in the ceiling. That is, as shown in FIG. 3, the indoor unit (20) is fitted and attached to the opening (O) of the ceiling (U) facing the indoor space (R). The indoor unit (20) has an indoor unit main body (21) and a decorative panel (40) attached to the lower part of the indoor unit main body (21).

-Indoor unit body-
As shown in FIGS. 2 and 3, the indoor unit body (21) has a box-shaped casing (22) having a substantially rectangular parallelepiped shape. The casing (22) has a substantially square top plate (23) in plan view and four substantially rectangular side plates (24) extending downward from the peripheral edge of the top plate (23), and the bottom surface An opening is formed in the. As shown in FIG. 2, a vertically long box-shaped electrical component box (25) is attached to one side plate (24a) of the four side plates (24). In addition, a liquid side connection pipe (6) and a gas side connection pipe (7) connected to the indoor heat exchanger (32) pass through the side plate (24a). A liquid communication pipe (2) is connected to the liquid side connection pipe (6), and a gas communication pipe (3) is connected to the gas side connection pipe (7).

    An indoor fan (27), a bell mouth (31), an indoor heat exchanger (32), and a drain pan (36) are accommodated in the casing (22).

    As shown in FIG.3 and FIG.4, the indoor fan (27) is arrange | positioned in the inner center of the casing (22). The indoor fan (27) includes an indoor fan motor (27a), a hub (28), a shroud (29), and an impeller (30). The indoor fan motor (27a) is supported by the top plate (23) of the casing (22). The hub (28) is fixed to the lower end of the drive shaft (27b) that is rotationally driven by the indoor fan motor (27a). The hub (28) includes an annular base (28a) formed radially outward of the indoor fan motor (27a), and a central bulge (28b) bulging downward from the inner peripheral edge of the base (28a). ).

    The shroud (29) is disposed below the base (28a) so as to face the base (28a) of the hub (28). A circular central suction port (29a) communicating with the inside of the bell mouth (31) is formed in the lower portion of the shroud (29). The impeller (30) is disposed in a blade accommodating space (29b) between the hub (28) and the shroud (29). The impeller (30) is composed of a plurality of turbo blades (30a) arranged so as to be along the rotation direction of the drive shaft (27b).

    The bell mouth (31) is disposed below the indoor fan (27). The bell mouth (31) has a circular opening at the upper end and the lower end, respectively, and is formed in a cylindrical shape whose opening area increases toward the decorative panel (40). The internal space (31a) of the bell mouth (31) communicates with the blade housing space (29b) of the indoor fan (27).

    As shown in FIG. 4, the indoor heat exchanger (32) has a refrigerant pipe (heat transfer pipe) bent to surround the indoor fan (27). The indoor heat exchanger (32) is installed on the upper surface of the drain pan (36) so as to stand up. The air blown to the side from the indoor fan (27) passes through the indoor heat exchanger (32). The indoor heat exchanger (32) constitutes an evaporator that cools the air during the cooling operation, and constitutes a condenser (heat radiator) that heats the air during the heating operation.

    As shown in FIG.3 and FIG.4, the drain pan (36) is arrange | positioned under the indoor heat exchanger (32). The drain pan (36) has an inner wall part (36a), an outer wall part (36b), and a water receiving part (36c). The inner wall portion (36a) is formed along the inner peripheral edge portion of the indoor heat exchanger (32), and is configured by an annular vertical wall standing upward. The outer wall portion (36b) is formed along the four side plates (24) of the casing (22), and is configured by an annular vertical wall that stands upward. The water receiving part (36c) is formed between the inner wall part (36a) and the outer wall part (36b), and is constituted by a groove for collecting condensed water generated in the indoor heat exchanger (32). Moreover, four main body side blowing channels (37) each extending along the four side plates (24) are formed through the top and bottom of the outer wall (36b) of the drain pan (36). Each main body side blowing channel (37) communicates the space on the downstream side of the indoor heat exchanger (32) with the four panel side blowing channels (43) of the decorative panel (40).

    The indoor unit main body (21) is provided with a main body side heat insulating member (38). The main body side heat insulating member (38) is formed in a substantially box shape whose lower side is opened. The main body side heat insulating member (38) is formed along the top plate side heat insulating portion (38a) formed along the top plate (23) of the casing (22) and the side plate (24) of the casing (22). And a side plate side heat insulating portion (38b). A circular through hole (38c) through which the upper end of the indoor fan motor (27a) passes is formed at the center of the top plate heat insulating part (38a). The side plate side heat insulating part (38b) is installed in the outer part of the main body side outlet channel (37) in the outer wall part (36b) of the drain pan (36).

-Cosmetic panel-
The decorative panel (40) is attached to the lower surface of the casing (22). The decorative panel (40) includes a panel body (41) and a suction grill (60).

    The panel body (41) is formed in a rectangular frame shape in plan view. The panel body (41) is formed with one panel side suction channel (42) and four panel side outlet channels (43).

    As shown in FIG. 3, the panel side suction flow path (42) is formed in the center part of the panel main body (41). A suction port (42a) facing the indoor space (R) is formed at the lower end of the panel-side suction flow path (42). The panel-side suction channel (42) allows the suction port (42a) to communicate with the internal space (31a) of the bell mouth (31). A frame-like inner panel member (44) is fitted in the panel-side suction flow path (42). In addition, a dust collection filter (45) that captures dust in the air sucked from the suction port (42a) is provided inside the panel-side suction flow path (42).

    Each panel side blowing channel (43) is formed outside the panel side suction channel (42) so as to surround the periphery of the panel side suction channel (42). Each panel side blowing channel (43) extends along four sides of each panel side suction channel (42). Air outlets (43a) facing the indoor space (R) are formed at the lower ends of the panel-side outlet channels (43), respectively. Each panel side blowing flow path (43) makes the corresponding blower outlet (43a) and the corresponding main body side blowing flow path (37) communicate.

    As shown in FIG. 3, an inner heat insulating portion (46) is provided on the inner side of the panel side outlet channel (43) (the central portion side of the panel main body (41)). Moreover, the outer side heat insulation part (47) is provided in the outer side (outer edge part side of a panel main body (41)) of the panel side blowing flow path (43). An inner seal member (48) interposed between the panel main body (41) and the drain pan (36) is provided on the upper surfaces of the inner heat insulating portion (46) and the outer heat insulating portion (47).

    The outer panel member (49) is fitted into the inner edge of the outer heat insulating portion (47). The outer panel member (49) has an inner wall portion (50) that constitutes an inner wall surface of the main body side outlet channel (37), and a lower end portion of the inner wall portion (50) toward an outer edge portion of the panel main body (41). And an extending portion (51) extending. The extension part (51) is formed in a rectangular frame shape along the lower surface of the ceiling (U). An outer seal member (52) interposed between the extension part (51) and the ceiling (U) is provided on the upper surface of the extension part (51).

    Each body-side outlet channel (37) is provided with a wind direction adjusting blade (53) for adjusting the wind direction of the air (blowing air) flowing through the body-side outlet channel (37). The wind direction adjusting blade (53) is formed across both ends in the longitudinal direction of the main body outlet channel (37) along the side plate (24) of the casing (22). The wind direction adjusting blade (53) is configured to be rotatable about an axis of rotation (53a) extending in the longitudinal direction.

    The suction grill (60) is attached to the lower end (that is, the suction port (42a)) of the panel side suction flow path (42). The suction grill (60) includes a grill main body (61) facing the suction inlet (42a) and a rectangular extension (65 extending outward from the grill main body (61) toward each outlet (43a). ). The grill body (61) is formed in a substantially square shape in plan view. A large number of suction holes (63) are arranged in a lattice pattern in the grill body (61). These suction holes (63) are constituted by through holes that penetrate the grill body (61) in the thickness direction (vertical direction). The suction hole (63) is formed in a square shape in the opening cross section.

    The extension part (65) of the suction grill (60) is formed in a rectangular frame shape extending outward from the grill body (61) toward the outlet (43a). The extension part (65) overlaps with the panel body (41) in the vertical direction so as to overlap the lower surface of the inner heat insulating part (46). Moreover, the side edge part of the extension part (65) has shifted to the suction inlet (42a) rather than the inner edge part of the blower outlet (43a).

-Driving action-
Next, the operation of the air conditioner (10) according to this embodiment will be described. In the air conditioner (10), the cooling operation and the heating operation are switched.

<Cooling operation>
In the cooling operation, the four-way switching valve (15) shown in FIG. 1 is in a state indicated by a solid line, and the compressor (12), the indoor fan (27), and the outdoor fan (16) are in an operating state. Thereby, in the refrigerant circuit (C), a refrigeration cycle is performed in which the outdoor heat exchanger (13) serves as a condenser and the indoor heat exchanger (32) serves as an evaporator.

    Specifically, the high-pressure refrigerant compressed by the compressor (12) flows through the outdoor heat exchanger (13) and exchanges heat with outdoor air. In the outdoor heat exchanger (13), the high-pressure refrigerant dissipates heat to the outdoor air and condenses. The refrigerant condensed in the outdoor heat exchanger (13) is sent to the indoor unit (20). In the indoor unit (20), the refrigerant flows through the indoor heat exchanger (32) after being decompressed by the indoor expansion valve (39).

    In the indoor unit (20), room air flows upward in order through the suction port (42a), the panel-side suction channel (42), and the interior space (31a) of the bell mouth (31), and accommodates the blades of the indoor fan (27). It is sucked into the space (29b). The air in the blade accommodating space (29b) is conveyed by the impeller (30) and blown out radially between the hub (28) and the shroud (29). This air passes through the indoor heat exchanger (32) and exchanges heat with the refrigerant. In the indoor heat exchanger (32), the refrigerant absorbs heat from the indoor air and evaporates, and the air is cooled by the refrigerant.

    The air cooled by the indoor heat exchanger (32) is diverted to each main body side outlet passage (37), then flows downward through the panel side outlet passage (43), and passes through the outlet (43a) to the indoor space ( To R). The refrigerant evaporated in the indoor heat exchanger (32) is sucked into the compressor (12) and compressed again.

<Heating operation>
In the heating operation, the four-way switching valve (15) shown in FIG. 1 is in a state indicated by a broken line, and the compressor (12), the indoor fan (27), and the outdoor fan (16) are in an operating state. Thereby, in the refrigerant circuit (C), a refrigeration cycle is performed in which the indoor heat exchanger (32) serves as a condenser and the outdoor heat exchanger (13) serves as an evaporator.

    Specifically, the high-pressure refrigerant compressed by the compressor (12) flows through the indoor heat exchanger (32) of the indoor unit (20). In the indoor unit (20), room air flows upward in order through the suction port (42a), the panel-side suction channel (42), and the interior space (31a) of the bell mouth (31), and accommodates the blades of the indoor fan (27). It is sucked into the space (29b). The air in the blade accommodating space (29b) is conveyed by the impeller (30) and blown out radially between the hub (28) and the shroud (29). This air passes through the indoor heat exchanger (32) and exchanges heat with the refrigerant. In the indoor heat exchanger (32), the refrigerant dissipates heat to the indoor air and condenses, and the air is heated by the refrigerant.

    The air heated by the indoor heat exchanger (32) is diverted to each main body-side outlet passage (37), then flows downward through the panel-side outlet passage (43), and passes through the outlet (43a) to the indoor space ( To R). The refrigerant condensed in the indoor heat exchanger (32) is depressurized by the outdoor expansion valve (14) and then flows through the outdoor heat exchanger (13). In the outdoor heat exchanger (13), the refrigerant absorbs heat from the outdoor air and evaporates. The refrigerant evaporated in the outdoor heat exchanger (13) is sucked into the compressor (12) and compressed again.

<Rotation mechanism and surrounding structure>
Next, the rotation mechanism according to the present embodiment and the peripheral structure thereof will be described in detail with reference to FIGS.

    As shown in FIG. 5, the decorative panel (40) of the present embodiment is provided with a rotation mechanism (80) for rotating the suction grille (60) with respect to the panel body (41). The decorative panel (40) of the present embodiment is provided with two rotating mechanisms (80, 80). However, one or three or more rotating mechanisms (80) may be provided. The rotation mechanism (80) is configured such that the suction grill (60) rotates at least 90 degrees (about 145 degrees in this embodiment) with respect to the panel body (41).

    As shown in FIGS. 5 to 7, the rotating mechanism (80) includes a slide member (81), a hook member (90) held by the slide member (81), and a lower side of the hook member (90). A pair of grill side pivots (95) with which the shaft (92) engages.

    The slide member (81) is integrally formed on the inner wall portion (44a) near the center of the panel body (41) in the inner panel member (44) described above. That is, the slide member (81) is provided on the inner peripheral surface facing the panel-side suction channel (42) (suction channel) of the panel body (41). The inner wall (44a) of the inner panel member (44) is formed in a rectangular shape extending in the horizontal direction along the outer peripheral surface of the panel-side suction flow path (42). The two slide members (81) are disposed adjacent to the left and right at a position near the middle in the longitudinal direction of the inner wall portion (44a) (see FIG. 5). The slide member (81) extends in the vertical direction from the lower end (air inflow end) to the upper end (air outflow end) of the panel side suction flow path (42).

    As shown in FIGS. 6 and 7, the slide member (81) has a front side wall portion (84), a pair of upper side wall portions (85), and a lower side wall portion (86). The front side wall portion (84) is erected on the front side (left side in FIG. 7) of the inner panel member (44) so as to be separated from the inner panel member (44). The front side wall portion (84) is formed in a U-shape or a V-shape whose upper side is open when viewed from the front. That is, in the front side wall portion (84), a vertically long intermediate groove (84a) is formed downward from the intermediate portion in the width direction at the upper end thereof. Thereby, in the front side wall part (84), a pair of vertical wall parts (84b) are formed outward in the width direction of the intermediate groove (84a).

    The pair of upper side wall portions (85) extend in the horizontal direction across the upper end portion of the inner panel member (44) and the upper end portions of the pair of vertical wall portions (84b). On the upper part of the inner wall part (44a) of the inner panel member (44), an upper rib (71) continuous with the upper wall part (85) is formed (see FIG. 6). The upper rib (71) extends horizontally along the inner peripheral surface of the panel side suction flow path (42), and protrudes toward the center side of the panel side suction flow path (42).

    The lower side wall part (86) extends in the horizontal direction across the lower end part of the inner panel member (44) and the lower end part of the front side wall part (84). A bent portion (87) bent in an arc shape is formed between the lower side wall portion (86) and the front side wall portion (84) (see FIG. 7). Thereby, the panel side pivot part (88) which has a circular arc surface is formed inside a bending part (87). An upper shaft portion (91) formed at the upper end of the hook member (90) can be rotatably held on the panel side pivot portion (88). In each slide member (81), a guide space (89) is formed between the front side wall portion (84), the upper side wall portion (85), the lower side wall portion (86), and the inner panel member (44). In the guide space (89), the upper shaft portion (91) of the hook member (90) is slidably held up and down.

    As shown in FIG. 6, the hook member (90) is formed by bending a metal bar-like member. The hook member (90) is a connecting member that connects the inner peripheral surface (that is, the inner panel member (44)) of the panel-side suction channel (42) in the panel main body (41) and the rear surface of the grill main body (61). Configure. Each hook member (90) is continuous with the above-described upper shaft portion (91), the pair of lower shaft portions (92), the upper shaft portion (91), and the pair of lower shaft portions (92), respectively. Each has a pair of intermediate connecting portions (93).

    The upper shaft portion (91) is formed at the upper end portion of the hook member (90). The upper shaft portion (91) is formed in a bar shape extending in the horizontal direction, and is accommodated in the slide member (81) (that is, the guide space (89)). Both end portions of the upper shaft portion (91) extend to the outside in the width direction of the slide member (81) and protrude to the outside of the slide member (81). The upper shaft portion (91) is configured to be movable in the vertical direction along the front wall portion (84) of the slide member (81) or the inner wall portion (44a) of the inner panel member (44).

    The pair of lower shaft portions (92) is formed at the lower end portion of the hook member (90). The lower shaft portion (92) is formed in a bar shape extending in the horizontal direction, and is rotatably held inside each grill side pivot portion (95) of the suction grill (60).

    The pair of intermediate coupling portions (93) are formed continuously between the upper shaft portion (91) and the pair of lower shaft portions (92). The intermediate coupling part (93) is located outside in the width direction of the slide member (81), and extends in a substantially vertical direction across the upper shaft part (91) and the lower shaft part (92). More specifically, the intermediate coupling portion (93) is inclined slightly obliquely with respect to the vertical direction so as to be separated from the side surface of the slide member (81) as it goes downward.

    As shown in FIGS. 6 and 7, a pair of grill side pivot portions (95) are formed on the back surface (upper surface) of the grill body (61) of the suction grill (60). The grille side pivot (95) is not located at the overlapping portion of the panel body (41) and the extension (65), but is formed at a position facing the panel side suction flow path (42). In a state where the suction grill (60) is attached to the panel body (41), the grille side pivot (95) and the inner panel member (44) are in a close positional relationship (see FIG. 7).

    The grille side pivot part (95) has a cylindrical pivot part body (96) and a plurality (three in this embodiment) of ribs (97) formed on the outer peripheral surface of the pivot part body (96). doing. The pivot support body (96) is formed with a shaft insertion hole (98) through which the lower shaft portion (92) of the hook member (90) is inserted. The shaft insertion hole (98) is constituted by a horizontally long opening wider than the diameter of the lower shaft portion (92). In the grille side pivot (95), the lower grille (92) of the hook member (90) is inserted into the shaft insertion hole (98), so that the suction grille (60) rotates to the hook member (90). It will be supported freely. Further, in the grill side pivot support portion (95), the lower shaft portion (92) is slidably held in the longitudinal direction of the shaft insertion hole (98).

    As shown in FIG.6 and FIG.7, a pair of notch part (72) is formed in the lower side inner edge part of the panel side suction flow path (42) in the panel main body (41) of this embodiment. Specifically, these notches (72) are formed on the outer side in the width direction of the slide member (81) in the lower end of the inner panel member (44). That is, the cutout portion (72) is formed in a portion of the inner panel member (44) that overlaps with the intermediate connection portion (93) of the hook member (90) in the vertical direction. In addition, you may make it form a notch part (72) over the whole region of the lower end part of an inner side panel member (44).

    The notch (72) forms a tapered inclined surface (72a) that extends outward in the panel body (41) as it goes downward. As a result, a space in which the hook member (90) is allowed to enter when the suction grille (60) is rotated (details will be described later) is formed inside the notch (72). That is, the notch (72) is configured to expand the rotation range of the suction grill (60) when the suction grill (60) is opened.

-Action of suction grill extension and rotation mechanism-
As described above, the decorative panel (40) according to the embodiment is outward from the entire periphery of the panel body (41) facing the panel-side suction flow path (42) so as to overlap the lower surface of the panel body (41). An extension (65) is provided to extend. Thereby, the boundary (joint) of a suction grill (60) and a panel main body (41) becomes inconspicuous, and the beauty | look of a decorative panel (40) can be improved.

    More specifically, the extension (65) is not formed on the suction grill (60), and the suction grill (60) is fitted in the panel-side suction passage (42) of the panel body (41), for example. In this case, a closed loop-shaped gap is formed between the outer periphery of the suction grill (60) and the inner periphery of the panel body (41). As a result, when the user looks at the decorative panel (40) from the indoor space (R), the boundary between the suction grille (60) and the panel body (41) becomes conspicuous, and the beauty of the decorative panel (40) is improved. It will be damaged.

    On the other hand, in this embodiment, since the extension part (65) is formed in the suction grill (60) and this extension part (65) is overlapped with the lower surface of the panel body (41), the suction grill (60) No gap is formed between the outer periphery of the panel body (that is, the outer periphery of the extension portion (65)) and the panel body (41). Therefore, even when the user views the decorative panel (40) from the indoor space (R), the boundary between the suction grill (60) and the panel body (41) is not conspicuous. Therefore, in this embodiment, the beauty of the decorative panel (40) can be improved.

    On the other hand, in the structure in which the extension portion (65) is formed on the suction grill (60) as described above, the suction grill (60) is rotated with respect to the panel body (41) to open the panel-side suction flow path (42). In this case, the extension part (65) and the panel body (41) interfere with each other in the vertical direction, and the suction grille (60) may not be easily rotated. Therefore, the rotation mechanism (80) of the present embodiment sufficiently displaces the rotation range of the suction grille (60) by displacing the suction grille (60) downward during the rotation operation of the suction grille (60). Can be secured. This point will be described in detail with reference to FIGS.

    The user rotates the suction grille (60) attached to the panel body (41) (the state shown in FIG. 7) in the order of FIG. 8, FIG. 9, and FIG. ) Open the inside. In the state of FIG. 7, the holding member (not shown) that detachably holds the suction grill (60) on the panel main body (41) is released, so that the suction grill (60 on the panel main body (41) is removed. ) Is allowed to rotate.

    In the state shown in FIG. 7 (the state where the suction grill (60) is attached to the panel main body (41)), the lower shaft portion (92) of the hook member (90) is the front end (FIG. 7). At the left end). Here, the front end of the shaft insertion hole (98) is formed closer to the center of the panel body (41) than the guide space (89) of the slide member (81). For this reason, in the state shown in FIG. 7, the intermediate coupling portion of the hook member (90) is arranged such that the lower shaft portion (92) is located closer to the front than the upper shaft portion (91) of the hook member (90). (93) is inclined obliquely from the vertical. In this way, in the mounted state of the suction grill (60), the hook member (90) is inclined obliquely from the vertical, so the vertical space for accommodating the hook member (90) is reduced, and the decorative panel ( 40) can be downsized up and down.

    When the user rotates the suction grill (60) from the panel main body (41), the outer edge of the suction grill (60) in the state shown in FIG. The side edge on the opposite side is displaced downward. At the same time, the suction grill (60) is rotated so that the horizontal suction grill (60) is tilted. Then, as shown in FIG. 8, the upper shaft portion (91) of the hook member (90) moves downward along the slide member (81). At the same time, in the panel side pivot (88), the lower shaft (92) located on the front end side of the shaft insertion hole (98) is displaced to the rear end side of the shaft insertion hole (98). Go. Further, in the state shown in FIG. 8, the suction grill (60) is rotatable about the upper shaft portion (91) and the lower shaft portion (92). Therefore, the movable range of the suction grill (60) is expanded, and the user can smoothly rotate the suction grill (60).

    When the suction grill (60) is further displaced downward from the state shown in FIG. 8, the upper shaft portion (91) of the hook member (90) is positioned at the lower end of the guide space (89) as shown in FIG. That is, the upper shaft portion (91) of the hook member (90) abuts on the panel side pivot portion (88) of the slide member (81). Thus, by displacing the suction grill (60) downward, the outer end of the extension (65) of the rotating suction grill (60) is positioned below the panel body (41). . For this reason, the suction grill (60) can be further rotated without the outer end of the extension (65) of the rotating suction grill (60) interfering with the lower surface of the panel body (41). .

    As shown in FIG. 9, when the suction grill (60) is rotated about 90 degrees with respect to the panel main body (41), the intermediate connecting portion (93) of the hook member (90) is also in a substantially vertical state. When the suction grille (60) is further rotated from this state, the hook member (90) is also rotated with the upper shaft part (91) rotatably supported by the panel side pivotal support part (88) as a fulcrum. At this time, the intermediate coupling part (93) of the hook member (90) enters the inside of the notch part (72) constituting the tapered surface. For this reason, the hook member (90) and the suction grille (60) are rotated by 90 degrees or more without interference between the intermediate connecting portion (93) of the hook member (90) and the lower end portion of the inner panel member (44). be able to. When the suction grill (60) is rotated to the state shown in FIG. 10, the intermediate coupling part (93) of the hook member (90) and the inclined surface (72a) of the notch part (72) come close to each other. The rotation angle of (60) reaches about 145 degrees.

-Effect of the embodiment-
As described above, in the rotation mechanism (80) of the present embodiment, the hook member (90) is lowered along the slide member (81) so as to allow the suction grille (60) to rotate by 90 degrees or more. It is displaced to. In such a rotation operation, the outer end portion of the extension portion (65) of the suction grill (60) that is rotating is positioned below the panel body (41). As a result, the outer end of the extension (65) of the suction grill (60) does not interfere with the panel main body (41), and the suction grill (60) is rotated by 90 degrees or more with respect to the panel main body (41). Can be made.

    In the embodiment, the suction grill (60) is configured to be rotatable up to about 145 degrees, which is greater than 90 degrees. Here, if a structure is adopted in which the rotation range of the suction grill (60) is restricted to 90 degrees, the suction grill (60) and the hook member (90) reaching 90 degrees are connected to the panel body (41). When contacted, the stress at the contact portion increases, and this contact portion may be damaged. On the other hand, in this embodiment, it becomes possible to rotate the suction grille (60) to a range exceeding 90 degrees. In a range where the rotation angle of the suction grill (60) exceeds 90 degrees, the suction grill (60) moves upward against its own weight. For this reason, when the rotation angle of the suction grill (60) exceeds 90 degrees, the kinetic energy of the suction grill (60) gradually decreases. Therefore, even if the suction grill (60) and the hook member (90) come into contact with the panel main body (41) at a predetermined angle exceeding 90 degrees, the stress acting on the contact portion can be reduced. As a result, the contact portion can be prevented from being damaged.

    Moreover, in this embodiment, the notch (72) is formed in the lower inner edge of the panel side suction flow path (42) so as to expand the rotation range of the hook member (90). Therefore, it is possible to prevent the hook member (90) and the panel body (41) from coming into contact with each other when the rotation angle of the suction grill (60) is in the range of 90 degrees to about 145 degrees. Damage to the panel body (41) can be reliably prevented.

<Modification of Embodiment>
The rotation mechanism (80) according to the above embodiment may be configured as the following modifications.

-Modification 1-
As shown in FIGS. 11-13, the rotation mechanism (80) of the modification 1 hold | maintains the connection board (100) comprised with the flexible material, and a connection board (100) so that sliding is possible up and down. The slide member (110) has a holding portion (120) formed on the back surface (upper surface) of the grill body (61) and to which the lower portion of the connecting plate (100) is fixed.

    The connecting plate (100) constitutes a connecting member that connects the inner wall (44a) of the inner panel member (44) and the rear surface of the grill body (61). The connecting plate (100) is formed in a vertically long thin plate shape and is configured to be capable of bending deformation in the thickness direction. As shown in FIG. 13, at the upper part of the connecting plate (100), a pair of projecting plate portions (101) projecting upward, and a pair of latches projecting outward in the width direction from the tip of the projecting plate portion (101) Part (102) is formed. In addition, on each side of the connecting plate (100) on both sides in the width direction, a recess (103) is formed near the lower end thereof.

    The slide member (110) of Modification 1 has a plate insertion hole (111) through which the connecting plate (100) is inserted. That is, the slide member (110) holds the connecting plate (100) slidably up and down inside the plate insertion hole (111). The holding part (120) is formed in a substantially cylindrical shape having a holding hole (121) through which the connecting plate (100) passes. A pair of recesses (103) of the connecting plate (100) are fitted into the holding part (120). Thereby, a holding | maintenance part (120) and a connection board (100) are mutually fixed.

    Also in the rotation mechanism (80) of the first modification, the suction grille (60) can be rotated by 90 degrees or more with respect to the panel body (41). Specifically, in the attached state of the suction grill (60) shown in FIG. 11, when the suction grill (60) is displaced downward, the connecting plate (100) is guided by the slide member (110) and displaced downward. Further, when the suction grill (60) is rotated while the suction grill (60) is displaced downward in this manner, the connecting plate (100) is appropriately deformed along the suction grill (60). Therefore, also in the rotation mechanism (80) of this modification, the outer end portion of the extension portion (65) of the rotating suction grille (60) is positioned below the panel body (41). . As a result, also in the first modification, the suction grill (60) can be rotated by 90 degrees or more without the suction grill (60) interfering with the panel body (41) (see FIG. 12).

    Moreover, in this modification 1, a pair of latching | locking part (102) of the connection plate (100) displaced below contact | abuts with the upper end surface (112) of a slide member (100). Thus, the locking portion (102) prevents the connecting plate (100) from falling off the slide member (100).

-Modification 2-
As shown in FIGS. 14-15, the rotation mechanism (80) of the modification 2 has a link mechanism (130) and a grille side support part (140). The link mechanism (130) constitutes a connecting member that connects the inner wall (44a) of the inner panel member (44) and the rear surface of the grill body (61). Specifically, the link mechanism (130) includes a first link part (131), a second link part (132), and a link connection part (133).

    One end of the first link part (131) is fixed to the inner wall part (44a) of the inner panel member (44). Specifically, one end of the first link portion (131) is rotatably connected to the inner wall portion (44a) via the first rotation shaft (134). One end of the second link part (132) is fixed to the back surface of the grill body (61). Specifically, one end of the second link part (132) is rotatably connected to the grille side pivot part (140) of the grill body (61) via the second rotating shaft (135). The other end of the first link part (131) and the other end of the second link part (132) are connected to each other via a link connecting part (133). That is, the first link part (131) and the second link part (132) are configured to be rotatable with respect to each other with the link connecting part (133) as a fulcrum.

    In the modified example 2, in the attachment state of the suction grill (60), the first link part (131) and the second link part (132) are folded in a horizontal posture. On the other hand, in the link mechanism (130) during the turning operation shown in FIG. 14, the first link portion (131) can turn around the first turning shaft (134), and the second link portion (132). The link connecting part (133) can be turned around the fulcrum, and the grille side pivoting part (140) can be turned around the second turning shaft (135). Accordingly, the suction grill (60) is displaced downward by bringing the link portions (131, 132) close to a vertical posture, and the suction grill (60) is rotated by 90 degrees or more with respect to the panel body (41). Can do.

<< Other Embodiments >>
The indoor unit (20) of the air conditioner (10) of the above embodiment is configured to be embedded in a ceiling that is fitted into the opening (O) of the ceiling (U). However, the indoor unit (20) may be configured as a ceiling suspended type that is suspended from the ceiling. In the ceiling-suspended indoor unit (20), the lower surface of the casing (22) may constitute the decorative panel (40) according to the present invention. That is, the indoor unit main body (21) of the indoor unit (20) has a rectangular box-shaped casing main body whose lower side is opened. A casing lower surface portion is formed integrally with the casing body on the lower open surface of the casing body. In the ceiling-suspended indoor unit (20), the lower surface of the casing constitutes the decorative panel (40) according to the present invention.

    As described above, the present invention relates to a decorative panel of an air conditioner and an indoor unit of an air conditioner including the decorative panel, and is particularly useful for an opening / closing structure of a suction grill.

DESCRIPTION OF SYMBOLS 10 Air conditioner 20 Indoor unit 21 Indoor unit main body 40 Cosmetic panel 41 Panel main body 42 Panel side suction flow path (suction flow path)
60 Suction grill 61 Grill body 65 Extension part 72 Notch part 80 Turning mechanism 81 Slide member 88 Panel side pivot part (pivot part)
90 Hook member (connection member)
110 Slide member 100 Connection plate (connection member)
130 Link mechanism (connecting member)
131 1st link part 132 2nd link part 133 Intermediate | middle connection part 134 1st rotating shaft 135 2nd rotating shaft

Claims (8)

A decorative panel for an air conditioner provided at a lower portion of an indoor unit body (21) provided on a ceiling,
A panel body (41) in which a suction channel (42) is formed;
A suction grill (60) attached to the suction flow path (42) of the panel body (41),
The suction grill (60) extends outward from the entire circumference of the grill body (61) facing the suction flow path (42) and the lower surface of the panel body (41) from the entire circumference of the grill body (61). An extension (65) extending,
The panel main body (41) has a connecting member (90, 100, 130) for connecting the inner peripheral surface of the suction passage (42) and the rear surface of the grill main body (61), and the suction grill (60) is connected to the panel main body (60). 41) A decorative panel for an air conditioner comprising a rotation mechanism (80) configured to displace the connecting member (90, 100, 130) downward so as to rotate at least 90 degrees relative to 41). . In claim 1,
The rotating mechanism (80) includes the connecting member (90, 100, 130) such that an outer end portion of the extending portion (65) of the rotating suction grill (60) is positioned below the panel body (41). ) Is configured to displace the air conditioner decorative panel. In claim 1,
The rotating mechanism (80) includes a slide member (81, 110) that is provided on the inner peripheral surface of the suction flow path (42) and that holds the connecting member (90, 100) slidably in the vertical direction. A decorative panel of an air conditioner characterized by. In claim 3,
A decorative panel for an air conditioner, characterized in that a pivotal support portion (88) for rotatably holding the connecting member (90) is provided at a lower end portion of the slide member (81). In any one of Claims 1 thru | or 4,
A notch (72) is formed in the lower inner edge of the suction passage (42) of the panel body (41) so as to expand the rotation range of the connecting member (90). A decorative panel for an air conditioner. In claim 2,
The connecting member (100) is made of a flexible material. A decorative panel for an air conditioner. In claim 1,
The connecting member (130)
A first link portion (131) having one end rotatably connected to the inner peripheral surface of the suction flow path (42);
A second link portion (132) having one end rotatably connected to the back surface of the grill body (61);
A link mechanism (130) having a link connecting part (133) for rotatably connecting the other ends of the first link part (131) and the second link part (132). A decorative panel for an air conditioner. An indoor unit of an air conditioner including an indoor unit body (21) provided on a ceiling and a decorative panel (40) provided at a lower portion of the indoor unit body (21),
The indoor unit of an air conditioner, wherein the decorative panel (40) is configured by any one of the decorative panels according to claims 1 to 7.

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