JP2014215023A - Interconnecting wire connection structure of air conditioner indoor unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To facilitate performing indoor unit installation operation.SOLUTION: Electrical components include: a flap motor provided as a standard component; and a wireless remote controller receiver and a human sensor provided as optional components. Interconnection wires include; motor interconnecting wires (90 and 91) extending from the flap motor; and a receiver interconnecting wire (88) and a sensor interconnecting wire (94) extending from the wireless remote controller receiver and the human sensor, respectively. After extending closer to the flap motor, the receiver interconnecting wire (88) and the sensor interconnecting wire (94) are bundled together with the motor interconnecting wires (90 and 91) and extend along the motor interconnecting wires (90 and 91).

Description

  The present invention relates to a wiring connection structure for an indoor unit of an air conditioner in which wiring extending from an electrical component provided on a decorative panel is connected to an electrical component box attached to the outside of an indoor unit main body provided on a ceiling.

  A wiring connection structure of an indoor unit of an air conditioner that connects wiring extending from an electrical component provided on a decorative panel to an electrical component box attached to an indoor unit main body provided on a ceiling is known as a prior art.

  For example, in the wiring connection structure of Patent Document 1, the electrical component box is attached to the inside of the indoor unit main body. The wiring connection structure of Patent Document 1 is also provided at the first plug-in connector provided at the tip of the first wiring extending from the electrical component box, and at the tip of the second wiring extending from the electrical component of the decorative panel. And a second plug-in connector electrically connected to the plug-in connector. And the 1st insertion type connector is being fixed to the indoor unit main body so that the connection end part may face the indoor side with respect to the 2nd insertion type connector. Further, the connection end portion of the first plug-in connector can be exposed to the indoor side. With the above configuration, the indoor unit can be easily installed.

JP 2011-232007 A

  By the way, in the wiring connection structure as described above, the electrical component box may be attached to the outside of the indoor unit main body. In this case, if wiring extending from a plurality of electrical components are separately connected to the electrical component box, the wiring is likely to be sandwiched between the decorative panel and the ceiling when the indoor unit is installed, which makes it difficult to install the indoor unit. There's a problem.

  The present invention has been made in view of such a point, and an object thereof is to easily perform an installation operation of an indoor unit.

  In the first aspect of the invention, the air connecting the wiring extending from the electrical component provided on the decorative panel (40) to the electrical component box (25) attached to the outside of the indoor unit body (21) provided on the ceiling (U). A wiring connection structure for an indoor unit of a conditioner, wherein the electrical component includes a first electrical component (81a, 81d) as a standard equipment and a second electrical component (82, 83) as an optional equipment, The wiring has a first wiring (84, 87) extending from the first electrical component (81a, 81d) and a second wiring (88, 94) extending from the second electrical component (82, 83), The second wiring (88, 94) extends to the vicinity of the first electrical component (81a, 81d), and then bundled with the first wiring (84, 87) to the first wiring (84, 87). It is characterized by extending along.

  In the first invention, after the second wiring (88, 94) extends to the vicinity of the first electrical component (81a, 81d), the first wiring (84, 87) is bundled with the first wiring (84, 87). ). That is, the first and second wirings (81a, 81d, 88, 94) are grouped into one with reference to the first wiring (84, 87) extending from the standard first electrical component (81a, 81d). Yes.

  In a second aspect based on the first aspect, the decorative panel (40) has a guide portion (71a) for guiding the first wiring (84, 87) so as to extend upward. It is characterized by this.

  In the second invention, since the guide portion (71a) guides the first wiring (84, 87) so as to extend upward, the bundled first and second wirings (81a, 81d, 88, 94) Extends upward.

  According to a third invention, in the first or second invention, the second wiring (88, 94) passes through the side surface of the decorative panel (40) without the second wiring (88, 94) being bent. It is characterized by being attached to the decorative panel (40) via an attachment member (92) so as to extend to the vicinity of the first electrical component (81a, 81d).

  In the third invention, the second wiring (88, 94) passes through the side surface of the decorative panel (40) without bending the second wiring (88, 94) to the vicinity of the first electrical component (81a, 81d). It is attached to the decorative panel (40) through the attachment member (92) so as to extend.

  In a fourth aspect based on the third aspect, the decorative panel (40) has a suction channel (42) at the center thereof along the side of the suction channel (42). 43), and the decorative panel (40) is provided on the outside of the blowout flow path (43) and on the outside of the outside heat insulating part (47). An extended portion (51) extending toward the outer edge of the decorative panel (40) along the lower surface of (U), and the outer surface of the outer heat insulating portion (47) 40).

  In the fourth invention, the second wiring (88, 94) passes through the outer surface of the outer heat insulating portion (47) without the second wiring (88, 94) being bent, and in the vicinity of the first electrical component (81a, 81d). It is attached to the decorative panel (40) through the attachment member (92) so as to extend to the bottom.

  5th invention is the said 3rd or 4th invention, The said decorative panel (40) has a accommodating part (71a-71d) which accommodates the said electrical component, The said accommodating part (71a-71d) The housing portion main body (72) opening upward, and a lid portion (73) covering the upper opening of the housing portion main body (72), and the mounting member (92) 72) and the lid portion (73).

  In the fifth invention, the attachment member (92) is fastened together with the lid (73) to the housing main body (72) of the housing (71a, 71d).

  According to a sixth invention, in any one of the first to fifth inventions, the first electrical component (81a, 81d) is provided at a corner of the decorative panel (40), and the electrical component box ( 25) is characterized in that it is attached to one of side surfaces adjacent to each other forming a corner corresponding to the corner in the indoor unit main body (21).

  In the sixth invention, the first electrical component (81a, 81d) is provided at the corner of the decorative panel (40), and the electrical component box (25) corresponds to the corner of the indoor unit body (21). Are attached to one of the adjacent side surfaces. That is, the electrical component box (25) is attached to the side surface close to the first electrical component (81a, 81d) among the side surfaces of the indoor unit body (21).

  According to the present invention, one first and second wirings (81a, 81d, 88, 94) are provided on the basis of the first wirings (84, 87) extending from the standard first electrical component (81a, 81d). It is summarized in. For this reason, compared with the case where the first and second wirings (81a, 81d, 88, 94) are separately connected to the electrical component box (25), the first and second wirings are installed when the indoor unit (20) is installed. (81a, 81d, 88, 94) can be prevented from being sandwiched between the decorative panel (40) and the ceiling (U). Therefore, the installation work of the indoor unit (20) can be easily performed.

  According to the second invention, the bundled first and second wirings (81a, 81d, 88, 94) extend upward. For this reason, compared with the case where the first and second wirings (81a, 81d, 88, 94) extend horizontally, the first and second wirings (81a, 81d, 88, 94) are installed when the indoor unit (20) is installed. ) Can be suppressed from being sandwiched between the decorative panel (40) and the ceiling (U). Therefore, the installation work of the indoor unit (20) can be performed more easily.

  According to the third aspect, the second wiring (88, 94) passing through the side surface of the decorative panel (40) when the indoor unit (20) is installed is between the decorative panel (40) and the ceiling (U). It can suppress being pinched by. Therefore, the installation work of the indoor unit (20) can be performed more easily.

  Further, according to the fourth invention, the second wiring (88, 94) passing through the outer surface of the outer heat insulating portion (47) when the indoor unit (20) is installed is extended to the extending portion (51) of the decorative panel (40). And can be prevented from being sandwiched between the ceiling (U). Therefore, the installation work of the indoor unit (20) can be performed more easily.

  Moreover, according to the said 5th invention, an attachment member (92) can be fixed to a decoration panel (40), without providing the member which fixes an attachment member (92) to a decoration panel (40) separately. For this reason, the number of members can be reduced.

  According to the sixth aspect of the invention, the electrical component box (25) is attached to the side surface close to the first electrical component (81a, 81d) among the side surfaces of the indoor unit body (21). For this reason, the connection work of the first and second wirings (81a, 81d, 88, 94) to the electrical component box (25) can be easily performed. Therefore, the installation work of the indoor unit (20) can be performed more easily.

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 plan view showing an appearance of the decorative panel in a state in which the cover portion and the inner seal member are removed according to the embodiment. FIG. 6 is a perspective view illustrating an appearance of the decorative panel before the wireless remote control receiver and the human detection sensor are attached according to the embodiment. FIG. 7 is a perspective view illustrating an appearance of the decorative panel in a state where the suction grille is removed according to the embodiment. FIG. 8 is a perspective view illustrating an appearance of the fourth housing portion of the decorative panel according to the embodiment. FIG. 9 is a plan view showing an appearance of the indoor unit according to the embodiment.

  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 the outer surface of 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 channel (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). The gap between the outer surface of the outer heat insulating portion (47) (the surface on the outer edge side of the panel body (41)) and the inner peripheral surface of the opening (O) of the ceiling (U) is small. 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) includes a partition wall (50) formed along the outer wall surface of the main body outlet channel (37), and an outer edge of the panel body (41) from the lower end of the partition wall (50). And an extending portion (51) extending toward the surface. The extension part (51) is formed in a rectangular frame shape along the lower surface of the ceiling (U). The extension amount of the extension part (51) is small. 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 from one end to the other end in the longitudinal direction of the main body side blowing passage (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 at the center of 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).

−Wiring connection structure for indoor unit−
Next, the wiring connection structure of the indoor unit (20) for connecting the wiring extending from the electrical component provided on the decorative panel (40) to the electrical component box (25) attached to the outside of the indoor unit body (21) will be described. .

  As shown in FIGS. 5-9, the accommodating part is provided in the corner | angular part of the decorative panel (40) (panel main body (41)). This accommodating part has the 1st-4th accommodating part (71a-71d) each provided in the 1st-4th corner | angular part arrange | positioned in order at the circumferential direction in a decorative panel (40). That is, the first and third housing parts (71a, 71c) and the second and fourth housing parts (71b, 71d) are respectively provided at the diagonals of the decorative panel (40). The accommodating portions (71a to 71d) are formed in a substantially square shape in plan view. The accommodating part (71a-71d) has an accommodating part main body (72) and a cover part (73). The accommodating portion main body (72) is open upward. An insertion hole (72a) facing the accommodation recess (75) is formed in a side wall portion corresponding to an accommodation recess (75) to be described later in the accommodation portion main body (72) of the first to third accommodation portions (71a to 71c). Has been. A second motor harness (91) to be described later is inserted through the insertion hole (72a). The lid (73) is formed in a plate shape. The lid (73) covers the upper opening of the housing main body (72). The lid part (73) is fixed to the housing part main body (72) with bolts (fastening members) (74). A wiring opening (73a) is formed at a corner portion of the lid portion (73) of the first, second and fourth housing portions (71a, 71b, 71d) opposite to the corner of the decorative panel (40). . The wiring opening (73a) is exposed to the outside of the indoor unit (20). The outer surface of the housing part (71a to 71d) (the surface on the outer edge side of the panel body (41)) constitutes the side surface of the decorative panel (40). In addition, the 1st accommodating part (71a) respond | corresponds to the guide part which concerns on this invention.

  As shown in FIGS. 3 and 5 to 8, the outer heat insulating portion (47) has first to fourth outer heat insulating portions (47a to 47d). The first outer heat insulating part (47a) is between the first and second housing parts (71a, 71b), and the second outer heat insulating part (47b) is between the second and third housing parts (71b, 71c), The third outer heat insulating portion (47c) is disposed between the third and fourth housing portions (71c, 71d), and the fourth outer heat insulating portion (47d) is disposed between the fourth and first housing portions (71d, 71a). Has been. The outer heat insulating portion (47) extends along the corresponding panel outlet channel (43). The outer heat insulating portion (47) is formed in a substantially rectangular shape in plan view. An accommodation recess (75) is formed on the upper surfaces of the first and second outer heat insulating portions (47a, 47b). The accommodating recess (75) extends along the corresponding panel outlet channel (43). The housing recess (75) is open upward. A second motor harness (91), which will be described later, is housed in the housing recess (75). The outer surface of the outer heat insulating portion (47) constitutes the side surface of the decorative panel (40).

  As shown in FIG. 5, the above-mentioned electrical components are a standard-equipped flap motor (first electrical component), an optional wireless remote control receiver (82), and a human detection sensor (83) (second electrical component. For reference). That is, the flap motor is a standard equipment on the decorative panel (40). On the other hand, the wireless remote control receiver (82) and the human detection sensor (83) are equipment selectively added to the decorative panel (40). The flap motor is already attached at the time of shipment before installation of the indoor unit (20). On the other hand, the wireless remote control receiver (82) and the human detection sensor (83) are installed at the site when the indoor unit (20) is installed.

  The flap motor is a motor that drives the wind direction adjusting blade (53). The wind direction adjusting blade (53) has first to fourth air direction adjusting blades extending along the first to fourth outer heat insulating portions (47a to 47d), respectively. The flap motor has first to fourth flap motors (81a to 81d) for driving the first to fourth wind direction adjusting blades, respectively. The first and fourth flap motors (81a, 81d) are accommodated adjacent to the central portion in the first accommodation portion (71a). The second and third flap motors (81b, 81c) are accommodated adjacent to the central portion in the third accommodation portion (71c).

  The wireless remote control receiver (82) is a device that receives a signal from a wireless remote control (not shown) of the air conditioner (10). The human detection sensor (83) is an infrared sensor that detects a person in the room.

  As shown in FIGS. 3 and 5 to 9, the wirings are first to fourth motor wirings (84 to 87) (first wirings) extending from the first to fourth flap motors (81 a to 81 d), respectively. And a receiver wiring (88) (second wiring) extending from the wireless remote control receiver (82) and two sensor wirings (second wiring) extending from the human detection sensor (83). . In addition, illustration of this wiring is abbreviate | omitted in FIG.

  The first and fourth motor wires (84, 87) are bundled at the central portion in the first housing portion (71a) to constitute the first motor harness (90). The second and third motor wires (85, 86) are bundled at the central portion in the third housing portion (71c) to constitute a second motor harness (91). The second motor harness (91) includes an outer side (outer edge side of the panel body (41)) in the third housing part (71c), an insertion hole (72a) in the third housing part (71c), and a second outer heat insulation. In the housing recess (75) of the portion (47b), the insertion hole (72a) on the second outer heat insulating portion (47b) side of the second housing portion (71b), the outside in the second housing portion (71b), the second housing Insertion hole (72a) on the first outer side heat insulation part (47a) side of the part (71b), inside the accommodation recess (75) of the first outer side heat insulation part (47a), and insertion hole (72a) in the first accommodation part (71a) Are sequentially extended to the outside in the first accommodating portion (71a). That is, the second motor harness (91) is built in the decorative panel (40). As described above, the second motor harness (91) can be built in the decorative panel (40) because the second and third flap motors (81b, 81c) are standard equipment, and the indoor unit (20) before installation. This is because it is already installed at the time of shipment.

  The first and second motor harnesses (90, 91) extend toward the wiring opening (73a) of the lid portion (73) of the first housing portion (71a), and then the wiring opening (73a). ) The first and second motor harnesses (90, 91) are guided by the wiring openings (73a) and extend upward.

  The receiver wiring (88) jumps out from the wiring opening (73a) of the lid (73) of the second housing part (71b), and then the upper end of the outer surface of the second housing part (71b), the first Near the wiring opening (73a) of the lid portion (73) of the first housing portion (71a) through the upper end portion of the outer surface of the outer heat insulating portion (47a) and the upper end portion of the outer surface of the first housing portion (71a) in order. It extends to. That is, the receiver wiring (88) extends to the vicinity of the first and fourth flap motors (81a, 81d) through the upper end of the side surface of the decorative panel (40). Thus, the receiver wiring (88) is exposed to the outside of the decorative panel (40). In this way, the reason why the receiver wiring (88) cannot be built into the decorative panel (40) is that the wireless remote control receiver (82) is an optional equipment and can be installed at the site when installing the indoor unit (20). is there. Since the receiver wiring (88) passes through the upper end of the side surface of the decorative panel (40) as described above, the receiver wiring (88) is connected to the extending portion (51) of the decorative panel (40) and the ceiling ( U) can be suppressed.

  The receiver wiring (88) is connected to the decorative panel (40) via one plastic band (92) (attachment member) and one clamp (93) so that the receiver wiring (88) does not bend. It is attached. The plastic band (92) is fastened together with the bolt (74) together with the lid (73) to the housing main body (72) of the first housing (71a). The clamp (93) is attached to the lid part (73) of the second housing part (71b).

  The two sensor wires are bundled in the fourth housing part (71d) to constitute a sensor harness (94). The sensor harness (94) jumps out of the wiring opening (73a) of the lid (73) of the fourth housing portion (71d), and then the upper end portion of the outer surface of the fourth housing portion (71d) and the fourth outer heat insulation. The upper end of the outer surface of the portion (47d) and the upper end of the outer surface of the first housing portion (71a) are sequentially passed to the vicinity of the wiring opening (73a) of the lid portion (73) of the first housing portion (71a). ing. That is, the sensor harness (94) extends to the vicinity of the first and fourth flap motors (81a, 81d) through the upper end of the side surface of the decorative panel (40). Thus, the sensor harness (94) is exposed to the outside of the decorative panel (40). Thus, the reason why the sensor harness (94) cannot be built in the decorative panel (40) is that the sensor harness (94) is an optional equipment and can be installed at the site when the indoor unit (20) is installed. Since the sensor harness (94) passes through the upper end of the side surface of the decorative panel (40) as described above, the sensor harness (94) extends from the extended portion (51) of the decorative panel (40) and the ceiling (U). It can suppress being pinched between.

  The sensor harness (94) is attached to the decorative panel (40) via two plastic bands (92) (attachment members) so that the sensor harness (94) does not bend. One of the plastic bands (92) is fastened together with the bolt (74) together with the lid (73) to the housing main body (72) of the first housing (71a). The other (92) is fastened together with the bolt (74) together with the lid (73) to the housing main body (72) of the fourth housing (71d).

  As shown in FIG. 9, the electrical component box (25) includes adjacent side plates (24) (in the indoor unit main body (21)) that form corners corresponding to the first accommodating portions (71a) in the casing (22). It is attached to one (24a) of the side surfaces adjacent to each other that form corners corresponding to the first housing portion (71a). That is, the electrical component box (25) is attached to the side plate (24a) close to the first housing portion (71a) among the side plates (24) of the casing (22). A control board (not shown) is provided in the electrical component box (25). The control board includes an electrical component such as an indoor fan (16) provided in the indoor unit (20), a flap motor (81a to 81d) provided in the decorative panel (40), a wireless remote control receiver (82), and A human detection sensor (83) is connected via corresponding wiring. The control board is also connected to a control unit (not shown). The control unit controls the air conditioner (10) by transmitting and receiving various signals to and from the control board.

  As shown in FIGS. 7 to 9, the receiver wiring (88) and the sensor harness (94) extend from the first housing portion (71a) after extending to the first housing portion (71a) as described above. The protruding first and second motor harnesses (90, 91) are bundled by clamps (95) (binding members) and extend along the first and second motor harnesses (90, 91). That is, the motor harness (90, 91), the receiver wiring (88), and the sensor harness (94) are based on the motor wiring (84-87) extending from the standard flap motor (81a-81d). It is put together. The bundled motor harness (90, 91), receiver wiring (88), and sensor harness (94) are exposed to the outside of the indoor unit (20). The bundled motor harness (90, 91), receiver wiring (88), and sensor harness (94) are closest to the first housing portion (71a) of the side surface of the electrical component box (25). One side is connected via a connector (not shown).

  Here, as described above, the first housing part (71a) guides the first and second motor harnesses (90, 91) so as to extend upward, so that the bundled motor harnesses (90, 91) are guided. 91), the receiver wiring (88) and the sensor harness (94) extend upward.

-Wiring connection work-
Next, the procedure for connecting the wiring extending from the electrical component of the decorative panel (40) to the electrical component box (25) of the indoor unit body (21) when the indoor unit (20) is installed will be described.

  First, attach the indoor unit body (21) to the back of the ceiling. Further, the wireless remote control receiver (82) and the human detection sensor (83) are attached to the decorative panel (40) without the suction grill (60) attached. Then, after extending the receiver wiring (88) and the sensor harness (94) to the first housing portion (71a), the first and second motor harnesses (90, 90) jumped out of the first housing portion (71a). 91) and bundled along the first and second motor harnesses (90, 91). Then, bring the decorative panel (40) to the lower part of the indoor unit body (21). Subsequently, the decorative panel (40) is temporarily hung on the indoor unit body (21). Thereafter, the bundled motor harness (90, 91), receiver wiring (88), and sensor harness (94) are connected to one side of the electrical component box (25). Thereby, the connection operation of the wiring extending from the electrical component of the decorative panel (40) to the electrical component box (25) of the indoor unit body (21) is completed.

  Next, the decorative panel (40) is attached to the indoor unit body (21) with a bolt (fastening member) (not shown). Thereafter, the suction grill (60) is attached to the panel side suction passage (42). This completes the operation of attaching the decorative panel (40) to the indoor unit body (21).

-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 channel (37), then flows downward through the main body side outlet channel (43), and passes through the outlet port (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.

-Effect of the embodiment-
As described above, according to the present embodiment, the receiver wiring (88) and the sensor harness (94) extend to the vicinity of the first and fourth flap motors (81a, 81d) (the first accommodating portion (71a)). After that, the first and second motor harnesses (90, 91) are bundled and extend along the first and second motor harnesses (90, 91). That is, the motor harness (90, 91), the receiver wiring (88), and the sensor harness (94) are based on the motor wiring (84-87) extending from the standard flap motor (81a-81d). It is put together. Therefore, compared with the case where the motor harness (90, 91), the receiver wiring (88), and the sensor harness (94) are separately connected to the electrical component box (25), the indoor unit (20) The motor harness (90, 91), receiver wiring (88), and sensor harness (94) must be sandwiched between the extension (51) of the decorative panel (40) and the ceiling (U) during installation. Can be suppressed. Therefore, the installation work of the indoor unit (20) can be easily performed.

  Further, since the first housing portion (71a) guides the first and second motor harnesses (90, 91) so as to extend upward, the bundled first and second motor harnesses (90, 91). ), The receiver wiring (88) and the sensor harness (94) extend upward. For this reason, compared with the case where the motor harness (90, 91), the receiver wiring (88) and the sensor harness (94) extend horizontally, the motor harness (90, 91, 91), the receiver wiring (88) and the sensor harness (94) can be prevented from being sandwiched between the extension (51) of the decorative panel (40) and the ceiling (U). Therefore, the installation work of the indoor unit (20) can be performed more easily.

  Also, the receiver wiring (88) and the sensor harness (94) are not bent, and the receiver wiring (88) and the sensor harness (94) are not bent. ) Is attached to the decorative panel (40) via a plastic band (92) or the like so as to extend to the vicinity of the first and fourth flap motors (81a, 81d). Therefore, when the indoor unit (20) is installed, the receiver wiring (88) and the sensor harness (94) that pass through the side surface of the decorative panel (40) are connected to the extension (51) and the ceiling (40) of the decorative panel (40). U) can be suppressed. Therefore, the installation work of the indoor unit (20) can be performed more easily.

  Also, since the plastic band (92) is fastened together with the lid (73) to the housing part main body (72) of the housing part (71a, 71d), the plastic band (92) is fixed to the decorative panel (40). The plastic band (92) can be fixed to the decorative panel (40) without providing a separate member. For this reason, the number of members can be reduced.

  Further, the first housing part (71a) (first and fourth flap motors (81a, 81d)) is provided at the first corner of the decorative panel (40), and the electrical component box (25) is provided in the casing (22). On one side (24a) of side plates (24) adjacent to each other that form corners corresponding to the first corner (adjacent side surfaces that form corners corresponding to the first corner of the indoor unit body (21)). It is attached. That is, the electrical component box (25) is attached to the side plate (24a) close to the first housing portion (71a) among the side plates (24) of the casing (22). For this reason, it is possible to easily connect the first and second motor harnesses (90, 91), the receiver wiring (88), and the sensor harness (94) to the electrical component box (25). Therefore, the installation work of the indoor unit (20) can be performed more easily.

<< Other Embodiments >>
About the said embodiment, it is good also as the following structures.

  In the above embodiment, the flap motors (81a to 81d) are provided as standard equipment, but other electrical components may be provided as standard equipment.

  Moreover, in the said embodiment, although the wireless remote control receiver (82) and the human detection sensor (83) were installed as an option, only either one may be installed as an option.

  Moreover, in the said embodiment, although the wireless remote control receiver (82) and the human detection sensor (83) were equipped as options, you may equip other electrical components as options.

  In the above embodiment, the receiver wiring (88) and the sensor harness (94) are bundled with the first and second motor harnesses (90, 91), but the first to fourth motor wirings (84) are used. ~ 87) may be bundled into 1-3.

  Moreover, in the said embodiment, although the flap motor (81a-81d) and the wiring for motors (84-87) were provided 4 each, you may provide 1-3 or 5 or more each.

  Moreover, in the said embodiment, although the guide part was comprised by the 1st accommodating part (71a), as long as it guides so that the 1st and 2nd motor harnesses (90, 91) may be extended toward upper side, it is limited to this. Not.

  As described above, the present invention is useful for the wiring connection structure of an indoor unit of an air conditioner.

10 Air conditioner
20 indoor units
21 Indoor unit body
25 Electrical component box
40 makeup panel
41 Panel body
42 Panel side suction flow path
43 Panel side outlet
47 Outer insulation
49 Outer panel member
51 Extension
71a-71d accommodating part (guide part)
72 Housing body
73 Lid
81a to 81d Flap motor (first electrical component)
82 Wireless remote control receiver (second electrical component)
83 Human detection sensor (second electrical component)
84 to 87 Motor wiring (first wiring)
88 Receiver wiring (second wiring)
92 Plastic band (mounting member)
94 Sensor harness (second wiring)
U ceiling

Claims (6)

An indoor unit of an air conditioner that connects wiring extending from an electrical component provided on the decorative panel (40) to an electrical component box (25) attached to the outside of the indoor unit body (21) provided on the ceiling (U) A wiring connection structure,
The electrical component has a first electrical component (81a, 81d) as standard equipment and a second electrical component (82, 83) as optional equipment,
The wiring includes a first wiring (84, 87) extending from the first electrical component (81a, 81d) and a second wiring (88, 94) extending from the second electrical component (82, 83). ,
The second wiring (88, 94) extends to the vicinity of the first electrical component (81a, 81d), and then bundled with the first wiring (84, 87) to the first wiring (84, 87). A wiring connection structure for an indoor unit of an air conditioner, characterized by extending along the line. In claim 1,
The decorative panel (40) has a guide portion (71a) for guiding the first wiring (84, 87) so as to extend upward, the wiring of the indoor unit of the air conditioner Connection structure. In claim 1 or 2,
The second wiring (88, 94) extends to the vicinity of the first electrical component (81a, 81d) through the side surface of the decorative panel (40) without bending the second wiring (88, 94). A wiring connection structure for an indoor unit of an air conditioner, which is attached to the decorative panel (40) via an attachment member (92). In claim 3,
In the decorative panel (40), a suction channel (42) is formed at the center thereof, and a blowout channel (43) is formed along the side of the suction channel (42).
The decorative panel (40) is provided on the outer side of the blowout channel (43), on the outer side heat insulating part (47), on the outer side of the outer side heat insulating part (47), and on the lower surface of the ceiling (U). An extending portion (51) extending toward the outer edge of the decorative panel (40) so as to follow,
A wiring connection structure for an indoor unit of an air conditioner, wherein an outer surface of the outer heat insulating portion (47) constitutes a side surface of the decorative panel (40). In claim 3 or 4,
The decorative panel (40) has an accommodating portion (71a to 71d) for accommodating the electrical component,
The accommodating portion (71a-71d) has an accommodating portion main body (72) that opens upward, and a lid portion (73) that covers the upper opening of the accommodating portion main body (72),
The wiring connection structure for an indoor unit of an air conditioner, wherein the mounting member (92) is fastened together with the lid (73) to the housing main body (72). In any one of claims 1 to 5,
The first electrical component (81a, 81d) is provided at a corner of the decorative panel (40),
The electrical component box (25) is attached to one of adjacent side surfaces forming a corner corresponding to the corner in the indoor unit main body (21). Wiring connection structure.

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