JP2007315670A - Indoor unit of air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To arrange a plurality of indoor units 13 with the side faces 34b of short sides abutted on or close to each other, for the indoor units 13 of an air conditioner, comprising a box-shaped casing 34 and mounted on a ceiling. <P>SOLUTION: Refrigerant pipes 11, 12 connected to an indoor heat exchanger 38 in a casing 34 are projected from a side face 34a on a longitudinal side, of the box-shaped casing 34. A drain pipe 18 connected to a drain pump 41 in the casing 34 is projected from the side face 34a on the longitudinal side, of the casing 34. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an indoor unit of an air conditioner installed on a ceiling.

  Conventionally, an indoor unit of an air conditioner provided with a box-shaped casing and installed on a ceiling of an air-conditioned space is known. This type of indoor unit is installed by being inserted into an opening formed in the ceiling, for example.

An example of this type of indoor unit is disclosed in Patent Document 1. This indoor unit includes a rectangular parallelepiped casing. In the casing, a heat exchanger, a centrifugal fan, a drain pan, and the like are provided. Two heat exchangers are provided, and each is formed in a substantially rectangular flat plate shape as a whole. Each heat exchanger is erected so that the short direction is the vertical direction. Each heat exchanger has a longitudinal direction arranged along the longitudinal direction of the casing, and faces each other with a centrifugal fan interposed therebetween. The drain pan is disposed below each heat exchanger.
JP-A-8-82427

  By the way, conventionally, as for an indoor unit provided with a box-shaped casing, the refrigerant | coolant piping connected to an indoor heat exchanger has come out from the side surface of the short side of a casing. This is mainly for facilitating the connection of the refrigerant pipes in the casing, and the positional relationship between the connection points of the refrigerant pipes of the indoor heat exchanger and the side surfaces of the casing is taken into consideration. In many cases, the connection point of the refrigerant pipe of the indoor heat exchanger is located closer to the side surface on the short side of the casing.

  For this reason, even when trying to arrange a plurality of indoor units side by side with the short side surfaces coming into contact or approaching each other, the refrigerant piping coming out from the short side surface of the casing is obstructive. The side surfaces of each other could not be brought into contact or close to each other.

  The present invention has been made in view of such a point, and an object of the present invention is to provide a plurality of indoor units to each other with respect to an indoor unit of an air conditioner provided on a ceiling with a box-shaped casing. It is to be able to arrange them side by side in a state where the side surface on the short side is in contact with or close to it.

  The first invention comprises a box-shaped casing (34) and an indoor heat exchanger (38) accommodated in the casing (34), and an indoor unit (13) of an air conditioner installed on the ceiling Is targeted. And as for this indoor unit (13), the refrigerant | coolant piping (11,12) connected to the said indoor heat exchanger (38) has come out from the side surface (34a) of the longitudinal side of the said casing (34).

  In 1st invention, the refrigerant | coolant piping (11,12) connected to an indoor heat exchanger (38) has come out from the side surface (34a) of the longitudinal side of a box-shaped casing (34). Therefore, the refrigerant pipes (11, 12) do not protrude from the short side surface (34b) of the box-shaped casing (34).

  According to a second aspect, in the first aspect, in the casing (34), a drain pan (40) installed below the indoor heat exchanger (38) and the drain pan (40) are accumulated. A drain pump (41) for discharging drain water to the outside of the casing (34) is accommodated, and a drain pipe (18) connected to the drain pump (41) is provided on the longitudinal side of the casing (34). Coming out from the side (34a).

  In the second invention, the drain pipe (18) connected to the drain pump (41) protrudes from the longitudinal side surface (34a) of the box-shaped casing (34). Therefore, the drain pipe (18) does not come out from the side surface (34b) on the short side of the box-shaped casing (34).

  In a third aspect based on the second aspect, the refrigerant pipes (11, 12) and the drain pipe (18) protrude from the same side surface (34a) of the casing (34).

  In 3rd invention, refrigerant | coolant piping (11,12) and drain piping (18) are taken out from the side surface (34a) of the same longitudinal side in a casing (34). In general, in an air conditioner, for example, after installing an indoor unit (13), an operation of connecting a pipe outside the indoor unit (13) constituting a part of the refrigerant pipe (11, 12) to the outside of the indoor unit (13) And connecting the pipe outside the indoor unit (13) that forms part of the drain pipe (18) to the outside of the indoor unit (13), the refrigerant pipe (11, 12) and the drain pipe ( 18) comes out of the casing (34). In the third aspect of the invention, the operation of connecting the pipe outside the indoor unit (13) of the refrigerant pipe (11, 12) to the indoor unit (13) and the pipe outside the indoor unit (13) of the drain pipe (18) The operation of connecting to the indoor unit (13) is performed from the same side of the casing (34).

  According to a fourth invention, in the second or third invention, the indoor heat exchanger (38) is disposed along the longitudinal direction of the casing (34), and the drain pan (40) A drain receiver (42) extending along the heat exchanger (38) and inclined so that its bottom surface is lowered from both ends in the longitudinal direction toward the center, and the drain receiver (41) for providing the drain pump (41). A drain reservoir (44) formed continuously at the center of the portion (42), and the drain pipe (18) is a longitudinal center of the longitudinal side surface (34a) of the casing (34). Out of the department.

  In 4th invention, the drain receiving part (42) of the drain pan (40) is formed so that the bottom face may incline toward the center part from each edge part of a longitudinal direction. Therefore, the distance from each end portion, which is the highest portion, to the central portion, which is the lowest portion, on the bottom surface of the drain receiving portion (42) is shorter than when the bottom surface is inclined from one end to the other end. In the fourth aspect of the invention, the drain pipe (18) connected to the drain pump (41) at the center in the longitudinal direction of the casing (34) is arranged in the longitudinal direction on the side surface (34a) on the longitudinal side of the casing (34). Out of the center of the. That is, in the casing (34), the drain pipe (18) is disposed substantially at the center in the longitudinal direction of the casing (34).

  According to a fifth invention, in the fourth invention, the refrigerant pipes (11, 12) are connected to one end side in the longitudinal direction of the casing (34) in the indoor heat exchanger (38), It protrudes from one end side in the longitudinal direction of the casing (34) on the side surface (34a).

  In the fifth invention, the refrigerant pipes (11, 12) connected to one end side in the longitudinal direction of the casing (34) in the indoor heat exchanger (38) are connected to the casing (34) on the long side surface (34a). It protrudes from one end side in the longitudinal direction. That is, in the casing (34), the refrigerant pipes (11, 12) are disposed on one end side in the longitudinal direction of the casing (34). Therefore, in the casing (34), the refrigerant pipes (11, 12) are separated from the drain pipe (18) disposed at the center in the longitudinal direction.

  According to a sixth invention, in any one of the first to third inventions, the indoor heat exchanger (38) is disposed along the longitudinal direction of the casing (34), and the refrigerant pipe (11 , 12) is connected to one end side in the longitudinal direction of the casing (34) in the indoor heat exchanger (38) and comes out from one end side in the longitudinal direction of the casing (34) on the side surface (34a) on the long side. Yes.

  In the sixth aspect of the invention, the refrigerant pipe (11, 12) connected to one end side in the longitudinal direction of the casing (34) in the indoor heat exchanger (38) is connected to the casing (34) on the long side surface (34a). It protrudes from one end side in the longitudinal direction. That is, the refrigerant pipes (11, 12) protrude from the side close to the connection point to the indoor heat exchanger (38) on the long side surface (34a).

  According to a seventh invention, in any one of the first to sixth inventions, an air outlet (23) is provided on the lower surface of the casing (34) for supplying conditioned air into the room. A decorative panel (21) is provided, and the air outlet (23) extends in the longitudinal direction of the casing (34).

  In the seventh invention, the air outlet (23) of the decorative panel (21) extends in the longitudinal direction of the casing (34). That is, the longitudinal direction of the air outlet (23) and the longitudinal direction of the casing (34) coincide.

  In the present invention, the refrigerant pipes (11, 12) connected to the indoor heat exchanger (38) are extended from the long side surface (34a) of the box-shaped casing (34). That is, from the short side surface (34b) of the casing (34), the refrigerant pipe (11 , 12) is not out. Therefore, a plurality of indoor units (13, 13,...) Can be arranged side by side with the short side surfaces (34b) of the casings (34) in contact with each other or close to each other.

  Moreover, in the said 2nd invention, the drain piping (18) connected to a drain pump (41) is taken out from the side surface (34a) of the longitudinal side of a box-shaped casing (34). That is, when the drain pipe (18) is taken out from the side surface of the casing (34), the drain pipe (18) becomes an obstacle when the short side surface (34b) of the indoor units (13) is brought into contact with or close to each other. Don't be. Therefore, even when the drain pipe (18) is taken out from the side surface of the casing (34), the short side surfaces (34b) of the casings (34) are connected to each other with a plurality of indoor units (13, 13,...). They can be arranged side by side in abutment or close proximity.

  Further, in the third invention, the refrigerant pipe (11, 12) and the drain pipe (18) are taken out from the same side surface (34a) of the casing (34), so that the indoor unit (13) of the refrigerant pipe (11, 12) The work to connect the outside pipe to the indoor unit (13) and the work to connect the pipe outside the indoor unit (13) of the drain pipe (18) to the indoor unit (13) are from the same side of the casing (34). To be done. Therefore, it is easy to connect the piping outside the indoor unit (13) of the refrigerant piping (11, 12) and the piping outside the indoor unit (13) of the drain piping (18) to the indoor unit (13). it can. In addition, since the refrigerant pipe (11, 12) and the drain pipe (18) come out from the same side of the casing (34), the refrigerant pipe (11, 12) and the drain pipe (18) around the casing (34) The arrangement state is not complicated.

  In the fourth aspect of the invention, the bottom surface of the drain receiving portion (42) of the drain pan (40) is inclined so as to be lowered from both ends in the longitudinal direction toward the center. The distance from each end portion which is a high portion to the center portion which is the lowest portion is shortened. Therefore, since the height difference of the bottom surface of the drain receiving part (42) can be reduced, the height of the drain receiving part (42) can be reduced. Accordingly, since the height of the portion corresponding to the drain receiving portion (42) in the casing (34) can be reduced, the overall height of the casing (34) can be reduced.

  Moreover, in 5th invention, the refrigerant | coolant piping (11,12) connected to the longitudinal direction one end side of the casing (34) in an indoor heat exchanger (38) is made into the casing (34 in a side surface (34a) of a longitudinal side. ) From one end in the longitudinal direction, the refrigerant pipes (11, 12) are separated from the drain pipe (18) in the casing (34). Therefore, the workability of assembling the refrigerant pipes (11, 12) and the drain pipe (18) to the casing (34) in assembling the indoor unit (13) is improved. Moreover, when performing the operation | work which winds a heat insulating material around refrigerant | coolant piping (11,12), the workability | operativity of the winding operation | work improves.

  Moreover, in 6th invention, refrigerant | coolant piping (11,12) has come out from the one end side close | similar to the connection location to an indoor heat exchanger (38) among the side surfaces (34a) of the longitudinal side in a casing (34). . Therefore, the part accommodated in the casing (34) of the refrigerant pipes (11, 12) can be shortened.

  In the seventh invention, the longitudinal direction of the air outlet (23) and the longitudinal direction of the casing (34) coincide with each other. Therefore, when arranging a plurality of indoor units (13, 13,...) Side by side in a state where the short side surfaces (34b) of the casings (34) are in contact with or close to each other, 13, ...) and the longitudinal direction of the outlet (23) coincide with each other, so that the outlet flows do not interfere with each other.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  The indoor unit (13) of the air conditioner of the present embodiment is an indoor unit (13) installed in an opening formed in the ceiling. The indoor unit (13) constitutes an air conditioner together with an outdoor unit (not shown). The indoor unit (13) is connected to the outdoor unit via a liquid side refrigerant pipe (11) and a gas side refrigerant pipe (12).

  As shown in FIGS. 1 and 2, the indoor unit (13) includes a main unit (20) and a decorative panel (21). The main unit (20) is suspended from the building frame via suspension bolts in a state of facing the opening of the ceiling (not shown). The decorative panel (21) is attached to the lower surface of the main unit (20) so that there is no gap between the decorative panel (21) and the periphery of the ceiling opening. The decorative panel (21) covers the lower surface of the main unit (20) and is exposed indoors.

  The main unit (20) includes a box-shaped casing (34). The casing (34) is formed in a substantially rectangular parallelepiped shape, and the lower side is generally open. An indoor heat exchanger (38), an indoor fan (39), a drain pan (40), and a drain pump (41) are provided in the casing (34). Two indoor heat exchangers (38) and two indoor fans (39) are provided.

  Each indoor heat exchanger (38) is configured as a cross-fin type fin-and-tube heat exchanger. Each indoor heat exchanger (38) is formed in a substantially rectangular flat plate shape as a whole. Each indoor heat exchanger (38) is erected so that the short side direction becomes the vertical direction. Each indoor heat exchanger (38) is arrange | positioned along the side surface (34a) of the longitudinal side of a casing (34) so that a longitudinal direction may correspond with the longitudinal direction of a casing (34).

  One end side in the longitudinal direction of one longitudinal side surface (34a) of the casing (34) is provided with a connection port (14) for refrigerant piping so as to penetrate the side surface (34a). Two connection ports (14) are provided for the liquid refrigerant pipe (11) and for the gas refrigerant pipe (12). In the casing (34), one end of the liquid side refrigerant pipe (11) is connected to the connection port (14a) for the liquid side refrigerant pipe, and a gas is connected to the connection port (14b) for the gas side refrigerant pipe. One end of the refrigerant pipe (12) on the side is connected. The other ends of the liquid side refrigerant pipe (11) and the gas side refrigerant pipe (12) are branched and connected to one end side in the longitudinal direction of the casing (34) in each indoor heat exchanger (38). . Each refrigerant pipe (11, 12) is disposed along the short side surface (34b) of the casing (34).

  Outside the casing (34), refrigerant pipes (11, 12) for connecting the indoor unit (13) to the outdoor unit are connected to each connection port (14). Each refrigerant pipe (11, 12) extends from the indoor heat exchanger (38) to the connection port (14) for the refrigerant pipe on the indoor unit (13) side and from the connection port (14) to the outdoor unit. It consists of a part outside the indoor unit (13). In this embodiment, the refrigerant pipe (11, 12) in which the portion on the indoor unit (13) side and the portion outside the indoor unit (13) are connected is a side surface (34a) on one longitudinal side of the casing (34). Out of.

  Each indoor fan (39) is arrange | positioned in the state located in a line with the longitudinal direction of the casing (34) between the indoor heat exchangers (38). A partition wall (not shown) is provided between the indoor fans (39). The partition wall is provided at a position that divides the casing (34) into two substantially in the longitudinal direction. The partition wall is for preventing the air blown from the indoor fans (39) from interfering with each other and suppressing the rotational sounds of the indoor fans (39) from resonating with each other.

  Each indoor fan (39) is configured as a turbo fan. A bell mouth (25) communicating with a suction port (22) of a decorative panel (21) described later is provided below each indoor fan (39). Each indoor fan (39) is configured to blow out the air sucked from below in the horizontal direction. Each indoor fan (39) faces both indoor heat exchangers (38) on the air blowing side.

  As shown in FIG. 3, the drain pan (40) includes a drain receiving portion (42), a pipe drain receiving portion (43), and a drain reservoir (44). The drain receiving part (42) is provided below each indoor heat exchanger (38) so as to receive drain water generated by condensation of moisture in the air in each indoor heat exchanger (38). ing. Each drain receiving part (42) is formed in a substantially rectangular shape, and each extends along the indoor heat exchanger (38). The bottom surface of each drain receiving portion (42) is inclined such that the height decreases from both ends toward the center so that drain water flows from both ends in the longitudinal direction toward the center.

  The pipe drain receiving part (43) extends from the indoor heat exchanger (38) to the connection port (14) so that it can receive drain water generated by condensation of moisture in the air in the refrigerant pipe (11, 12). It is provided below the extending refrigerant pipe (11, 12). The pipe drain receiving part (43) is formed in a substantially rectangular shape. The pipe drain receiving part (43) has both ends in the longitudinal direction connected to one end side of the drain receiving part (42). The bottom surface of the pipe drain receiving portion (43) is inclined so that the height decreases from the center toward both ends so that drain water flows from the center in the longitudinal direction toward both ends.

  The drain reservoir (44) is formed continuously at the center in the longitudinal direction of each drain receiver (42). Specifically, the drain reservoir (44) is formed in a substantially rectangular shape, and both ends in the longitudinal direction thereof are connected to the inside of the central portion in the longitudinal direction of each drain receiving part (42). One end side of the bottom surface of the drain reservoir (44) is lowered so that drain water flows toward one end side. Thereby, the drain water which fell to the drain receiving part (42) and the piping drain receiving part (43) is collected by the one end side of a drain reservoir part (44). One end side of the drain reservoir (44) where drain water is collected is the side surface (34a) on the long side where the connection port (14) for the refrigerant pipe is provided in the short side direction of the casing (34). .

  On one end side of the drain reservoir (44), a drain pump (41) for draining drain water collected on the one end side to the outside is installed. Further, one longitudinal side surface (34a) of the casing (34), that is, the longitudinal side surface (34a) provided with the connection port (14) for the refrigerant pipe, penetrates the side surface (34a). A connection port (15) for drain piping is provided. The drain port connection port (15) is provided at the longitudinal center of the longitudinal side surface (34a).

  In the casing (34), one end of the drain pipe (18) is connected to the drain pump (41), and the other end of the drain pipe (18) is connected to the connection port (15) for the drain pipe. The drain pipe (18) passes outside the indoor heat exchanger (38) on the drain pump (41) side and extends to the outside of the casing (34). Further, outside the casing (34), a drain pipe (18) extending to the outdoor side is connected to the connection port (15) for the drain pipe. The drain pipe (18) is connected to the indoor unit (13) side from the drain pump (41) to the connection port (15) for the drain pipe, and outside the indoor unit (13) from the connection port (15) to the outside. It consists of the part. In this embodiment, the drain pipe (18) in which the portion on the indoor unit (13) side and the portion outside the indoor unit (13) are connected protrudes from the side surface (34a) on the longitudinal side of the casing (34). . Further, the refrigerant pipes (11, 12) and the drain pipe (18) protrude from the same side surface (34a) on the long side.

  The decorative panel (21) is formed in a rectangular shape whose width is longer than the depth. The decorative panel (21) has a width longer than the length of the casing (34) in the short direction and a depth substantially equal to the length of the casing (34) in the longitudinal direction. On the upper surface of the decorative panel (21), there is formed an attachment portion (not shown) that is fitted into the lower surface of the decorative panel (21) when being attached to the lower surface of the casing (34). When the decorative panel (21) is attached to the casing (34), a sponge-like sealing material is interposed between the casing (34) and the decorative panel (21).

  The decorative panel (21) has two air outlets (23) extending along the longitudinal direction. The longitudinal direction of the air outlet (23) coincides with the longitudinal direction of the casing (34). Each blower outlet (23) is formed in the position near each long side of the decorative panel (21). Each suction port (22) is provided with a flap (27) for adjusting the direction of the blown air.

  Two suction ports (22) are formed between the air outlets (23) in the decorative panel (21). These suction ports (22) are arranged in a state of being aligned in the longitudinal direction of the decorative panel (21). Each suction port (22) is provided with a square-shaped panel member (28) in the center, and is formed so as to suck room air from its periphery. On the back side of each panel member (28), a filter (24) for removing dust from the intake air is provided.

  In the indoor unit (13), room air is sucked from the suction port (22) by each indoor fan (39) and sent to each indoor heat exchanger (38). The temperature of the air sent to each indoor heat exchanger (38) is adjusted when passing through each indoor heat exchanger (38). The temperature-adjusted air flows downward through the indoor heat exchangers (38) in the casing (34) and is supplied into the room from the blower outlet (23) of the decorative panel (21).

-Effect of the embodiment-
In the above embodiment, the refrigerant pipes (11, 12) connected to the indoor heat exchanger (38) and the drain pipe (18) connected to the drain pump (41) are connected to the longitudinal side of the box-shaped casing (34). It comes out from the side (34a). That is, from the short side surface (34b) of the casing (34), the refrigerant pipe (11 , 12) and drain pipe (18) are not coming out. Therefore, a plurality of indoor units (13, 13,...) Can be arranged side by side with the short side surfaces (34b) of the casings (34) in contact with each other or close to each other.

  If the indoor unit (13) is thinned, the area of the indoor heat exchanger (38) may be reduced, and a predetermined air conditioning capacity may not be obtained with one indoor unit (13). In such a case, it is possible to obtain a sufficient air conditioning capability by arranging the plurality of indoor units (13) side by side. And, the side surfaces (34b) on the short side of each casing (34) are arranged side by side in contact with or close to each other than the side surfaces (34a) on the long side are arranged in contact or in proximity to each other. However, it often matches the direction of the lighting fixture, etc., and is excellent in design. Furthermore, in this embodiment, the longitudinal direction of the air outlet (23) and the direction in which the indoor units (13) are arranged coincide with each other. Therefore, it is possible to improve the design as viewed from the room when the plurality of indoor units (13) are arranged side by side. Moreover, since the longitudinal direction of a blower outlet (23) and the direction which arrange | positions an indoor unit (13) correspond, a blowout flow does not mutually interfere.

  Moreover, in the said embodiment, refrigerant | coolant piping (11,12) and drain piping (18) are taken out from the same side surface (34a). Therefore, connecting the piping outside the indoor unit (13) of the refrigerant piping (11, 12) to the indoor unit (13) and connecting the piping outside the indoor unit (13) of the drain piping (18) to the indoor unit (13) Since the work to connect to can be performed from the same side of the casing (34), these connection work can be easily performed. In addition, since the refrigerant pipe (11, 12) and the drain pipe (18) come out from the same side of the casing (34), the refrigerant pipe (11, 12) and the drain pipe (18) around the casing (34) The arrangement state is not complicated.

  Moreover, in the said embodiment, it is the highest in the bottom face of a drain receiving part (42) by inclining so that the bottom face of the drain receiving part (42) of a drain pan (40) may become low toward the center from the both ends of a longitudinal direction. The distance from the part to the lowest part is made relatively short. Therefore, the height difference of the bottom surface that defines the height of the drain receiving portion (42) can be made relatively small, so that the height of the drain receiving portion (42) can be reduced. Accordingly, since the height of the portion corresponding to the drain receiving portion (42) in the casing (34) can be reduced, the overall height of the casing (34) can be reduced. The indoor unit (13) installed on the ceiling is often subject to height restrictions because the main unit (20) is stored behind the ceiling. Therefore, since the indoor unit (13) can be thinned, it is difficult to be restricted by the height.

  Moreover, in the said embodiment, the refrigerant | coolant piping (11,12) connected to the longitudinal direction one end side of the casing (34) in an indoor heat exchanger (38) is made into the casing (34) in a side surface (34a) of a longitudinal side. The refrigerant pipes (11, 12) are separated from the drain pipe (18) in the casing (34) by being taken out from one end side in the longitudinal direction. Therefore, the workability of assembling the refrigerant pipes (11, 12) and the drain pipe (18) to the casing (34) in assembling the indoor unit (13) is improved. In addition, for example, when the work for connecting the portion outside the indoor unit (13) of the refrigerant pipe (11, 12) to the indoor unit (13) is performed, the tool used in the work does not interfere with the drain pipe (18). The workability of the connection work is also improved. Moreover, when a heat insulating material is wound around the refrigerant pipes (11, 12) without providing the pipe drain receiving part (43), the workability of the winding work is also improved.

  Moreover, in the said embodiment, since the distance from the connection location of the refrigerant | coolant piping (11,12) of an indoor heat exchanger (38) to the connection port (14) for refrigerant | coolant piping is short, of refrigerant | coolant piping (11,12) The length of the portion on the indoor unit (13) side can be shortened.

-Modification 1 of embodiment-
A first modification of the embodiment will be described. FIG. 4 shows the indoor unit (13) of the first modification. In the first modification, the drain reservoir (44) is disposed at the position of the pipe drain receiver (43) without providing the pipe drain receiver (43) of the above embodiment. In this case, a drain piping connection port (15) is provided on one end side of one longitudinal side surface (34a) of the casing (34) adjacent to the refrigerant piping connection port (14).

-Modification 2 of embodiment-
A second modification of the embodiment will be described. An indoor unit (13) of the second modification is shown in FIG. In the second modification, both the connection port (14) for the refrigerant pipe and the connection port (15) for the drain pipe are provided at the center of one longitudinal side surface (34a) of the casing (34). Yes. In this case, in the casing (34), the refrigerant pipes (11, 12) and the drain pipe (18) are bent in the same direction at the corners of the casing (34) closest to the drain pump (41), and the longitudinal side Are disposed along the side surface (34a) of the first and second connection ports (14, 15). A heat insulating material is wound around the longitudinal side surface (34a) of the refrigerant pipe (11, 12). As shown in FIG. 6, a portion along the longitudinal side surface (34 a) of the refrigerant pipe (11, 12) is covered with a heat insulating member that covers the inner wall of the casing (34) outside the indoor heat exchanger (38). It may be embedded in 33).

<< Other Embodiments >>
About the said embodiment, the shape of a casing (34) may not be a rectangular parallelepiped shape, but should just be a shape which has a long side and a short side by planar view.

  Moreover, about the said embodiment, as shown in FIG. 7, you may make it arrange | position a drain pump (41) on the outer side of an indoor heat exchanger (38). In this case, between each drain receiving part (42), the connection part (45) in which a bottom face inclines to one end side is provided, and a drain reservoir part (44) continues on the outer side of one drain receiving part (42). Formed. Moreover, since there is a drain reservoir (44), the outlet (23) is divided into two at the center in the longitudinal direction.

  Moreover, about the said embodiment, you may make it provide the intermediate unit (16) which accommodates functional members, such as a filter, between a main body unit (20) and a decorative panel (21).

  In addition, the above embodiment is an essentially preferable illustration, Comprising: It does not intend restrict | limiting the range of this invention, its application thing, or its use.

  As described above, the present invention is useful for an indoor unit of an air conditioner installed on a ceiling.

It is a perspective view of the indoor unit which concerns on embodiment of this invention. It is II-II sectional drawing of the indoor unit which concerns on embodiment of this invention. It is a top view which omitted a part of indoor unit concerning the embodiment of the present invention. It is a cross-sectional view of an indoor unit according to Modification 1 of the embodiment of the present invention. It is a cross-sectional view of the indoor unit which concerns on the modification 2 of embodiment of this invention. It is a longitudinal cross-sectional view of the transversal direction of the indoor unit which concerns on the modification 2 of embodiment of this invention. It is a cross-sectional view of an indoor unit according to another embodiment.

Explanation of symbols

11 Liquid side refrigerant piping (refrigerant piping)
12 Gas side refrigerant piping (refrigerant piping)
13 Indoor unit
18 Drain piping
34 Casing
34a Longitudinal side
34b Short side
38 Indoor heat exchanger
40 Drain pan
41 Drain pump
42 Drain receiver
44 Drain reservoir

Claims (7)

A box-shaped casing (34) and an indoor heat exchanger (38) accommodated in the casing (34), an indoor unit of an air conditioner installed on a ceiling,
The indoor unit of an air conditioner, wherein the refrigerant pipes (11, 12) connected to the indoor heat exchanger (38) protrude from a longitudinal side surface (34a) of the casing (34). In claim 1,
In the casing (34), a drain pan (40) installed under the indoor heat exchanger (38) and drain water accumulated in the drain pan (40) are discharged to the outside of the casing (34). While the drain pump (41) is housed,
The indoor unit of an air conditioner, wherein a drain pipe (18) connected to the drain pump (41) protrudes from a longitudinal side surface (34a) of the casing (34). In claim 2,
The indoor unit of an air conditioner, wherein the refrigerant pipe (11, 12) and the drain pipe (18) protrude from the same longitudinal side surface (34a) of the casing (34). In claim 2 or 3,
The indoor heat exchanger (38) is arranged along the longitudinal direction of the casing (34),
The drain pan (40) extends along the indoor heat exchanger (38) and has a drain receiving portion (42) inclined so that its bottom surface is lowered from both ends in the longitudinal direction toward the center, and the drain pump ( 41) for providing a drain reservoir (44) formed continuously in the center of the drain receiving part (42),
The indoor unit of an air conditioner, wherein the drain pipe (18) protrudes from a central portion in a longitudinal direction of a side surface (34a) on a longitudinal side of the casing (34). In claim 4,
The refrigerant pipes (11, 12) are connected to one end side in the longitudinal direction of the casing (34) in the indoor heat exchanger (38), and in the longitudinal direction of the casing (34) on the side surface (34a) on the long side. An indoor unit of an air conditioner characterized by coming out from one end side. In any one of Claims 1 thru | or 3,
The indoor heat exchanger (38) is arranged along the longitudinal direction of the casing (34),
The refrigerant pipes (11, 12) are connected to one end side in the longitudinal direction of the casing (34) in the indoor heat exchanger (38), and in the longitudinal direction of the casing (34) on the side surface (34a) on the long side. An indoor unit of an air conditioner characterized by coming out from one end side. In any one of Claims 1 thru | or 6,
A decorative panel (21) attached to the lower surface of the casing (34) and having an air outlet (23) for supplying conditioned air into the room,
The indoor unit of the air conditioner, wherein the air outlet (23) extends in a longitudinal direction of the casing (34).

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