WO2023032381A1

WO2023032381A1 - Indoor air conditioner

Info

Publication number: WO2023032381A1
Application number: PCT/JP2022/022527
Authority: WO
Inventors: 学弘和阪; 康崇大谷
Original assignee: ダイキン工業株式会社
Priority date: 2021-08-30
Filing date: 2022-06-02
Publication date: 2023-03-09
Also published as: JP2023034196A

Abstract

An indoor air conditioner installed in a ceiling space through an opening (O) formed in the ceiling of a given space (S) is provided with: a casing (45); a utility heat exchanger (42) disposed in the casing (45); connection pipes (31A, 31B), one end of which communicates with the utility heat exchanger (42) and the other end of which passes through a side wall (47) of the casing (45) and extends to the outside of the casing (45); and, flareless joint members (60A, 60B) provided to the other end of the connection pipes (31A, 31B) and connected to communication pipes (12A, 12B). When the casing (45) is installed in the ceiling space through the opening (O), the end sections of the flareless joint members (60A, 60B) are positioned inside the opening (O).

Description

indoor air conditioner

This disclosure relates to indoor air conditioners.

Patent Document 1 discloses a joint member applied to an air conditioner or the like. This joint member is a flareless joint member that does not require operations such as flaring and welding. Flareless joint members are provided in advance at the ends of refrigerant pipes in outdoor air conditioners and indoor air conditioners. When installing the outdoor air conditioner and the indoor air conditioner, a worker connects the communication pipe and the flareless joint member.

Patent No. 6822513

In the ceiling-embedded indoor air conditioner, the joint member is provided so as to protrude outward from the casing side wall. In an indoor air conditioner using a flareless joint member, the tip of the flareless joint member is located relatively far from the side wall of the casing. As a result, the flareless joint member may be damaged.

For this reason, it is necessary to insert the indoor air conditioner into the ceiling opening by tilting it so that the flareless joint member does not touch the edge of the opening in the ceiling. may become.

An object of the present disclosure is to provide an indoor air conditioner equipped with a flareless joint member that can be easily installed in the ceiling space.

A first aspect is an indoor air conditioner installed above the ceiling through an opening (O) formed in the ceiling of a target space (S), comprising a casing (45) and a A heat utilization heat exchanger (42) disposed, one end communicating with the heat utilization heat exchanger (42) and the other end penetrating the side wall (47) of the casing (45) to the outside of the casing (45) extending connecting pipes (31A, 31B); flareless joint members (60A, 60B) provided at the other ends of the connecting pipes (31A, 31B) and connected to the connecting pipes (12A, 12B); (45) is installed behind the ceiling through the opening (O), the ends of the flareless joint members (60A, 60B) are located inside the opening (O), be.

In the first mode, when inserting the casing (45) into the ceiling opening (O), the ends of the flareless joint members (60A, 60B) can be prevented from contacting the edge of the opening (O). As a result, the casing (45) is tilted and inserted into the opening (O) so that the ends of the flareless joint members (60A, 60B) do not come into contact with each other, or the parts (nuts) of the flareless joint are removed in advance before the opening ( O) can be saved, so the installation work of the casing (45) can be performed relatively easily. In addition, the flareless joint members (60A, 60B) can be seen when looking up from directly below the opening (O) in the installed state where the casing (45) is arranged above the ceiling. Therefore, the connection pipe and the flareless joint can be connected relatively easily.

A second aspect is the first aspect,
The opening (O) is formed by a rectangular opening edge (E), and in the installed state, the side wall (47) of the casing (45) extends along one side of the opening edge (E). 1 wall (47a), and a second wall (47b) which is continuous with the first wall (47a) and arranged inside the opening (O) from the first wall (47a). and the other ends of the connection pipes (31A, 31B) extend through the second wall (47b) toward the opening edge (E).

In the second mode, if the second wall (47b) is arranged inside the opening (O), the ends of the flareless joint members (60A, 60B) are also arranged inside the opening (O). can. This makes it possible to secure a work space for connecting the flareless joint members (60A, 60B) and the connecting pipes (12A, 12B) directly below the opening (O).

A third aspect is the second aspect,
The ends of the flareless joint members (60A, 60B) are positioned inside the opening (O) relative to the first wall (47a).

In the third aspect, in the installation work of the casing (45), the flareless joint members (60A, 60B) can be prevented from contacting the opening edges (E) at the ends thereof, and the flareless joint members (60A, 60B) and the flareless joint members (60A, 60B) It facilitates the connection work with the connecting pipes (12A, 12B).

A fourth aspect is the second aspect,
The flareless joint members (60A, 60B) are provided at the ends of the flareless joint members (60A, 60B) and have a joint body (61) formed with a male thread (62) and a joint body (61) corresponding to the male thread (62). and a nut (70) having an internal thread (73) and through which the connecting pipes (12A, 12B) are inserted. ) between the first wall (47a) and the opening edge (E).

In the fourth aspect, the nut (70) is visible from directly below the opening (O). This makes it easier to access the nut (70) with a tool, thereby facilitating the work of connecting the flareless joint members (60A, 60B) and the connecting pipes (12A, 12B).

A fifth aspect is the fourth aspect,
The flareless joint members (60A, 60B) are restraining members (90) that restrain the nuts (70) from being tightened toward the joint body (61) when the connecting pipes (12A, 12B) are not connected. Prepare.

In the fifth aspect, the nut (70) can prevent the joint body (61) from being excessively tightened. As a result, improper installation of the connecting pipes (12A, 12B) can be suppressed.

A sixth aspect is any one of the second to fifth aspects,
In the axial direction of the flareless joint members (60A, 60B), the distance from the second wall (47b) to the end of the flareless joint members (60A, 60B) is 77.5 mm to 106 mm.

In the sixth aspect, the distance from the second wall portion (47b) to the end portion of the flareless joint members (60A, 60B) in the cylindrical axis direction of the flareless joint members (60A, 60B) is 77.5 mm to 106 mm. , a sufficient space for connecting the flareless joint members (60A, 60B) and the connecting pipes (12A, 12B) can be secured.

A seventh aspect is any one of the second to sixth aspects,
The second wall (47b) is arranged at one of the four corners of the opening (O) in the installed state.

In the seventh aspect, by making the space at the corner of the opening (O) relatively wide, it is possible to facilitate the work of connecting the flareless joint members (60A, 60B) and the connecting pipes (12A, 12B).

In an eighth aspect, according to any one of the second to seventh aspects, the heat utilization exchanger (42) exchanges heat of the air flowing through the casing (45) with a refrigerant, and the connecting pipe (31A , 31B) includes a first connecting pipe (31A) connected to the gas side end of the heat utilization heat exchanger (42) and a second connecting pipe (31B) connected to the liquid side end of the heat utilization heat exchanger (42). ), wherein the flareless joint members (60A, 60B) include a first flareless joint member (60A) provided on the first connecting pipe (31A) and a second flareless joint member (60A) provided on the second connecting pipe (31B). and two flareless joint members (60B), and in the installed state, the first flareless joint member (60A) and the second flareless joint member (60B) are arranged between the second wall portion (47b) and the opening edge. Located between part (E).

In the eighth aspect, the first flareless joint member (60A) and the second flareless joint member (60B) are arranged at the same location, thereby improving the efficiency of the connection work to the connecting pipes (12A, 12B). .

A ninth aspect is the eighth aspect,
The second wall (47b) is provided with a holding member (49) for holding the casing (45) inside the ceiling space, and in the installed state, the first flareless joint member (60A), the The second flareless joint member (60B) and the holding member (49) are arranged so as not to overlap when viewed from directly below the opening (O), and when viewed from the front of the second wall (47b) They are arranged in a staggered pattern.

In the ninth aspect, the first flareless joint member (60A), the second flareless joint member (60B), and the holding member (49) are arranged in a zigzag manner, so that work such as installation of connecting pipes is relatively easy. Easy to do.

A tenth aspect is any one of the first to ninth aspects,
A heat insulating material (39) is provided on the outer peripheral surface of the connecting pipes (31A, 31B).

In the tenth aspect, since the heat insulating material (39) can be provided at the time of shipment of the indoor air conditioner, the trouble of providing the heat insulating material (39) at the time of installation at the site can be saved.

FIG. 1 is a piping system diagram of an air conditioner according to an embodiment. FIG. 2 is a longitudinal sectional view showing the configuration of the indoor unit. FIG. 3 is a three-dimensional perspective view of the casing. FIG. 4 is a partially enlarged view of the casing when the first side wall is viewed from the front. FIG. 5 is an enlarged vertical cross-sectional view of a flareless joint member to which no connecting pipe is connected. FIG. 6 is a partially enlarged view of the casing seen from above in the installed state. FIG. 7 is a vertical cross-sectional view of the flareless joint member after the retaining member is deformed by inserting the connecting pipe and tightening the nut.

Hereinafter, embodiments of the present disclosure will be described 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 applications, or its uses.

This embodiment is an air conditioner (10). The air conditioner (10) constitutes a refrigeration system having a refrigerant circuit (11). An air conditioner (10) has an outdoor unit (20) and an indoor unit (40). The outdoor unit (20) and the indoor unit (40) each constitute a refrigerating device unit of the present disclosure. The outdoor unit (20) and the indoor unit (40) are connected to each other on site via a gas communication pipe (12A) and a liquid communication pipe (12B). Thus, an air conditioner (10) having a refrigerant circuit (11) is assembled. The refrigerant circuit (11) performs a refrigeration cycle by circulating the filled refrigerant.

(1) Configuration of air conditioner The air conditioner (10) shown in FIG. 1 includes one outdoor unit (20), three indoor units (40), a gas connection pipe (12A), a liquid 12B). There may be two or more outdoor units (20). There may be one, two, or four or more indoor units (40). The outdoor unit (20) is installed outdoors. The indoor unit (40) is installed indoors. The outdoor unit (20) and the plurality of indoor units (40) are connected to each other via gas communication pipes (12A) and liquid communication pipes (12B). For convenience, the gas communication pipe (12A) and the liquid communication pipe (12B) may be referred to as the communication pipe (12) below.

(2) Outdoor unit The outdoor unit (20) is an outdoor air conditioner. The outdoor unit (20) has an outdoor refrigerant channel (21) which is a heat source circuit. A compressor (22), a four-way switching valve (23), an outdoor heat exchanger (24), and an outdoor expansion valve (25) are connected to the outdoor refrigerant flow path (21). The four-way switching valve (23) has four ports (P1, P2, P3, P4). The four-way switching valve (23) switches between a first state indicated by solid lines in FIG. 1 and a second state indicated by broken lines in FIG. The four-way switching valve (23) in the first state communicates between the first port (P1) and the fourth port (P4) and simultaneously communicates between the second port (P2) and the third port (P3). The four-way switching valve (23) in the second state communicates the first port (P1) and the second port (P2), and simultaneously communicates the third port (P3) and the fourth port (P4).

An outdoor fan (26) is provided in the outdoor unit (20). The outdoor fan (26) conveys air passing through the outdoor heat exchanger (24). In the outdoor heat exchanger (24), heat is exchanged between the refrigerant flowing therein and the outdoor air.

A gas shutoff valve (50A) is connected to the gas side end of the outdoor refrigerant flow path (21). A liquid shutoff valve (50B) is connected to the liquid side end of the outdoor refrigerant flow path (21). A gas communication pipe (12A) is connected to the end of the gas shutoff valve (50A). A liquid communication pipe (12B) is connected to the end of the liquid closing valve (50B). For convenience, the gas shutoff valve (50A) and the liquid shutoff valve (50B) may be referred to as the shutoff valve (50) below.

(3) Indoor Unit Each indoor unit (40) is an indoor air conditioner of the present disclosure. As shown in FIGS. 2 to 4, the indoor unit (40) of this example is of a ceiling installation type and is embedded in an opening (O) in the ceiling (C) of the room (S). The room (S) is the target space of the present disclosure. In the following description, when the indoor unit (40) is installed on the ceiling (C), the direction toward the ceiling is defined as upward, and the direction toward the room is defined as downward. Each indoor unit (40) includes a casing (45), a panel (51), and an indoor refrigerant channel (41), which is a utilization circuit. Flareless joint members (60A, 60B) are provided at both ends of the indoor refrigerant flow path (41).

(3-1) Casing The casing (45) is installed above the ceiling via an opening (O) formed in the ceiling. The casing (45) is shaped like a rectangular box with an open bottom. The casing (45) has a top plate (46) and side walls (47).

The top plate (46) is an octagonal plate-like member. Specifically, the outer edge of the top plate (46) is formed so that long sides and short sides are alternately arranged.

The side wall (47) has eight side walls from the first side wall (47a) to the eighth side wall (47h). The first side wall (47a) to the eighth side wall (47h) are arranged in order along the outer edge of the top plate (46). Specifically, the first side wall (47a), the third side wall (47c), the fifth side wall (47e), and the seventh side wall (47g) extend downward from the long side of the outer edge of the top plate (46). The second side wall (47b), the fourth side wall (47d), the sixth side wall (47f), and the eighth side wall (47h) extend downward from the short sides of the outer edge of the top plate (46).

The first side wall (47a) is the first wall (47a) of the present disclosure. The second side wall (47b) is the second wall (47b) of the present disclosure. The second side wall (47b) is continuous with the first side wall (47a). A stepped portion (33) is formed in the second side wall (47b). The stepped portion (33) is formed such that the central portion of the second side wall (47b) protrudes outward from the casing (45) when viewed from the top plate (46) side.

A claw member (49) is provided on the second side wall (47b), the fourth side wall (47d), the sixth side wall (47f), and the eighth side wall (47h). The claw member (49) is a metal plate member for holding the casing (45) in the ceiling space. Specifically, each claw member (49) protrudes outside the casing from a substantially central height position of each side wall (47b, 47d, 47f, 47h). The claw member (49) is formed with a recessed notch so that it can be engaged with a rod-shaped hanging tool provided in the ceiling space. The claw member (49) of the second side wall (47b) is arranged closer to the third side wall (47c). In other words, the claw member (49) of the second side wall (47b) is arranged at the right end when the second side wall (47b) is viewed from the front. The pawl member (49) is the retaining member (49) of the present disclosure.

The second side wall (47b) is provided with through-holes (32a, 32b) through which connecting pipes (31A, 31B) described later pass. The through holes (32a, 32b) of this example have a first through hole (32a) and a second through hole (32b). The first through hole (32a) and the second through hole (32b) are formed in the stepped portion (33). The claw member (49), the first through hole (32a) and the second through hole (32b) are arranged in order from the third side wall (47c) toward the first side wall (47a). The claw member (49) of the second side wall (47b) and the second through hole (32b) are arranged at substantially the same height when the second side wall (47b) is viewed from the front. The first through hole (32a) is arranged slightly above the second through hole (32b).

(3-2) Panel The panel (51) is detachably attached to the casing (45) so as to cover the lower end of the casing (45). The panel (51) is one size larger than the casing (45) when viewed from below, and is exposed to the room while covering the opening (O) formed in the ceiling (C).

A single suction port (52) is formed in the center of the panel (51). The suction port (52) is provided with a suction grille (53) and a filter (54) located downstream of the suction grille (53). The filter (54) traps dust contained in the air drawn into the casing (45) from the suction grille (53).

A plurality of outlets (55) are formed around the suction port (52) in the panel (51). The outlets (55) are, for example, four first outlets formed along the four sides of the panel (51), and four first outlets formed along the four corners of the panel (51). and a second outlet. A flap (56) for adjusting the wind direction is provided inside each outlet (55).

(3-3) Devices Arranged in Casing Predetermined devices such as an indoor fan (44), an indoor heat exchanger (42), and an indoor expansion valve (43) are arranged in the casing (45). .

The indoor fan (44) conveys air passing through the indoor heat exchanger (42). The indoor heat exchanger (42) heat-exchanges the air flowing inside the casing (45) with the refrigerant flowing inside. The indoor heat exchanger (42) is the utilization heat exchanger (42) of the present disclosure.

The indoor heat exchanger (42) is composed of a fin-and-tube heat exchanger. The indoor heat exchanger (42) is arranged to surround the indoor fan (44). The indoor heat exchanger (42) is arranged to cover the inner surface of the side wall (47). One end of the indoor heat exchanger (42) is arranged near the joint between the first side wall (47a) and the second side wall (47b). The other end of the indoor heat exchanger (42) is arranged near the joint between the second side wall (47b) and the third side wall (47c) (see FIG. 6). The indoor heat exchanger (42) and the indoor expansion valve (43) are connected to the indoor refrigerant flow path (41).

The ends of the indoor refrigerant flow path (41) constitute connection pipes (31A, 31B) of the present disclosure. One ends of the connecting pipes (31A, 31B) communicate with the indoor heat exchanger (42). The other ends of the connection pipes (31A, 31B) penetrate the side wall (47) of the casing (45) and extend outside the casing (45). Specifically, the connecting pipes (31A, 31B) have a first connecting pipe (31A) and a second connecting pipe (31B). The first connecting pipe (31A) constitutes the gas side end of the indoor refrigerant flow path (41). The second connection pipe (31B) constitutes the liquid-side end of the indoor refrigerant flow path (41). In other words, the first connection pipe (31A) is connected to the gas side end of the indoor heat exchanger (42). The second connection pipe (31B) is connected to the liquid side end of the indoor heat exchanger (42). The first connection pipe (31A) is inserted through the first through hole (32a). The second connection pipe (31B) is inserted through the second through hole (32b). A heat insulating material (39) is wrapped around the first connecting pipe (31A) and the second connecting pipe (31B).

Flareless joint members (60A, 60B) are provided at ends (other ends) of the connection pipes (31A, 31B). The flareless joint members (60A, 60B) have a first flareless joint member (60A) and a second flareless joint member (60B). The first flareless joint member (60A) is provided on the first connection pipe (31A). The second flareless joint member (60B) is provided on the second connection pipe (31B). Hereinafter, for convenience, the first flareless joint member (60A) and the second flareless joint member (60B) may be referred to as flareless joint members (60A, 60B).

(3-3) Flareless Joint Member As shown in FIG. 5, the flareless joint member (60A, 60B) includes a joint body (61), a nut (70), and a retaining member (80).

The joint main body (61) is provided integrally with the ends of the connecting pipes (31A, 31B). The joint body (61) has a tubular base (61a) and a tubular fastening portion (61b) protruding axially outward from the base (61a). The outer diameter of the base (61a) is larger than the outer diameter of the joint body (61). An annular stepped surface (61c) is formed between the base (61a) and the fastening portion (61b). A male thread (62) is formed on the outer peripheral surface of the fastening portion (61b). The tip of the joint body (61) is formed with a joint-side tapered surface (63) whose diameter decreases outward in the axial direction of the cylinder.

The nut (70) has a substantially cylindrical nut body (71) and a diameter-reduced portion (72) whose diameter decreases outward from the nut body (71) in the axial direction of the cylinder. A female thread (73) corresponding to the male thread (62) of the joint body (61) is formed on the inner peripheral surface of the nut body (71). A nut-side tapered surface (74) whose diameter increases inward in the cylinder axial direction is formed inside the reduced diameter portion (72). A nut-side opening (75) communicating with the inside of the connection pipe (31A, 31B) is formed in the reduced diameter portion (72).

The retaining member (80) is accommodated in the internal space (N) between the fastening portion (61b) of the joint body (61) and the nut (70). The retaining member (80) is formed in a substantially cylindrical shape. The axial length of the retaining member (80) is shorter than the diameter of the retaining member (80). The retaining member (80) is made of a material that undergoes plastic deformation when subjected to an axial compressive force.

An annular groove having the same axial center as the retaining member (80) is formed in the inner peripheral surface of the retaining member (80). An O-ring (85) is fitted inside the annular groove.

A first tapered surface (81) is formed on the retainer member (80) at its side end near the joint body (61) in the cylinder axis direction. The first tapered surface (81) increases in diameter toward the joint body (61). The first tapered surface (81) has a shape along the joint side tapered surface (63).

A second tapered surface (82) is formed on the retaining member (80) at its side end far from the joint body (61) in the cylinder axis direction. The second tapered surface (82) increases in diameter toward the joint body (61). The second tapered surface (82) has a shape along the nut side tapered surface (74).

Before the indoor unit (40) is installed, the flareless joint members (60A, 60B) have a spacer (90) and a lid member (91).

The spacer (90) is the restraining member (90) of the present disclosure. The spacer (90) prevents the nut (70) from being tightened toward the joint body (61) when the flareless joint members (60A, 60B) are not connected to the connecting pipes (12A, 12B). The spacer (90) is annularly formed. The spacer (90) is arranged between the base (61a) of the joint body (61) and the nut (70). In other words, the spacer (90) is provided around the male thread (62) so as to be positioned between the joint body (61) and the nut (70). The spacer (90) faces the stepped surface (61c) of the joint body (61). The spacer (90) is made of a material having lower rigidity than the joint body (61) and the nut (70). The spacer (90) is made of synthetic resin such as polypropylene. The spacer (90) may be an elastically deformable resin material.

A slit may be made in a part of the annular spacer (90) to form a C shape. This allows the spacer (90) to be easily removed from the flareless joint members (60A, 60B) without removing the nut (70).

The lid member (91) is fitted into the nut side opening (75). The lid member (91) has a disk-shaped closing portion (92) and a cylindrical insertion portion (93) protruding from the closing portion (92) toward the back of the nut-side opening (75). . The closing portion (92) closes the nut-side opening (75). The insertion portion (93) is fitted inside the nut side opening (75). The lid member (91) is made of a material having lower rigidity than the nut (70) and the joint body (61). The lid member (91) is made of synthetic resin such as polypropylene. The lid member (91) may be made of an elastically deformable resin material.

(4) Operating Behavior The air conditioner (10) performs a cooling operation and a heating operation.

　In cooling operation, the four-way switching valve (23) is in the first state. The refrigerant compressed by the compressor (22) releases heat in the outdoor heat exchanger (24) and is condensed, and then sent to each indoor unit (40). In each indoor unit (40), the refrigerant is decompressed by the indoor expansion valve (43) and then flows through the indoor heat exchanger (42). In the indoor heat exchanger (42), the refrigerant absorbs heat from the air and evaporates. The air cooled by the indoor heat exchanger (42) is supplied indoors. The evaporated refrigerant is sucked into the compressor (22).

　In heating operation, the four-way switching valve (23) is in the second state. Refrigerant compressed by the compressor (22) is sent to each indoor unit (40). In each indoor unit (40), the refrigerant releases heat and condenses in the indoor heat exchanger (42). The air heated by the indoor heat exchanger (42) is supplied indoors. The condensed refrigerant is decompressed by the outdoor expansion valve (25) and then evaporated by the outdoor heat exchanger (24). The evaporated refrigerant is sucked into the compressor (22).

(5) Arrangement of Flareless Joint Members Arrangement of the flareless joint members (60A, 60B) in the indoor unit (40) of the present embodiment will be described with reference to FIG. The indoor unit (40) is in an installed state in which the casing (45) is installed above the ceiling through the opening (O) of the ceiling (C). The flareless joint members (60A, 60B) are not connected to the connecting pipes (12A, 12B).

The opening edge (E), which is the edge of the opening (O) in the ceiling (C), is formed in a rectangular shape. The casing (45) has a first side wall (47a), a third side wall (47c), a fifth side wall (47e), and a seventh side wall (47g) parallel to one side of the opening edge (E) facing each other. are arranged so that Assuming that one side of the opening edge (E) facing the first wall (47a) is the first side (E1), there is a predetermined distance between the first wall (47a) and the first side (E1). Intervals are provided. The second side wall (47b) is arranged further inside the opening (O) than the first side wall (47a) and the first side (E1). In other words, the second side wall (47b) is arranged inside the opening (O) than the first side wall (47a).

By arranging the casing (45) in this manner with respect to the opening edge (E), the second side wall (47b), the fourth side wall (47d), the sixth side wall (47f), and the eighth side wall ( 47h) are placed in the corners of the aperture (O). Since the side wall (47) is formed in an octagonal shape when viewed from directly below the opening (O), spaces of a predetermined size can be secured at the four corners of the opening (O).

The other ends of the connection pipes (31A, 31B) pass through the second wall (47b) and extend toward the first side (E1). Specifically, the end of the first connection pipe (31A) extends through the first through hole (32a) of the second wall (47b) toward the first side (E1). The end of the second connection pipe (31B) extends through the second through hole (32b) of the second wall (47b) toward the first side (E1).

Since the flareless joint members (60A, 60B) are provided at the ends of the connecting pipes (31A, 31B), the first flareless joint member (60A) and the second flareless joint member (60B) are Extends towards (E1). The end of the first flareless joint member (60A) and the end of the second flareless joint member (60B) are located inside the opening (O). In the axial direction of the flareless joint members (60A, 60B), the distance from the second side wall (47b) to the ends of the flareless joint members (60A, 60B) is 77.5 mm to 106 mm. In this example, the distance (d1 in FIG. 6) from the first through hole (32a) to the end of the first flareless joint member (60A) is 106 mm. The distance (d2 in FIG. 6) from the second through-hole (32b) to the end of the second flareless joint member (60B) is 106 mm from the center of.

The first flareless joint member (60A) and the second flareless joint member (60B) are located between the second wall (47b) and the first side (E1). More specifically, in the flareless joint members (60A, 60B), the tip of the nut (70) provided at the end of the flareless joint members (60A, 60B) is aligned with the axial direction of the flareless joint members (60A, 60B). It is located between the first wall (47a) and the first side (E1). The distance from the end of the first flareless joint member (60A) to the first side (E1) is the same as the distance from the end of the second flareless joint member (60B) to the first side (E1). may be different.

When the second side wall (47b) is viewed from the front, the pawl member (49), the first flareless joint member (60A), and the second side wall (47a) are arranged in this order from the third side wall (47c) toward the first side wall (47a). A flareless joint member (60B) is arranged (see FIG. 4).

The claw member (49) and the second flareless joint member (60B) are at substantially the same height position on the second side wall (47b). The height position of the first flareless joint member (60A) is slightly higher than the second flareless joint member (60B). Specifically, the height position of the lower end of the first flareless joint member (60A) is higher than the height position of the upper end of the second flareless joint member (60B).

By arranging the first flareless joint member (60A) and the second flareless joint member (60B) on the second side wall (47b) in this manner, the first flareless joint member (60A), the second flareless joint member (60A), and the second flareless joint member (60A) 2. The flareless joint member (60B) and the claw member (49) are arranged so as not to overlap when viewed from directly below the opening (O), and are staggered when viewed from the front of the second wall (47b). placed.

(6) Installation work of the indoor unit (6-1) Installation of the indoor unit above the ceiling When installing the indoor unit (40), install the shipped indoor unit (40) above the ceiling. The indoor unit (40) is embedded in the ceiling space. At this time, the indoor unit (40) is placed in the ceiling through the ceiling opening (O) from the room side.

As described above, the end portion of the first flareless joint member (60A) and the end portion of the second flareless joint member (60B) are located inside the opening (O) in the installed state. Even if the casing (45) is pushed straight up from directly below (O), each end of the first flareless joint member (60A) and the second flareless joint member (60B) will remain at the opening edge (E) of the opening (O). ) can be avoided. Accordingly, the operator can open (O) the casing (45) while changing the posture of the casing (45) so that the ends of the flareless joint members (60A, 60B) do not contact the opening edge (E). This eliminates the need for operations such as inserting into

The flareless joint members (60A, 60B) are provided with lid members (91). Therefore, it is possible to prevent dust and the like from entering the internal flow path (64) of the joint body (61) during transportation of the indoor unit (40).

Spacers (90) are provided on the flareless joint members (60A, 60B). When the indoor unit (40) is transported, if the nut (70) is tightened to the joint body (61) due to the influence of vibration, the retaining member (80) is plastically deformed. function will be lost. Since the spacer (90) prevents the nut (70) from being tightened, plastic deformation of the retaining member (80) can be reliably avoided.

(6-2) Connection of flareless joint members and connecting pipes When connecting flareless joint members (60A, 60B) and connecting pipes (12A, 12B), remove the cover member (91) and spacer (90), then Insert the tip of the pipe (12) into the nut (70) and the retaining member (80).

When the nut (70) is further tightened to the joint body (61), the first tapered surface (81) of the retaining member (80) comes into contact with the joint-side tapered surface (63) and the first tapered surface (63) of the retaining member (80) The two-tapered surface (82) contacts the nut-side tapered surface (74).

When the nut (70) is further tightened to the joint body (61) in this state, the retaining member (80) is compressed axially (in the direction of the white arrow in FIG. 7) as shown in FIG. (80) undergoes radial plastic deformation. As a result, the inner peripheral surface of the retaining member (80) comes into strong surface contact with the outer peripheral surface of the connecting pipe (12), thereby holding the connecting pipe (12) inside the flareless joint members (60A, 60B). be.

Since each flareless joint member (60A, 60B) is visible from directly below the opening (O), the worker can perform the above work in a relatively comfortable posture. This makes it possible to suppress problems such as poor connection between the flareless joint members (60A, 60B) and the connecting pipes (12A, 12B).

In the indoor unit (40) before installation, the nuts (70) and retaining members (80) are set in advance on the flareless joint members (60A, 60B). Therefore, the worker does not need to separately prepare the nut (70) and the retaining member (80) when connecting the connecting pipe (12). As a result, the work of connecting the connecting pipe (12) in the indoor unit (40) can be simplified.

(7) Features (7-1)
The indoor unit (40) of the present embodiment has flareless joint members (60A, 60B) provided at the ends of connection pipes (31A, 31B) extending outside the casing (45). When installed in the ceiling space, the ends of the flareless joint members (60A, 60B) are positioned inside the opening (O). As a result, when the indoor unit (40) is installed above the ceiling from the room (S) side, the ends of the flareless joint members (60A, 60B) collide with the edge of the opening (O) of the ceiling (C). can be avoided. As a result, it is possible not only to avoid failure of the flareless joint members (60A, 60B), but also to avoid damage to the ceiling.

(7-2)
In the installed state, the casing (45) of the indoor unit (40) of the present embodiment includes a first side wall (47a) extending along one side of the opening edge (E) and continuing to the first side wall (47a), and a second side wall (47b) arranged inside the opening (O) from the first side wall (47a). The connecting pipes (31A, 31B) pass through the second side wall (47b) and extend toward one side of the opening edge (E) facing the first side wall (47a). By forming the casing (45) so that the second side wall (47b) is positioned further inside the opening (O), the ends of the flareless joint members (60A, 60B) are also positioned further inside the opening (O). can be placed in This reliably prevents the flareless joint members (60A, 60B) from coming into contact with the opening edge (E) when the indoor unit (40) is installed above the ceiling.

(7-3)
In the indoor unit (40) of the present embodiment, the tips of the nuts (70) of the flareless joint members (60A, 60B) are positioned between the first side wall (47a) and the second side wall (47a) in the axial direction of the flareless joint members (60A, 60B). 1 side wall (47a) and the opposite opening edge (E). By arranging the nut (70) at such a position, the nut (70) can be visually recognized from directly below the opening (O). This makes it easier for a tool to access the nut (70), making it relatively easy to connect the flareless joint members (60A, 60B) and the connecting pipes (12A, 12B). In addition, the trouble of removing the nut (70) before inserting the casing (45) into the opening (O) can be saved.

(7-4)
The flareless joint members (60A, 60B) of the indoor unit (40) of the present embodiment suppress tightening of the nut (70) toward the joint body (61) when the connecting pipes (12A, 12B) are not connected. A suppressing member (90) is provided. As a result, excessive tightening by the nut (70) can be suppressed, and poor installation of the connecting pipes (12A, 12B) can be suppressed.

(7-5)
In the indoor unit (40) of the present embodiment, the distance from the second side wall (47b) to the ends of the flareless joint members (60A, 60B) in the cylindrical axis direction of the flareless joint members (60A, 60B) is 77.5 mm. 5 mm to 106 mm. Arranging the flareless joint members (60A, 60B) at such positions ensures sufficient space for connecting the flareless joint members (60A, 60B) and the connecting pipes (12A, 12B).

(7-6)
In the indoor unit (40) of the present embodiment, the second side wall (47b) is arranged at one of the four corners of the rectangular opening (O). Since a relatively large space can be secured at the corners of the opening (O), it is possible to easily connect the flareless joint members (60A, 60B) and the connecting pipes (12A, 12B).

(7-7)
In the indoor unit (40) of the present embodiment, in the installed state, the first flareless joint member (60A) and the second flareless joint member (60B) are positioned between the second side wall (47b) and the opening edge (E). Located in Since the first flareless joint member (60A) and the second flareless joint member (60B) are arranged at the same place in this way, the efficiency of connecting the gas connection pipe (12A) and the liquid connection pipe (12B) can be improved. can be raised.

(7-8)
In the indoor unit (40) of the present embodiment, in the installed state, the first flareless joint member (60A), the second flareless joint member (60B), and the pawl member (49) are positioned as are arranged so as not to overlap each other, and are arranged in a zigzag pattern when viewed from the front of the second side wall (47b). With this arrangement, the connection work between the first flareless joint member (60A) and the gas communication pipe (12A) and the connection work between the second flareless joint member (60B) and the liquid communication pipe (12B) are relatively easy. Easy to do. If the first flareless joint member (60A), the second flareless joint member (60B), and the pawl member (49) were arranged in a row, the first flareless joint member (60A) and the gas communication pipe ( 12A), the second flareless joint member (60B) or the claw member (49) may be hit by the tool. However, such an arrangement facilitates the connection work.

(7-9)
In the indoor unit (40) of the present embodiment, a heat insulating material (39) is provided on the outer peripheral surface of the connection pipes (31A, 31B). As a result, the indoor unit (40) can be shipped with the heat insulating material (39) provided. This eliminates the need to install the heat insulating material (39) on site when installing the indoor unit (40).

(8) Other Embodiments The ends of the flareless joint members (60A, 60B) are located inside the opening (O) relative to the first wall (47a) on the cylindrical axis of the flareless joint members (60A, 60B). may be located. By arranging the first flareless joint member (60A) and the second flareless joint member (60B) at such positions, the work of installing the indoor unit (40) in the ceiling can be facilitated, and each connecting pipe can be easily installed. (12A, 12B) can be easily connected.

Although the embodiments and modifications have been described above, it will be understood that various changes in form and details are possible without departing from the spirit and scope of the claims. In addition, the above embodiments, modifications, and other embodiments may be appropriately combined or replaced as long as the functions of the object of the present disclosure are not impaired. The descriptions of "first", "second", etc. described above are used to distinguish the words and phrases to which these descriptions are given, and the number and order of the words and phrases are not limited.

The present disclosure is useful for indoor air conditioners.

S target space O opening

E opening edge

12A, 12B connecting pipe 31A first connecting pipe (connecting pipe)
31B second connection pipe (connection pipe)
39 Insulation
42 indoor heat exchanger (use heat exchanger)
45 Casing
47 side wall 47a first side wall (first wall portion)
47b second side wall (second wall)
49 Claw member (holding member)
60A first flareless joint member (flareless joint member)
60B Second flareless joint member (flareless joint member)
61 joint body 62 male thread 70 nut 73 female thread 90 spacer (restraining member)

Claims

An indoor air conditioner installed behind the ceiling through an opening (O) formed in the ceiling of the target space (S),
a casing (45);
a utilization heat exchanger (42) disposed within the casing (45);
connection pipes (31A, 31B) having one end communicating with the heat utilization heat exchanger (42) and having the other end penetrating the side wall (47) of the casing (45) and extending to the outside of the casing (45);
a flareless joint member (60A, 60B) provided at the other end of the connection pipe (31A, 31B) and connected to the connecting pipe (12A, 12B),
In an installation state in which the casing (45) is installed above the ceiling through the opening (O), the ends of the flareless joint members (60A, 60B) are located inside the opening (O). machine.
said opening (O) is formed by a rectangular opening edge (E),
In the installation state,
The side wall (47) of the casing (45) is
a first wall (47a) extending along one side of the opening edge (E);
a second wall (47b) that is continuous with the first wall (47a) and arranged inside the opening (O) from the first wall (47a);
The other ends of the connection pipes (31A, 31B) pass through the second wall (47b) and extend toward one side of the opening edge (E) facing the first wall (47a). Item 1. The indoor air conditioner according to item 1.
The indoor air conditioner according to claim 2, wherein the end portions of the flareless joint members (60A, 60B) are located inside the opening (O) relative to the first wall portion (47a).
The flareless joint members (60A, 60B) are
a joint body (61) provided at the end of the flareless joint member (60A, 60B) and formed with a male thread (62);
a nut (70) formed with a female thread (73) corresponding to the male thread (62) and through which the connecting pipes (12A, 12B) are inserted;
In the installation state,
The tip of the nut (70) is located between the first wall (47a) and the opening edge (E) facing the first wall (47a) in the axial direction of the flareless joint members (60A, 60B). 3. The indoor air conditioner according to claim 2, located between and.
The flareless joint members (60A, 60B) are restraining members (90) that restrain the nuts (70) from being tightened toward the joint body (61) when the connecting pipes (12A, 12B) are not connected. The indoor air conditioner according to claim 4, comprising:
The distance from the second wall portion (47b) to the end of the flareless joint member (60A, 60B) in the axial direction of the flareless joint member (60A, 60B) is 77.5 mm to 106 mm. 6. The indoor air conditioner according to any one of 2 to 5.
The indoor air conditioner according to any one of claims 2 to 6, wherein the second wall (47b) is arranged at one of the four corners of the opening (O) in the installed state.
The heat-utilizing heat exchanger (42) exchanges heat of the air flowing through the casing (45) with a refrigerant,
The connection pipes (31A, 31B) include a first connection pipe (31A) connected to the gas side end of the heat utilization exchanger (42) and a first connection pipe (31A) connected to the liquid side end of the heat utilization heat exchanger (42). 2 connecting pipes (31B),
The flareless joint members (60A, 60B) include a first flareless joint member (60A) provided on the first connection pipe (31A) and a second flareless joint member (60B) provided on the second connection pipe (31B). ) and
In the installation state,
The first flareless joint member (60A) and the second flareless joint member (60B) are located between the second wall (47b) and the opening edge (E) according to any one of claims 2 to 7. or 1 indoor air conditioner.
The second wall (47b) is provided with a holding member (49) for holding the casing (45) inside the ceiling,
In the installation state,
The first flareless joint member (60A), the second flareless joint member (60B), and the holding member (49) are arranged so as not to overlap when viewed from directly below the opening (O). 9. The indoor air conditioner according to claim 8, wherein the two walls (47b) are arranged in a zigzag pattern when viewed from the front.
The indoor air conditioner according to any one of claims 1 to 9, wherein a heat insulating material (39) is provided on the outer peripheral surface of the connection pipes (31A, 31B).