WO2018189889A1

WO2018189889A1 - Indoor unit of air conditioner

Info

Publication number: WO2018189889A1
Application number: PCT/JP2017/015331
Authority: WO
Inventors: 琢哉阿川; 宏満菊地; 英康田中
Original assignee: 三菱電機株式会社
Priority date: 2017-04-14
Filing date: 2017-04-14
Publication date: 2018-10-18

Abstract

An indoor unit of an air conditioner, provided with: a casing having an inlet and an outlet; a blower for intaking and suctioning air from the inlet and blowing out the suctioned air from the outlet; a heat exchanger installed in the casing so as to face the inlet, the heat exchanger exchanging heat with the air sucked in from the inlet; a humidifier for humidifying the air heat-exchanged by the heat exchanger; eliminators disposed above and below the heat exchanger so as to face the same, the eliminators collecting water droplets from the air humidified by the humidifier; and a support frame having a slide rail which is inserted between the eliminators and in which both ends are supported, the support frame surrounding the outer periphery of the eliminators. A positioning hole for the slide rail is provided to the left frame or the right frame of the support frame. A pair of protruding pieces facing each other are provided at one end of the slide rail facing one of the frames. One of the pair of protruding pieces is inserted into the positioning hole, and, together with the other protruding piece, sandwiches one of the frames.

Description

Indoor unit for air conditioning

The present invention relates to an indoor unit for air conditioning equipped with an eliminator.

Conventionally, there is an indoor unit for air conditioning in which an eliminator that collects water droplets from humidified air is incorporated (see, for example, Patent Document 1).
An eliminator incorporated in an indoor unit for air conditioning generally includes an element that collects moisture and a sheet metal support frame that holds the element.
In addition, this type of eliminator is configured in one stage, and the eliminator is taken out from both side surfaces of the air conditioning indoor unit to perform maintenance and replacement work.

JP 2011-141079 A

By the way, in order to improve the performance of the air conditioning indoor unit, a proposal has been made to enlarge the heat exchanger in the height direction, but in that case, it is necessary to increase the eliminator in accordance with the size of the heat exchanger. . However, since it was difficult to make such a large eliminator for manufacturing reasons, it was necessary to divide the eliminator vertically into two stages with respect to the heat exchanger.

However, when the upper and lower eliminators can be removed only from one side of the air conditioning indoor unit, the frame that supports one end of the slide rail provided between the upper and lower eliminators is removed. However, when the upper and lower eliminators are removed, since the other end of the slide rail is fixed, the slide rail hangs down, and it is not easy to remove and attach the slide rail and attach the eliminator.

The present invention has been made to solve the above-described problems, and an object of the present invention is to provide an air conditioning indoor unit that can easily perform an eliminator maintenance operation.

The indoor unit for air conditioning according to the present invention includes a housing having a suction port and a blowout port, a blower that draws air from the suction port, sucks the sucked air from the blowout port, and a suction port inside the housing. A heat exchanger that is installed so as to oppose and exchanges heat with the air sucked from the suction port, a humidifier that humidifies the air heat-exchanged by the heat exchanger, and arranged up and down so as to face the heat exchanger An eliminator that collects water droplets from the air humidified by the humidifier, a slide rail that is inserted between the eliminators and supported at both ends, and a support frame that surrounds the outer periphery of the eliminator. One of the frames is provided with a slide rail positioning hole, and the slide rail is provided with a pair of projecting pieces facing each other at one end facing the one frame, and one of the pair of projecting pieces. Projecting pieces sandwich the one frame in the other projecting piece is inserted into the positioning hole.

According to the present invention, the slide rail is provided with a pair of projecting pieces facing each other at one end facing the one frame, and one projecting piece of the pair of projecting pieces is inserted into the positioning hole. One frame is sandwiched between the protruding pieces. Thus, since one end of the slide rail is supported by the support frame without using a fastening part such as a screw, the slide rail can be easily removed from only one side of the housing together with the upper and lower eliminators. Maintenance work can be easily performed.

It is a side view which shows arrangement | positioning of the internal structure of the indoor unit for an air conditioning which concerns on embodiment of this invention. It is a perspective view of the internal structure of the indoor unit for air conditioning shown in FIG. It is an expansion perspective view of the A section shown in FIG. It is a perspective view which shows an example of the assembly of the eliminator in the indoor unit for air conditioning which concerns on embodiment of this invention. It is a perspective view before inserting the slide rail of FIG. 4 in the positioning hole.

Hereinafter, an embodiment of an air-conditioning indoor unit according to the present invention will be described with reference to the drawings.
1 is a side view showing the arrangement of the internal structure of an air conditioning indoor unit according to an embodiment of the present invention, FIG. 2 is a perspective view of the internal structure of the air conditioning indoor unit shown in FIG. 1, and FIG. 3 is shown in FIG. It is an expansion perspective view of A section.

1 to 3, an air conditioning indoor unit 100 according to the present embodiment is, for example, a floor-standing indoor unit. The indoor unit 100 for air conditioning includes a housing 1, a blower 4, a heat exchanger 5, a humidifier 6, an eliminator 11, and a support frame 21 that supports the eliminator 11.

The housing 1 is formed in a rectangular parallelepiped shape that is long in the vertical direction, for example, and is provided with a suction port 2 on the back surface and an air outlet 3 on the top surface. A base 1 a on which the heat exchanger 5 and the support frame 21 are installed is provided at the bottom of the housing 1. Although not shown, a drain pan for storing dew condensation water droplets generated in the heat exchanger 5 and water droplets collected by the eliminator 11 is installed at the bottom of the housing 1.

The blower 4 includes, for example, a sirocco fan disposed at a position closer to the front side than the eliminator 11 in the housing 1, and is connected to the air outlet 3 of the housing 1 through the ventilation duct 4a. The ventilation duct 4a has an open surface on the eliminator 11 side. The blower 4 takes in indoor air from the suction port 2, sucks the taken-in air through the heat exchanger 5 and the eliminator 11, sends the sucked air into the air duct 4 a, and blows it out from the air outlet 3 into the room. At this time, a part of the air passing through the eliminator 11 is attracted by the air sent into the ventilation duct 4a and blown out into the room from the blowout port 3.

The heat exchanger 5 is formed of, for example, a cross fin type fin-and-tube heat exchanger formed of heat transfer tubes and a large number of fins, and is installed vertically so as to face the suction port 2 of the housing 1. ing. The heat exchanger 5 is fixed to the housing 1 via a sheet metal attachment member (not shown), and is connected to an air conditioning outdoor unit via a refrigerant pipe 5a. For example, an electronic expansion valve 5b capable of adjusting the flow rate of the refrigerant is connected to the refrigerant pipe 5a. The heat exchanger 5 functions as a condenser during the heating operation, functions as an evaporator during the cooling operation, and exchanges heat with indoor air taken in from the suction port 2 by the blower 4.

The humidifier 6 is constituted by, for example, a water spray type humidifier, and fine water droplets are sprayed upward in a space between the heat exchanger 5 and the eliminator 11 by a nozzle, and the heat exchanged by the heat exchanger 5 is performed. Humidify. The humidifier 6 is connected to a water supply pipe 6b to which a two-way valve 6a capable of adjusting the amount of water is connected.

The eliminator 11 is made of vinylol (synthetic resin such as polyester) or SUS as an element, and is arranged in two stages, for example, vertically so as to face substantially the entire surface of the heat exchanger 5 on the air outflow side. The eliminator 11 is composed of an upper eliminator 12 arranged in the upper stage and a lower eliminator 13 arranged in the lower stage. Note that a left eliminator 16a and a right eliminator 16b, which are divided into right and left as viewed from the blower 4 side, are installed on the base 1a below the lower eliminator 13 while being inclined to the blower 4 side. The left eliminator 16a and the right eliminator 16b are installed on the base 1a so as to be removable from the front side of the housing 1.

Furthermore, the upper eliminator 12 is divided into an upper left eliminator 12a and an upper right eliminator 12b when viewed from the blower 4 side. The lower eliminator 13 is divided into a lower left eliminator 13a and a lower right eliminator 13b when viewed from the same direction as described above. An outer frame 14 is attached to the outer periphery of the upper left eliminator 12a and the upper right eliminator 12b, and an outer frame 15 is attached to the outer periphery of the lower left eliminator 13a and the lower right eliminator 13b.

The upper eliminator 12 is composed of an upper left eliminator 12a and an upper right eliminator 12b, and the lower eliminator 13 is composed of a lower left eliminator 13a and a lower right eliminator 13b. However, the upper eliminator 12 is simply referred to as the upper eliminator 12 thereafter. The lower side will be described as the lower eliminator 13.

Here, the operation of the air conditioning indoor unit 100 will be described.
When the blower 4 operates, indoor air is sucked into the housing 1 from the suction port 2. The air sucked into the housing 1 is heat-exchanged with the refrigerant passing through the heat exchanger 5 in the heat exchanger 5. The heat-exchanged air is humidified by spraying water from the humidifier 6 and sucked by the upper eliminator 12 and the lower eliminator 13. When air is sucked into the upper eliminator 12 and the lower eliminator 13, moisture contained in the air is collected by the upper eliminator 12 and the lower eliminator 13.

The air that has passed through the upper eliminator 12 and the lower eliminator 13 is sucked into the blower 4 and blown into the room from the blowout port 3 through the ventilation duct 4a. A part of the air that has passed through the upper eliminator 12 is attracted by the air sent into the ventilation duct 4a and blown out into the room from the outlet 3.

Next, the structure of the support frame 21 that supports the upper eliminator 12 and the lower eliminator 13 will be described.
The support frame 21 is a left vertical frame 22 and a right vertical frame 23 which are frames arranged on the left and right sides as viewed from the blower 4 side, and an upper horizontal frame attached to the upper ends of the left vertical frame 22 and the right vertical frame 23 24, a lower horizontal frame 25 attached to the lower ends of the left vertical frame 22 and the right vertical frame 23, and a slide rail 30 provided substantially at the center in the vertical direction of the left vertical frame 22 and the right vertical frame 23. Has been. The support frame 21 is made of sheet metal. The left vertical frame 22 corresponds to one frame in the present invention.

The left vertical frame 22 is attached to the left end of the heat exchanger 5 via an attachment member (not shown). As shown in FIG. 3, a positioning hole 22 a of the slide rail 30 is provided in the approximate center of the left vertical frame 22. The positioning hole 22a is formed by cutting out the surface of the left vertical frame 22 facing the right vertical frame 23. The right vertical frame 23 is attached to the right end of the heat exchanger 5 via an attachment member 23a.

The left vertical frame 22 is fixed to the left ends of the upper horizontal frame 24 and the lower horizontal frame 25 by welding or the like, for example, and the right vertical frame 23 is fixed to the upper horizontal frame 24, the slide rail 30 and the lower by fastening parts such as screws. It is attached to the right end of the horizontal frame 25. That is, the right vertical frame 23 can be removed from the upper horizontal frame 24, the slide rail 30, and the lower horizontal frame 25 by removing the fastening parts. The right vertical frame 23 may be fixed by welding or the like, and the left vertical frame 22 may be attached to the left ends of the upper horizontal frame 24, the slide rail 30 and the lower horizontal frame 25 with fastening parts. In this case, a positioning hole 22a of the slide rail 30 is provided on the right vertical frame 23 side.

The cross section of the upper horizontal frame 24 and the lower horizontal frame 25 is formed in a groove shape. The upper horizontal frame 24 has a groove directed downward, and is fixed to the upper surface of the housing 1 by an attachment member. The lower horizontal frame 25 has a groove directed upward. In the groove of the upper horizontal frame 24, the outer frame 14 on the upper side of the upper eliminator 12 is slidably fitted in the longitudinal direction of the groove. Further, the outer frame 15 on the lower side of the lower eliminator 13 is fitted into the groove of the lower horizontal frame 25 so as to be slidable in the longitudinal direction of the groove.

The slide rail 30 has an H-shaped cross section with grooves on the top and bottom, and one end on the left vertical frame 22 side is provided with a pair of protruding

pieces

31a and 31b facing each other as shown in FIG. Yes. The pair of projecting

pieces

31a and 31b extend from the lower end of the slide rail 30 in the longitudinal direction of the slide rail 30 and have distal ends spread outward (see FIG. 5). The slide rail 30 is provided with a plurality of drain holes 32.

Although not shown, the lower outer frame 14 of the upper eliminator 12 is provided with drainage holes at positions facing the drainage holes 32, and the upper and lower outer frames 15 of the lower eliminator 13 are provided. Is provided with a drainage hole 15 a at a position facing the drainage hole 32. By these holes, the water drops dripping from the upper eliminator 12 do not collect on the slide rail 30 but drip to the lower eliminator 13 side and are stored on the drain pan.

Of the pair of projecting

pieces

31a and 31b, one projecting piece 31a is inserted into a positioning hole 22a provided in the left vertical frame 22, and the other projecting piece 31b is viewed from the blower 4 side when viewed from the left vertical frame 22. It is in a state exposed to the outside of the back. In other words, the pair of projecting

pieces

31 a and 31 b sandwich the portion located in the positioning hole 22 a of the left vertical frame 22. The slide rail 30 is sandwiched between the upper eliminator 12 and the lower eliminator 13 by fitting the outer frame 15 on the upper side of the lower eliminator 13 from the lower side and the outer frame 14 on the lower side of the upper eliminator 12 from the upper side. It is in the state. That is, the slide rail 30 is supported on the lower eliminator 13 by the weight of the upper eliminator 12.

As shown in FIG. 3, the mounting position of the slide rail 30 is behind the positioning hole 22a. Therefore, the mounting position of the upper horizontal frame 24 and the lower horizontal frame 25 is also vertical between the upper eliminator 12 and the lower eliminator 13. Like the slide rail 30, it is on the back side.

Here, assembly and removal of the eliminator 11 will be described with reference to FIGS. FIG. 4 is a perspective view showing an example of assembling the eliminator in the indoor unit for air conditioning according to the embodiment of the present invention, and FIG. 5 is a perspective view before inserting the slide rail of FIG. 4 into the positioning hole.

First, removal of the eliminator 11 will be described. In the following description, the right vertical frame 23 side of the support frame 21 is the front side.
As shown in FIG. 2, the mounting member 23 a that connects the right vertical frame 23 of the support frame 21 and the heat exchanger 5 is removed. Next, the fastening component on the right vertical frame 23 side is loosened and removed, and the right vertical frame 23 is removed from the upper horizontal frame 24, the slide rail 30, and the lower horizontal frame 25. Further, the upper eliminator 12 between the upper horizontal frame 24 and the slide rail 30 is slid forward and pulled out. Thereafter, the protruding piece 31 a of the slide rail 30 is pulled to the front side so as to be pulled out from the positioning hole 22 a, and the slide rail 30 is removed from the upper outer frame 15 of the lower eliminator 13. And the lower eliminator 13 is removed from the groove | channel of the lower horizontal frame 25, and the removal operation | work of the eliminator 11 is complete | finished.

Next, assembly of the eliminator 11 will be described.
As shown in FIG. 4, after the lower eliminator 13 is fitted into the groove of the lower horizontal frame 25, the outer frame 15 on the upper side of the lower eliminator 13 is fitted into the slide rail 30, and the slide rail 30 is moved to the left vertical frame 22 side. Slide to push into. Further, the slide rail 30 is slid to the left vertical frame 22 side, and the protruding piece 31a of the slide rail 30 is inserted into the positioning hole 22a. At this time, the other protruding piece 31b is exposed outside the left vertical frame 22, and the left vertical frame 22 is sandwiched between the pair of protruding

pieces

31a and 31b.

For example, when the lower eliminator 13 is inclined toward the heat exchanger 5 side with respect to the left vertical frame 22 because the tip ends of the pair of projecting

pieces

31a and 31b of the slide rail 30 spread outward. The lower eliminator 13 is guided to the opposite side of the heat exchanger 5 by the protruding piece 31a to be in an upright state. For example, when the lower eliminator 13 is inclined to the opposite side of the heat exchanger 5 with respect to the left vertical frame 22, the lower eliminator 13 is guided to the heat exchanger 5 side by the protruding piece 31b. Set upright.

After the slide rail 30 is attached to the left vertical frame 22, the upper eliminator 12 is fitted between the upper horizontal frame 24 and the slide rail 30, and the upper eliminator 12 is slid so as to be pushed into the left vertical frame 22 side. The right vertical frame 23 is attached to the right end of the upper horizontal frame 24, the slide rail 30 and the lower horizontal frame 25 by fastening parts, and the right vertical frame 23 is attached to the right end of the heat exchanger 5 by the attachment member 23a. And the assembly work of the eliminator 11 is completed.

As described above, according to the present embodiment, the slide rail 30 is provided with the pair of protruding

pieces

31a and 31b facing each other at one end facing the left vertical frame 22, and one of the pair of protruding

pieces

31a and 31b. The protruding piece 31a is inserted into the positioning hole 22a, and the left vertical frame 22 is sandwiched between the other protruding piece 31b. Thus, since one end of the slide rail 30 is supported by the left vertical frame 22 without using a fastening part such as a screw, the slide rail 30 together with the upper eliminator 12 and the lower eliminator 13 is also easy from only one side of the housing 1. It can be removed and maintenance work can be easily performed.

Further, when the protrusion 31a of the slide rail 30 is inserted into the positioning hole 22a, the left vertical frame 22 is sandwiched between the other protrusion 31b, so the width of the surface of the left vertical frame 22 having the positioning hole 22a. Can be made thin, and the space for maintenance can be saved.

Further, the upper eliminator 12 is divided into an upper left eliminator 12a and an upper right eliminator 12b, and the lower eliminator 13 is divided into a lower left eliminator 13a and a lower right eliminator 13b. As a result, the range of handling is reduced even after each eliminator is taken out of the housing 1, so that the maintenance space can be saved.

In the present embodiment, the upper eliminator 12 and the lower eliminator 13 are divided into left and right, respectively, but the number of divisions is not limited. Further, although the upper eliminator 12 and the lower eliminator 13 are divided into left and right parts, the upper eliminator 12 and the lower eliminator 13 may constitute the eliminator 11.

In the present embodiment, one slide rail 30 is used, but the slide rail 30 may be divided into left and right. In this case, the work space for maintenance can be saved.

1 housing, 1a base, 2 inlet, 3 outlet, 4 blower, 4a ventilation duct, 5 heat exchanger, 5a refrigerant piping, 5b electronic expansion valve, 6 humidifier, 6a two-way valve, 6b water supply pipe, 11 eliminator, 12 upper eliminator, 12a upper left eliminator, 12b upper right eliminator, 13 lower eliminator, 13a lower left eliminator, 13b lower right eliminator, 14, 15 outer frame, 15a drainage hole, 16a left eliminator, 16b right eliminator, 21 support rim 22 left vertical frame, 22a positioning hole, 23 right vertical frame, 24 upper horizontal frame, 25 lower horizontal frame, 30 slide rail, 31a, 31b protruding piece, 32 drainage hole, 100 indoor unit for air conditioning.

Claims

A housing having an inlet and an outlet;
A blower that draws air from the suction port and sucks it, and blows out the sucked air from the air outlet;
A heat exchanger that is installed inside the housing so as to face the suction port, and exchanges heat with air sucked from the suction port;
A humidifier for humidifying the air heat-exchanged by the heat exchanger;
A plurality of eliminators that are arranged up and down to face the heat exchanger and collect water droplets from the air humidified by the humidifier;
A slide rail that is inserted between the plurality of eliminators and supported at both ends, and includes a support frame that surrounds an outer periphery of the plurality of eliminators,
A positioning hole for the slide rail is provided in one of the left and right frames of the support frame,
The slide rail is provided with a pair of projecting pieces facing each other at one end facing the one frame, and one projecting piece of the pair of projecting pieces is inserted into the positioning hole, and the other projecting piece. And an air conditioning indoor unit that sandwiches the one frame.
The air conditioner indoor unit according to claim 1, wherein the slide rail is a member having an H-shaped cross section with grooves vertically directed.
The air conditioner indoor unit according to claim 1 or 2, wherein the pair of projecting pieces have distal ends spreading outward.
The air conditioning indoor unit according to any one of claims 1 to 3, wherein each of the plurality of eliminators is divided into left and right parts.
The air conditioning indoor unit according to any one of claims 1 to 4, wherein the slide rail is divided into left and right parts.