KR101667044B1 - Indoor unit of air-conditioner - Google Patents

Abstract

The present invention relates to an indoor unit of an air conditioner including a fixed unit including a plurality of pipe receiving grooves for receiving pipes connected to an indoor heat exchanger and a fixing unit having one end coupled to the indoor heat exchanger and the other end coupled to the main body, . Therefore, in the present invention, the indoor heat exchanger can be more firmly fixed, and the heat exchange performance of the indoor unit can be further improved.

Air conditioner, heat exchanger, fixed unit

Description

An indoor unit of an air conditioner (Indoor unit of air-conditioner)

The present invention relates to an indoor unit of an air conditioner.

Generally, an air conditioner is a device for cooling and heating a room by performing a refrigerant cycle comprising compression-condensation-expansion-evaporation.

The air conditioner includes an indoor unit for performing heat exchange between the refrigerant and the indoor air, and an outdoor unit for performing heat exchange between the refrigerant and the outdoor air. The indoor unit includes an indoor heat exchanger for exchanging heat between the refrigerant and the room air, a fan for blowing the indoor air, and a motor for rotating the fan. The outdoor unit includes an outdoor heat exchanger for exchanging heat between the refrigerant and outdoor air, a fan for blowing the outdoor air, a motor for rotating the fan, a compressor for compressing the refrigerant, an expansion unit for expanding the refrigerant, And a four-way valve for changing the flow direction of the refrigerant.

When performing indoor cooling, the indoor heat exchanger serves as an evaporating means and the outdoor heat exchanger serves as a condensing means. The indoor heat exchanger serves as the condensing means and the outdoor heat exchanger serves as the evaporating means. The switching of the cooling / heating operation is performed by changing the flow direction of the refrigerant by the four-way valve.

The present invention is to provide an indoor unit of an air conditioner in which an indoor heat exchanger can be more firmly fixed.

In addition, the present invention provides an indoor unit of an air conditioner capable of improving heat exchange performance between indoor air and refrigerant.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise forms disclosed. Other objects, which will be apparent to those skilled in the art, It will be possible.

The indoor unit of the air conditioner according to the present invention includes a main body installed in the room; An indoor heat exchanger for exchanging heat between indoor air and refrigerant; A fan for forcedly flowing the indoor air; A motor for providing power for rotation of the fan; And a fixing unit for fixing a plurality of pipes connected to the indoor heat exchanger and the indoor heat exchanger together, wherein the fixing unit comprises: a pipe receiving groove in which a plurality of pipes connected to the indoor heat exchanger are received and fixed; And a coupling portion coupled to the main body, wherein the pipe receiving groove receives the same number of pipes as the number of the refrigerant tubes in the thickness direction of the indoor heat exchanger.

As described above, according to the indoor unit of the air conditioner of the present invention, the fixing unit has a plurality of pipe receiving grooves for receiving pipes connected to the indoor heat exchanger. That is, in a state where the fixed unit is coupled to the indoor heat exchanger, the contact area between the fixed unit and the pipe can be maximized. Each of the plurality of fixing portions is connected at one end to the heat exchange unit and at the other end to the main body. Therefore, the indoor heat exchanger can be more firmly fixed to the main body.

Further, since the fixing unit and the fixing unit are more firmly fixed, the phenomenon that the indoor air sucked into the indoor unit is discharged to the outside without passing through the indoor heat exchanger can be minimized. Therefore, heat exchange performance through the indoor unit can be further improved.

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

FIG. 1 is a perspective view of an indoor unit of an air conditioner according to the present invention, and FIG. 2 is an exploded perspective view of an indoor unit of an air conditioner according to the present invention.

1 and 2, the main body 10 of the indoor unit 1 is installed in the room for air conditioning of the indoor space. The main body 10 includes a front frame 2 and a rear frame 3 which form an outer appearance of the main body 10. [ Various components such as an indoor heat exchanger 41 and a fan 42 to be described later are provided between the front frame 2 and the rear frame 3 in a state in which the front frame 2 and the rear frame 3 are coupled to each other in the fore- A space is formed for installing the light source.

The main body 10 includes a front panel 20 installed on a front surface of the front frame 2 to form a front surface of the main body 10, And a rear panel 30 which forms the rear surface of the body 10. At this time, the front panel 20 may be rotatably coupled to the front frame 2. [

The main body 10 is formed with a suction port 101 for sucking the room air into the room and a discharge port 102 through which the room air is discharged into the room. More specifically, the suction port 101 is formed on the upper surface of the main body 10, and the discharge port 102 is formed on the front surface and the bottom surface of the main body 10. More specifically, the suction port 101 is located on the upper surface of the front frame 2, and the discharge port 102 is positioned between the lower end of the front frame 2 and the lower end of the rear frame 3 .

The main body 10 is provided with a pre-filter 21 for purifying the air sucked through the suction port 101, the indoor heat exchanger 41 for exchanging heat between the room air and the refrigerant, A fan motor assembly including a fan (42) and a motor (43) for forced flow of the refrigerant, a control box (44, 45) composed of components for controlling the operation of the indoor unit (1) A vane 51 for guiding the top direction of the room air to be discharged, a discharge port 52 for guiding the indoor air to be discharged, A display unit 6 for outputting various signals indicating the operating state of the indoor unit 1 and a display unit 6 for outputting the indoor heat exchanger 41 to the main body 10 ) For fixing the heat exchanger 6 and 47, and a motor 43 cover for shielding the motor 43.

At this time, the flow of the indoor air will be described. First, the air sucked into the inlet 101 passes through the pre-filter 21 and the dust filter 48, and foreign matter is filtered. The intake grill 200 prevents foreign matter from flowing into the intake port 101. The intake grill 200 filters relatively large foreign substances and the prefilter 21 and the dust collection In the filter 48, a relatively small foreign matter such as dust can be filtered.

Next, the indoor air having passed through the pre-filter 21 and the dust filter 48 passes through the indoor heat exchanger 41 and is heat-exchanged with the refrigerant. The air that has been heat-exchanged in the indoor heat exchanger 41 is discharged to the outside of the main body 10 through the discharge port 102 after passing through the fan 42.

In order to guide the room air having passed through the indoor heat exchanger 41 and the fan 42 to the discharge port 102 from the room where the fan 42 is located, A portion of the charge grille portion 5 and the rear frame 3 is referred to as a discharge portion. More specifically, a portion of the discharge grill portion 5 corresponding to the discharge portion is referred to as an upper discharge portion, and a portion of the rear frame 3 corresponding to the discharge portion is referred to as a lower discharge portion.

The indoor heat exchanger 41 is connected to a compressor (not shown), an outdoor heat exchanger (not shown), and an expansion unit (not shown) to form a refrigerant cycle. More specifically, the refrigerant flows through the indoor heat exchanger (41) or the outdoor heat exchanger while being heat-exchanged with indoor air or outdoor air and condensed to a low temperature and high pressure state. The refrigerant having passed through the indoor heat exchanger (41) or the outdoor heat exchanger is expanded to a low-temperature and low-pressure state while passing through the expansion portion. The refrigerant passing through the expansion portion is heat-exchanged with outdoor air or room air while passing through the outdoor heat exchanger or the indoor heat exchanger (41), evaporated into a high temperature and low pressure state, and then introduced into the compressor again to perform the refrigerant cycle .

At this time, the refrigerant may be condensed or evaporated in the indoor heat exchanger 41 or the outdoor heat exchanger depending on the operating mode of the air conditioner. For example, when the air conditioner is operated in the heating mode, the refrigerant is condensed while passing through the indoor heat exchanger 41, and evaporated while passing through the outdoor heat exchanger. However, when the air conditioner operates in the cooling mode, the refrigerant evaporates while passing through the indoor heat exchanger 41, and is condensed while passing through the outdoor heat exchanger.

Hereinafter, a structure for fixing the indoor heat exchanger in the indoor unit of the air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 4 is a perspective view showing a state in which the fixing part of the indoor unit of the air conditioner according to the present invention is coupled. FIG. 5 is a perspective view of the indoor unit of the air conditioner according to the present invention. FIG. 2 is a perspective view showing a state in which the fixing portion of the indoor unit of the air conditioner is separated. FIG.

3 to 5, the rear frame 3 is provided with an installation portion 34 for installing the indoor heat exchanger 41, the fan 42, and the motor 43 therein. The indoor heat exchanger 41 and the fan 42 are located on one side of the installation portion 34 while the indoor heat exchanger 41, the fan 42 and the motor 43 are installed, And the motor 43 is located on the other side of the motor shaft 34.

The indoor heat exchanger (41) includes a plurality of heat exchange units (411, 412, 413) which are inclined at different slopes. Each of the heat exchange units 411, 412, and 413 includes a plurality of refrigerant tubes through which the refrigerant for heat exchange with the indoor air flows, and a plurality of fins sequentially passing through the refrigerant tubes.

One side of the indoor heat exchanger 41 is provided with fixing portions 471, 472 and 473 for fixing the indoor heat exchanger 41 to the installation portion 34. The fixing portions 471, 472, 473 are provided in the same number as the number of the heat exchange units 411, One end of each of the plurality of fixing portions 471, 472, 473 is coupled to the heat exchange units 411, 412, 413, and the other end is coupled to the main body 10. When the indoor heat exchanger 41 is installed in the installation part 34, the plurality of fixing parts 471, 472 and 473 are arranged in a space between the indoor heat exchanger 41 and the installation part 34 Shielding.

More specifically, the indoor heat exchanger 41 includes a first heat exchange unit 411 placed on the upper half of the fan 42, a second heat exchange unit 412 placed on the upper half of the fan 42, And a third heat exchange unit 413 placed in front of the fan 42. That is, the plurality of heat exchange units 411, 412, and 413 are disposed so as to surround the fan 42 so that all of the room air introduced into the fan 42 can pass through the indoor heat exchanger.

The fixing units 471 472 473 include a first fixing unit 471 coupled to the first heat exchange unit 411, a second fixing unit 472 coupled to the second heat exchange unit 412, And a third fixing part 473 coupled to the third heat exchange unit 413.

More specifically, the first fixing part 471 shields a space corresponding to the second half of the space between the indoor heat exchanger 41 and the installation part 34 while being coupled to the first heat exchange unit 411 . The second fixing portion 472 shields a space corresponding to the first half of the space between the indoor heat exchanger 41 and the installation portion 34 while being coupled to the second heat exchange unit 412. That is, the first fixing part 471 and the second fixing part 472 are arranged in a space between the indoor heat exchanger 41 and the installation part 34 in a state where the indoor heat exchanger 41 is installed Is a triangular plate as a whole.

Accordingly, it is possible to prevent the indoor air from flowing through the space between the indoor heat exchanger 41 and the installation portion 34 in the state that the indoor heat exchanger 41 is installed by the fixing portions 471, 472, . That is, the air that has not passed through the indoor heat exchanger 41 can be prevented from flowing into the fan 42 through the space between the indoor heat exchanger 41 and the installation portion 34. As a result, a phenomenon that the air introduced into the main body 10 is discharged to the outside of the main body 10 without passing through the indoor heat exchanger 41 can be prevented.

Each of the first fixing portion 471 and the second fixing portion 472 is provided with a plurality of pipe holes for passing through pipes connected to the first heat exchanging unit 411 and the second heat exchanging unit 412, (470, 480). The plurality of pipe holes 470 and 480 are provided in positions and in numbers corresponding to the refrigerant tubes of the first heat exchanging unit 411 and the second heat exchanging unit 412, respectively.

The second fixing part 472 is provided with a coupling part 474 to be coupled to the second heat exchange unit 412. At this time, a coupling hole 479 through which the coupling member passes is formed in the coupling part 474.

On the other hand, the second fixing part 472 is formed with a forming part 490 which is formed by the thickness of the first fixing part 471. The forming section 490 is formed over a part of the second fixing section 472 which overlaps with the first fixing section 471 in a state where the indoor heat exchanger 41 is installed. That is, in a state where the indoor heat exchanger 41 is installed, the first fixing part 471 and the second fixing part 472 are overlapped with each other by the forming part 490.

On the other hand, in the direction perpendicular to one surface of the main body 10 to which the two fixing portions 471 and 472 are coupled, the second fixing portion 472, which overlaps with the first fixing portion 471, A portion 490 is formed. More specifically, the first fixing part 471 and the second fixing part 472 are formed in such a manner that one fastening member is passed through a fastening hole 479 to be described later, . Therefore, the two fixing portions 471 and 472 and the one surface of the main body 10 to which the two fixing portions 471 and 472 are coupled are positioned side by side. At this time, at least a part of the two fixing portions 471 and 472 are overlapped in a direction perpendicular to one surface of the main body 10 to which the two fixing portions 471 and 472 are coupled.

The engaging protrusion 492 and the engaging portion 478 are provided on a part of the first fixing portion 471 overlapping with the second fixing portion 472. The engaging projection 492 protrudes laterally from the first fixing portion 471. The engaging part 478 is formed so that a part of the first fixing part 471 is inserted in the cutting direction and in the lateral direction so that the rear end part 491 of the second fixing part 472 is inserted in the rearward movement Bending. The second fixing portion 472 is formed with a projection receiving groove 493 for receiving the coupling projection 492.

At this time, the first fixing part 471 is formed with a coupling part 477 extending forward from the front end of the first fixing part 471. The coupling portion 477 is formed with a coupling hole 479 through which the coupling member for fixing the first fixing portion 471 to the mounting portion 34 passes. The first fixing portion 471 and the second fixing portion 472 overlap with the fixing hole 479 in a state where the first fixing portion 471 and the second fixing portion 472 are coupled to each other, A fastening hole 479 through which the fastening member penetrating through the fastening hole 479 of the fastening portion 471 is formed. That is, in order to fix the first fixing part 471 and the second fixing part 472 to the mounting part 34, the fastening member is fastened to the fastening hole 479 of the first fixing part 471, 2 fastening portion 472 and is fixed to the mounting portion 34 at the same time.

A third fixing part 473 for fixing the third heat exchange unit 413 to the mounting part 34 is provided below the second fixing part 472. [ The third fixing part 473 is provided with a main body coupling part 476 to be coupled to the mounting part 34 and a heat exchanger coupling part 475 to be coupled to the third heat exchange unit 413 . The main body coupling portion 476 and the heat exchanger coupling portion 475 are formed with a borehole 479 through which the fastening member passes.

FIG. 7 is a perspective view showing a state in which the fixing unit is removed from the indoor unit of the air conditioner according to the present invention, and FIG. 8 is a perspective view of the indoor unit of the air conditioner according to the present invention. Is a perspective view of the fixed unit in the indoor unit of the air conditioner.

6 to 8, on the other side of the indoor heat exchanger 41, which is the opposite side of one side to which the fixing portions 471, 472, 473 are coupled, on the other side of the indoor heat exchanger 41, And a fixing unit 46 for fixing the heat exchanger 41 and the pipe connected to the indoor heat exchanger 41 at the same time.

The fixing unit 46 includes a heat exchanger engaging part 461 coupled to the indoor heat exchanger 41 and a body engaging part 462 coupled to the rear frame 3, 462). The heat exchanger coupling portion 462 is coupled to the other side of the indoor heat exchanger 41 so that the indoor heat exchanger 41 and the indoor heat exchanger 41 are connected to the main body 10 in a state where the indoor heat exchanger 41 is coupled to the main body 10. [ And covers the space between the main body 10.

Therefore, it is possible to prevent the indoor air from flowing through the space between the indoor heat exchanger 41 and the main body 10 in a state where the indoor heat exchanger 41 is installed, . That is, the air that has not passed through the indoor heat exchanger 41 can be prevented from flowing into the fan 42 through the space between the indoor heat exchanger 41 and the main body 10. As a result, a phenomenon that the air introduced into the main body 10 is discharged to the outside of the main body 10 without passing through the indoor heat exchanger 41 can be prevented.

The fixing unit 46 includes a pipe receiving groove 465 in which a plurality of pipes connected to the indoor heat exchanger 41 are received and fixed and a fan receiving groove 465 in which one end of the fan 42 is used. (464).

More specifically, on the other side of the indoor heat exchanger 41 in a state where the fixing unit 46 is removed, a plurality of return tubes 411 connecting the plurality of refrigerant tubes to form a refrigerant passage are provided do. At this time, the return tube 411 connects two refrigerant tubes. The refrigerant discharged from any one of the two refrigerant tubes is flowed by the return tube 411 into the other.

The pipe receiving grooves 465 are formed on one side of the fixing unit 46 facing the indoor heat exchanger 41. Each of the plurality of pipe receiving grooves 465 accommodates the same number of pipes as the number of the refrigerant tubes in the thickness direction of the indoor heat exchanger 41. Here, the number of heat of the refrigerant tube means the minimum number of imaginary straight lines connecting the refrigerant tubes sequentially when the indoor heat exchanger 41 is viewed from the side. On the other hand, the number of heat of the refrigerant tube means the number of rows in which the refrigerant tubes are arranged side by side when viewed from the side of the indoor heat exchanger 41.

For example, in this embodiment, as viewed from the side, the refrigerant tubes of the indoor heat exchanger 41 are arranged in two rows. That is, the number of the refrigerant tubes in the thickness direction of the indoor heat exchanger 41 is two. Therefore, two return tubes 411 among a plurality of return tubes 411 provided on the other side of the indoor heat exchanger 41 are accommodated in any one of the pipe receiving grooves 465. On the other hand, in each of the plurality of pipe receiving grooves 465, two return tubes 411 of the plurality of return tubes 411 are accommodated.

A condensate drain hole 466 for draining condensate generated in the pipe accommodated in the pipe accommodating groove 465 is formed on the bottom surface 325 of the pipe accommodating groove 465. The condensate drain hole 466 is formed to penetrate the fixing unit 46. That is, the condensed water flowing into the condensed water drain hole 466 flows to the other side of the fixed unit 46 which is opposite to the indoor heat exchanger 41.

The condensed water flowing into the other side of the fixed unit 46 flows downward along the other side of the fixed unit 46 and is collected by the collecting unit (not shown) located below the fixed unit 46 And is discharged to the outside of the main body 10 after being introduced.

According to the indoor unit 1, there is an advantage that the indoor heat exchanger 41 can be more firmly fixed to the main body 10.

More specifically, the number of pipes 411 equal to the number of the refrigerant tubes in the pipe 411 connected to the side surface of the indoor heat exchanger 41 is accommodated in the pipe accommodating groove 465 of the fixing unit 46 So that the indoor heat exchanger 41 and the fixed unit 46 can be more firmly fixed. Particularly when the entire piping 411 connected to the side surface of the indoor heat exchanger 41 is fixed in such a manner as to be accommodated in the pipe receiving groove 465 of the fixed unit 46, Since the contact area between the fixed units 46 is further widened, the indoor heat exchanger 41 and the fixed unit 46 can be more firmly fixed.

Also, the plurality of fixing portions 471, 472, and 473 corresponding to the heat exchange units 411, 412, and 413 are fixed to the main body 10. Therefore, the indoor heat exchanger 41 and the fixing portions 471, 472, 473 can be more firmly fixed to the main body 10. In particular, at least one of the plurality of fixing portions 471, 472, 473 is fixed only to the heat exchange units 411, 412, 413 and the fixing portions 471, 472, 473 are not fixed to the main body 10, And can be more firmly fixed.

On the other hand, there is an advantage that heat exchange performance between the indoor air and the refrigerant through the indoor unit 1 can be further improved.

More specifically, since the fixing portions 471, 472 and 473 are more firmly fixed to the main body 10, the indoor heat exchanger 41 is fixed to the main body 10, The airtightness of the space between the main body 10 can be improved. That is, the space between the indoor heat exchanger 41 and the main body 10 can be more stably shielded. The fixing unit 46 is provided on the other side of the indoor heat exchanger 41 on the opposite side of the fixing portions 471, 472, 473 with respect to the indoor heat exchanger 41.

Accordingly, the phenomenon that the air sucked into the main body 10 flows into the fan 42 through the space between the indoor heat exchanger 41 and the main body 10 without passing through the indoor heat exchanger 41 Can be minimized. That is, the phenomenon that the air sucked into the main body 10 is discharged to the outside of the main body 10 without heat exchange with the refrigerant can be minimized. Therefore, heat exchange performance between indoor air and refrigerant in the indoor unit (1) can be further improved.

It will be apparent to those skilled in the art that many other modifications and variations are possible in light of the above teachings and the scope of the present invention should be construed on the basis of the appended claims will be.

1 is a perspective view of an indoor unit of an air conditioner according to the present invention.

2 is an exploded perspective view of an indoor unit of an air conditioner according to the present invention.

3 is a partial perspective view showing a fixing portion of an indoor unit of an air conditioner according to the present invention.

4 is a perspective view showing a state where a fixing part of an indoor unit of an air conditioner according to the present invention is coupled.

FIG. 5 is a perspective view showing a state in which a fixing part of an indoor unit of an air conditioner according to the present invention is separated. FIG.

6 is a partial perspective view showing a fixing unit of an indoor unit of an air conditioner according to the present invention.

7 is a perspective view showing a state in which a fixing unit is removed from an indoor unit of an air conditioner according to the present invention;

8 is a perspective view of a fixing unit in an indoor unit of an air conditioner according to the present invention.

Claims (9)

A body installed indoors; An indoor heat exchanger for exchanging heat between indoor air and refrigerant; A fan for forcedly flowing the indoor air; A motor for providing power for rotation of the fan; And And a fixing unit for fixing a plurality of pipes connected to the indoor heat exchanger and the indoor heat exchanger together, Wherein the indoor heat exchanger includes a plurality of heat exchange units arranged to surround the fan at different slopes, A plurality of fixing portions for fixing the plurality of heat exchange units to the mounting portions provided in the main body are coupled to the plurality of heat exchange units, Wherein the plurality of fixing portions shield a space between the plurality of heat exchange units and the installation portions, Wherein the plurality of fixing portions include a first fixing portion and a second fixing portion at least partially overlapping each other, Wherein the second fixing portion is formed with a forming portion that is formed by a thickness of the first fixing portion at a portion overlapping with the first fixing portion, Wherein the first fixing part is provided with a coupling protrusion to be inserted into the forming part and a hook part into which the corner of the forming part is inserted. The method according to claim 1, Wherein the fixing unit is provided with a pipe receiving groove in which a plurality of pipes connected to the indoor heat exchanger are received and fixed, And a condensed water drain hole for discharging condensed water generated from a plurality of pipelines accommodated in the pipe receiving groove is formed on a bottom surface of the pipe receiving groove. 3. The method according to claim 1 or 2, Wherein the pipe is a return tube provided at an end of the indoor heat exchanger to change the direction of the refrigerant. delete The method according to claim 1, Wherein the first and second fixing portions are simultaneously coupled to the main body with one fastening member. The method according to claim 1, Wherein one end of each of the plurality of fixing portions is coupled to the heat exchange unit and the other end is coupled to the main body. delete delete The method according to claim 1, Wherein a fastening hole for allowing one fastening member to pass therethrough is formed at each of the portions of the first fixing portion and the forming portion which overlap each other.

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