KR102501551B1 - Window type air-conditioner - Google Patents

Abstract

The present invention relates to a window type air conditioner, comprising: a case; An evaporator installed in the case and erected on the indoor side; a cylindrical evaporator fan disposed in the case and erected adjacent to the evaporator; A condenser installed in the case and built up on the outdoor side; a cylindrical condenser fan disposed in the case at the front of the condenser and erected adjacent to the condenser; partition walls disposed to separate the condenser from the condenser fan and the evaporator from the evaporator fan; and a control unit installed on the bulkhead and installed in an accommodation space opposite to the condenser fan, wherein the air introduced from the outside through the condenser is directed to the outdoors again between the partition wall and the side surface of the condenser fan. A guide air passage for guiding the air passage is formed, an installation hole is formed through the partition wall facing the guide air passage, and a heat dissipation member installed in the control unit is inserted into the installation hole so that one side is exposed to the guide air passage, so that the condenser fan is Heat generated from the control unit during operation of the air conditioner by air flow generated during horizontal rotation can be discharged to the outside through the heat dissipation member, so that a very effective heat dissipation effect can be obtained.

Description

Window type air conditioner {WINDOW TYPE AIR-CONDITIONER}

The present invention relates to a window type air conditioner, and more particularly, to a window type air conditioner that effectively dissipates heat generated in an accommodation space in which a control unit is mounted to prevent component failure due to temperature rise.

The recent window type air conditioner has a structure in which the indoor unit (evaporator) and the outdoor unit (condenser) are integrally built into the case, and a window frame installation frame installed on the window is separately included, so users other than professional engineers can easily install it directly. it is possible

Referring to FIGS. 1 to 4, a representative structure of an existing window type air conditioner is briefly described as follows.

As shown, the conventional representative window type air conditioner 1000 is. A case 100, an evaporator 200 installed in the case 100 and installed upright on the indoor side, a cylindrical evaporator fan 700 disposed in the case 100 and installed upright adjacent to the evaporator, the case A condenser 300 installed in the 100 and installed on the outdoor side, and a cylindrical condenser fan disposed in the front of the condenser 300 in the case 100 and installed next to the condenser 300 ( 600).

In this case, as the condenser fan 600 operates, outdoor air is introduced through the second suction part 160 and discharged through the second discharge part 170, thereby cooling the condenser 300. With the operation of the evaporator fan 700, indoor air is introduced through the first suction part 140 and discharged through the first discharge part 150, thereby cooling the inside of the case 100.

When viewed from above, the condenser 300 and the condenser fan 600, and the evaporator 200 and the evaporator fan 700 are separated by a partition wall 900, and the partition wall 900 and the condenser fan 600 A guide air passage 910 including an inlet 911 and an outlet 912 is formed between the sides of the condenser 300 to guide the air introduced from the outdoors through the condenser 300 back to the outdoors.

In addition, the control unit 400 including a printed circuit board (PCB) to which various elements are electrically connected for various control including electricity and signals is installed on the partition wall 900, but the condenser fan 600 It is installed in the accommodating space 670 on the opposite side (the side facing the room).

However, since the accommodation space 670 has a closed structure by the case 100, heat generated from the control unit 400 during operation cannot be dissipated, resulting in damage to surrounding electrical components due to high heat. .

In order to prevent this, a cooling fan or the like may be installed in the accommodation space 670, but an additional space for installing the cooling fan is required, additional power is required for the operation of the cooling fan, and heat dissipation to the case is required. There was a disadvantage that a through hole or the like is required, which adversely affects the exterior design.

Korean Registered Patent Publication No. 10-2186677 (2020.11.30)

The present invention has been made to solve the above-mentioned problems of the prior art, and an object of the present invention is to effectively dissipate heat generated in an accommodation space in which a control unit is mounted to prevent component failure due to temperature rise, while additionally occupying It is about a window type air conditioner that takes up no space.

In order to achieve the above object, the window type air conditioner according to the present invention,

case;

An evaporator installed in the case and erected on the indoor side;

a cylindrical evaporator fan disposed in the case and erected adjacent to the evaporator;

A condenser installed in the case and built up on the outdoor side;

a cylindrical condenser fan disposed in the case at the front of the condenser and erected adjacent to the condenser;

partition walls disposed to separate the condenser from the condenser fan and the evaporator from the evaporator fan; and,

a controller installed on the partition in the receiving space on the opposite side of the condenser fan around the partition;

It consists of including,

A guide air passage is formed between the partition wall and the side surface of the condenser fan to guide air introduced from the outdoors through the condenser back to the outdoors, and an installation hole leading to the accommodation space passes through the partition wall facing the guide air passage. It is characterized in that the installation hole is configured such that a heat dissipation member attached to the control unit is fitted so that one side is exposed to the guide air path.

A plurality of heat dissipation fins extending in a horizontal direction and spaced apart in a vertical direction are formed on one side of the heat dissipation member.

One side of the heat dissipation member is characterized in that it is installed so as not to protrude from the inner surface of the partition wall.

When viewed from a plan view, an inner circumferential surface of the barrier rib is formed in a curved shape and an outer surface of the heat dissipation fin is formed in a curved shape.

When viewed from a plan view, an outer surface of the heat dissipation fin may have a shape coincident with an inner circumferential surface of the barrier rib.

The installation hole is formed to penetrate in a straight line from the accommodation space toward the guide air path, and one side of the installation hole in the left and right direction passes near the rotation center of the condenser fan and the other side is formed to pass near the inner circumferential surface of the partition wall. characterized by

When viewing the heat dissipation member from a side view, the length of the heat dissipation fins disposed at the upper and lower ends is shorter than that of the heat dissipation fins therebetween.

According to the window type air conditioner of the present invention having the configuration described above, a guide air passage is formed between the partition wall and the side of the condenser fan to guide the air introduced from the outdoors through the condenser back to the outdoors. An installation hole leading to an accommodation space accommodating the control unit is formed through the facing partition wall, and a heat dissipation member attached to the control unit is inserted into the installation hole so that one side is exposed to the guide air passage, so that the condenser fan rotates horizontally. Heat generated from the control unit during operation of the air conditioner can be discharged to the outside through the heat dissipation member by the air flow generated when the air conditioner is operated, so that a very effective heat dissipation effect can be obtained.

In addition, according to the present invention, a plurality of heat radiating fins extending in a horizontal direction and spaced apart in a vertical direction are formed on one side of the heat radiating member exposed to the guide air passage, so that the horizontally moving airflow generated when the condenser fan rotates horizontally is connected to the heat radiating fins. Since it passes through the horizontal guide groove extending horizontally between the radiating fins without blockage, more effective heat dissipation is possible.

In addition, according to the present invention, one side of the heat dissipation member is installed so as not to protrude from the inner surface of the partition wall, so that the flow of air through the guide air passage is not hindered when the condenser fan rotates, so that noise or vibration according to the flow is not generated. It has the effect of disappearing.

In addition, according to the present invention, when viewed from a plan view, since the inner circumferential surface of the partition wall is formed in a curved shape and the outer surface of the radiating fin is formed in a curved shape to correspond to the inner circumferential surface of the partition wall, the plane area of the radiating fin in contact with the air flow is increased. The heat dissipation effect can be greatly improved.

In addition, according to the present invention, the outer surface of the radiating fin has a shape coincident with the inner circumferential surface of the partition wall, so that the flow of air through the guide air path is not hindered when the condenser fan rotates, and the heat dissipation effect can be maximized.

In addition, according to the present invention, the installation hole is made to penetrate in a straight line from the accommodation space toward the guide air path, one side of the installation hole in the left and right direction passes near the rotation center of the condenser fan, and the other side passes through the inner circumferential surface of the partition wall It is formed to pass through the vicinity, and it is preferable to maximize the heat dissipation effect by making the portion of the heat dissipation fin inserted into the other side of the installation hole form a greatly expanded plane area.

In addition, according to the present invention, when the heat radiating member is viewed from a side view, the length of the heat radiating fins disposed at the upper and lower ends is shorter than that of the radiating fins therebetween, so that a step occurs between the inner surface of the partition wall and the heat radiating member. In the area between the inner surface of the partition wall and the heat generating piece, there is no case where the air flow due to the rotation of the condenser fan is not stagnant, so there is no concern about noise or vibration.

1 is a front perspective view showing the structure of a window type air conditioner according to the prior art.
2 is a rear perspective view showing the structure of a window type air conditioner according to the prior art.
3 is a front perspective view of a window type air conditioner showing a structure in which a control unit is installed according to the prior art.
4 is a cross-sectional plan view showing the structure of a window type air conditioner according to the prior art.
5 is a front perspective view of a window type air conditioner showing a structure in which a control unit is installed according to the present invention.
6 is an exploded front perspective view of a window type air conditioner showing a structure in which a control unit is installed according to the present invention.
7 is an internal cross-sectional perspective view showing the structure of a window type air conditioner in which a heat dissipation member is installed according to a first embodiment of the present invention.
8 is a plan cross-sectional view showing the structure of a window type air conditioner in which a heat dissipating member is installed according to a first embodiment of the present invention.
9 is a perspective view of a heat dissipation member according to a first embodiment of the present invention.
10 is a side view of the heat dissipation member according to the first embodiment of the present invention.
11 is a plan cross-sectional view showing the structure of a window type air conditioner in which a heat dissipation member is installed according to a second embodiment of the present invention.
12 is a perspective view of a heat dissipation member according to a second embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

In the following description, the same component numerals are given to the same corresponding parts as in the prior art, and redundant descriptions will be omitted.

As shown in FIGS. 1 to 4, the window type air conditioner 1000 targeted by the present invention. A case 100, an evaporator 200 installed in the case 100 and installed upright on the indoor side, a cylindrical evaporator fan 700 disposed in the case 100 and installed upright adjacent to the evaporator, the case A condenser 300 installed in the 100 and installed on the outdoor side, and a cylindrical condenser fan 600 disposed in the front of the condenser 300 in the case 100 and installed next to the condenser 300 ) and a partition 900 disposed to separate the condenser 300 and the condenser fan 600, and the evaporator 200 and the evaporator fan 700.

The partition 900 preferably has an arcuate planar shape to correspond to the shape of the cylindrical condenser fan 600 .

With the operation of the condenser fan 600, outdoor air is discharged to the second outlet 170 through the second suction part 160 to cool the condenser 300 and the operation of the evaporator fan 700. Together with the air in the room comes out to the first discharge unit 150 through the first intake unit 140, the interior of the case 100 is cooled.

As shown in FIGS. 5 to 8 , the window type air conditioner 1000 according to the present invention is located on the partition wall 900 in the receiving space 670 on the opposite side of the condenser fan 600 with the partition wall 900 as the center. It is configured to include a controller 800 installed, and between the partition wall 900 and the side of the condenser fan 600 is a guide for guiding the air introduced from the outdoors through the condenser 300 back to the outdoors. An air path 910 is formed, and an installation hole 930 leading to the accommodation space 670 is formed through the partition wall 900 facing the guide air path 910, and the control unit ( 800) is inserted so that one side is exposed to the guide air path 910.

That is, the controller 800 and the heat dissipation member 500 are integrally formed, but the heat dissipation member 500 is fitted into the installation hole 930 .

The heat dissipation member 500 may be a known metal having excellent heat dissipation performance, such as aluminum.

According to this configuration, the heat generated from the control unit 800 during operation of the air conditioner by the air flow generated when the condenser fan 600 rotates is not stagnant in the accommodation space 670 and passes through the heat dissipation member 500 to the outside. It can be discharged into a very effective heat dissipation effect can be obtained.

In addition, it has a structure in which the heat dissipation member 500 is installed on the rear side of the control unit 800, and the installation flange protrudes toward the rear side while wrapping the heat dissipation member 500 on the rear side of the control unit 800. 830 is formed.

Therefore, since the outer surface of the installation flange 830 comes into close contact with the inner surface of the installation hole 930 of the partition wall 900, a firm installation is possible.

As a result, since the control unit 900 and the heat dissipation member 500 are integrally configured, it is possible to firmly install the partition wall 900 and obtain an excellent heat dissipation effect.

As shown in FIGS. 9 and 10 , a plurality of heat radiating fins 510 extending in a horizontal direction and spaced apart in a vertical direction are formed on one side of the heat radiating member 500, so that when the condenser fan 600 rotates horizontally, Since the generated horizontal moving airflow passes through the horizontally extending horizontal guide grooves 520 between the radiating fins 510 and the radiating fins 510 without blockage, more effective heat dissipation is possible.

In this case, the exposed side of the heat dissipation member 500 is installed so as not to protrude from the inner surface of the partition wall 900, so that the flow of outdoor air is not hindered when the condenser fan 600 rotates, resulting in flow noise or vibration. It is preferable not to do so.

Of course, it may be formed in a slightly protruding structure within the limit of not significantly disturbing the flow.

In addition, as shown in FIGS. 11 and 12, when viewed from a plan view, the outer surface of the heat dissipation fin 510 exposed to the guide air path 910 corresponds to the inner circumferential surface of the curved partition wall 900. It is preferably made in a curved shape.

According to this configuration, the heat dissipation effect can be greatly increased by increasing the plane area of the heat dissipation fin 510 in contact with the airflow.

In addition, according to this configuration, even if the heat dissipation fin 510 slightly protrudes toward the guide air passage 910, it is possible to minimize flow disturbance.

In addition, when viewed from a plan view, the outer surface of the heat dissipation fin 510 has a shape matching the inner circumferential surface of the curved partition wall 900 to maximize the heat dissipation effect and to enable smooth flow without clogging. do.

On the other hand, as shown in FIG. 7, the installation hole 930 penetrates in a straight line from the accommodation space 670 toward the guide air path 910, but the left and right sides of the installation hole 930 are The part of the heat dissipation fin 510 inserted into the other side of the installation hole 930 has a greatly expanded planar area by passing near the rotation center of the condenser fan 600 and passing the other side near the inner circumferential surface of the partition wall 900. It is desirable to maximize the heat dissipation effect by doing so.

In particular, it is preferable to further improve the heat dissipation effect by gradually expanding the planar area of the heat dissipation fin 510 along the rotational direction of the condenser fan 600 .

On the other hand, when looking at the heat dissipation member 500 from a side view, the length of the heat dissipation fins 510 disposed at the upper and lower ends is shorter than that of the heat dissipation fins therebetween, so that the inner surface of the partition wall 900 and the heat dissipation member 500 ), even when a step occurs between the inner surface of the partition wall 900 and the heating element 500, there is no case where the air flow due to the rotation of the condenser fan 600 is not stagnant, so that there is no concern about noise or vibration. do.

The embodiments of the present invention are merely illustrative, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible within the scope of the claims below.

100... case
140 ... first intake
150... first discharge part
160 ... second inlet
170 ... second discharge part
200... evaporator
300... condenser
500... heat dissipation member
510... heat sink fins
520... horizontal guide groove
600... condenser fan
670... accommodation space
700... evaporator fan
800... control unit
900... Bulkhead
910... guide stove
930... Installer
1000... window air conditioner

Claims (7)

case;
An evaporator installed in the case and erected on the indoor side;
a cylindrical evaporator fan disposed in the case and erected adjacent to the evaporator;
A condenser installed in the case and built up on the outdoor side;
a cylindrical condenser fan disposed in the case at the front of the condenser and erected adjacent to the condenser;
partition walls disposed to separate the condenser from the condenser fan and the evaporator from the evaporator fan; and,
a controller installed on the partition in the receiving space on the opposite side of the condenser fan around the partition;
It consists of including,
A guide air passage is formed between the partition wall and the side surface of the condenser fan to guide air introduced from the outdoors through the condenser back to the outdoors, and an installation hole leading to the accommodation space passes through the partition wall facing the guide air passage. formed, and a heat dissipation member attached to the control unit is inserted into the installation hole so that one side is exposed to the guide air path;
A plurality of heat radiating fins extending in a horizontal direction and spaced apart in a vertical direction are formed on one side of the heat radiating member, and when viewed from a plan view, an inner circumferential surface of the partition wall is formed in a curved shape, and an outer surface of the radiating fin is formed with an inner circumferential surface of the partition wall. A window type air conditioner characterized in that it is formed in a curved shape to correspond. delete According to claim 1,
A window type air conditioner, characterized in that one side of the heat dissipation member is installed so as not to protrude from the inner surface of the partition wall. delete According to claim 1,
When viewed from a plan view, the outer surface of the heat dissipation fin has a shape corresponding to the inner circumferential surface of the partition wall. According to claim 5,
The installation hole is formed to penetrate in a straight line from the accommodation space toward the guide air path, and one side of the installation hole in the left and right direction passes near the rotation center of the condenser fan and the other side is formed to pass near the inner circumferential surface of the partition wall. A window type air conditioner characterized in that. delete

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