KR100557597B1 - Three-sided uniform discharge flow path of air conditioner indoor unit - Google Patents

Abstract

The present invention relates to a three-sided uniform discharge flow path of the indoor unit of the air conditioner, which is a discharge flow path guide for distributing flow of cold air discharged in the circumferential direction of the indoor fan among the components of the indoor unit to the left / right and the lower side of the indoor unit, that is, the indoor fan By optimizing the shape of the upper flow path guide installed on the upper side and the lower flow path guide installed on the lower side of the indoor fan according to the flow flow of the cold air flow generated from the indoor fan, the cold air flow is proportional to the discharge port area ratio of the left / right side and the lower side of the indoor unit. There is an excellent effect that the flow rate of can be uniformly discharged.

In addition, when optimizing the shape of the discharge flow path guide on the air conditioner indoor unit according to the flow flow of the cold air flow generated from the indoor fan as described above, the consumption according to the indoor fan drive compared to the conventional air conditioner indoor unit formed of a symmetrical discharge flow path guide structure There is also an excellent effect that can significantly reduce power.

Air conditioner, indoor unit, 3-sided discharge, discharge flow path, flow path guide, flow resistance

Description

Three-sided uniform discharge flow path of air conditioner indoor unit {3-uniformity path of air-conditioner inner door unit}

1 is a perspective view schematically showing a conventional air conditioner indoor unit.

2 is an operating state diagram of a conventional air conditioner indoor unit.

3 is a cross-sectional detail view showing a three-surface discharge passage of a conventional air conditioner indoor unit.

Figure 4 is a cross-sectional detail view showing a three-sided discharge passage of the indoor unit of the air conditioner according to the present invention.

5 is a flow diagram of cold air flow on a three-side discharge flow path according to the present invention;

Explanation of symbols on the main parts of the drawings

1. Indoor unit 10. Case

12. Front panel 14. Front inlet

20. Indoor heat exchanger 30. Indoor fan

40, 140. Discharge flow guide

41, 141. Upper flow guide

42, 43, 142, 143. Lower flow guide

51, 52, 53. Outlet

The present invention relates to an air conditioner, and more specifically, to the indoor fan to generate a shape of the discharge flow path guide for distributing flow of cold air discharged in the circumferential direction of the indoor fan among the components of the indoor unit to the left / right and the lower side of the indoor unit. The present invention relates to a three-sided uniform discharge flow path of an indoor unit of an air conditioner that is optimized for a flow flow of cold air streams to be uniformly discharged in proportion to the discharge port area ratio of the left / right side and the bottom side of the indoor unit.

In general, an air-conditioner has a refrigeration cycle device composed of a compressor, a condenser, a capillary tube, and a heat exchanger. It is a device that keeps the atmosphere of the room comfortable.

The air conditioner is classified into a window type air conditioner in which a refrigeration cycle device is mounted in one body and installed in a window, and a separate type air conditioner which separates an indoor unit and an outdoor unit and installs each in the indoor and outdoor areas. Therefore, it is divided into a wall-mounted type, an upper-mounted type (including package air conditioner), a ceiling-mounted type, and a ceiling-mounted type.In particular, an indoor unit having a structure that can be used as a wall-mounted or upper-mounted type and can be utilized as a ceiling-mounted type according to the user's needs. Is called a convertible indoor unit.

In this case, the outdoor unit usually includes a compressor, an outdoor heat exchanger, an outdoor fan, etc., which generate a lot of noise, and the indoor unit includes an indoor heat exchanger and an indoor fan.

Accordingly, the air conditioner indoor unit 1 includes a case 10 having a rectangular shape, as shown in FIG. 1; A front suction port 14 formed in front of the case 10 so that indoor air is sucked into the case 10 when a predetermined angle of the front panel 12 installed in front of the case 10 is opened; An indoor heat exchanger (20) installed to correspond to the front suction port (14) so as to exchange heat with the indoor air introduced through the front suction port (14); An indoor fan (30) installed at a rear side of the indoor heat exchanger (20) and forming an air flow to discharge cold air generated through heat exchange into the room; A discharge flow path guide 40 installed around the indoor fan 30 to distribute the cold air discharged in the circumferential direction of the indoor fan 30 to the left / right and the lower side of the indoor unit 1; It is composed of discharge ports 51, 52, 53 formed at the left / right side and the lower side of the indoor unit 1 so as to correspond to the discharge passage guide 40, respectively.

Referring to the operation of the conventional indoor air conditioner configured as described above are as follows.

When a predetermined angle of the front panel 12 installed in front of the case 10 is opened, indoor air is sucked into the case 10 through the front inlet 14 formed by opening the front of the case 10, and the case 10. The indoor air sucked into the inside is heat-exchanged with the refrigerant flowing inside the indoor heat exchanger 20, and thus the temperature is lowered through the evaporation of the refrigerant. Forced blowing in the circumferential direction of the indoor fan (30) through the blowing action of the), and the flow flow to the left / right and lower side of the indoor unit (1) by the discharge flow path guide 40 installed around the indoor fan (30) 2, three-sided discharge ports 51, such as discharge ports 51, 52, 53, and the like, respectively formed on the left / right side and the lower side of the indoor unit 1 so as to correspond to the discharge flow path guide 40, as shown in FIG. Discharged into the room through (52) (53) to lower the room temperature. It is kige.

On the other hand, in the case of the discharge flow path guide 40 for distributing the flow of cold air discharged in the circumferential direction of the indoor fan 30 of the components of the conventional indoor air conditioner indoor unit 1 to the left / right and the lower side of the indoor unit 1, FIG. As shown in FIG. 3, the left and right symmetrical structures are installed around the indoor fan 30. At this time, the cold air generated upward by the indoor fan 30 is the indoor fan of the discharge passage guide 40. 30 is distributed to the left and right discharge ports 51 and 52 side of the indoor unit 1 by the upper flow path guide 41 installed in the upper portion, and the cold air flow generated downward by the indoor fan 30 is discharge flow path. The lower flow guides 42 and 43 installed below the indoor fan 30 in the guide 40 flow toward the lower discharge port 53 of the indoor unit 1. In particular, in the cold air flow flowing to the lower discharge port 53 side of the indoor unit 1 by the lower flow path guides 42 and 43, some of them are directed to the left / right discharge port 51 and 52 side of the indoor unit 1. The lower flow path bent toward the left / right discharge ports 51 and 52 by the upper side surfaces of the lower flow path guides 42 and 43 that are bent, and the remaining cool air flows to the lower discharge port 53 side of the indoor unit 1. The lower surface of the guides 42 and 43 flows toward the lower discharge port 53.

However, the cold air flow generated by the indoor fan 30 has not only a radial speed component but also a circumferential speed component, and thus does not consider the flow direction of the cold air discharged through the indoor fan 30 as described above. Instead, since three-sided discharge flow paths having a symmetrical structure as shown in FIG. 3 are formed through the upper / lower flow path guides 41 and 42 and 43, a large portion of cold air flows against the discharge flow path guide 40. There is a big problem that the pressure is increased, resulting in a very large flow resistance of the cold air.

In addition, the discharge flow path structure of the indoor unit 1 formed through the upper flow path guide 41 installed on the upper side of the indoor fan 30 and the lower flow path guides 42 and 43 disposed below the indoor fan 30 as described above. Is symmetrical, but based on the flow state of the cold air discharged through the indoor fan 30, the discharge flow path structure of the indoor unit 1 is asymmetrical and discharged through the asymmetrical discharge structure. The discharge flow rate of the cold air is also asymmetric that the discharge flow rate of one side is increased, there was also a big problem that uniform room cooling is not made.

Furthermore, when the cold air discharged through the indoor fan 30 in the circumferential direction of the fan hits the discharge flow path guide 40 and the flow resistance thereof increases, the amount of cold air discharged into the room for cooling is reduced. Along with the problem, if the rotational speed of the indoor fan 30 is further increased in order to increase the amount of cold air, the power consumption of the indoor fan 30 is also increased. There was a problem.

The present invention devised to solve the above problems, the discharge flow path guide to distribute the flow of cold air discharged in the circumferential direction of the indoor fan of the components of the indoor unit to the left / right and the lower side of the indoor unit, that is, the upper side of the indoor fan By optimizing the shape of the upper flow path guide installed at the lower side and the lower flow path guide installed at the lower side of the indoor fan according to the flow flow of the cold air flow generated from the indoor fan, the ratio of the cold air flow in proportion to the discharge port area ratio of the left / right side and the lower side of the indoor unit is determined. The purpose is to allow the flow rate to be evenly discharged.

In addition, when optimizing the shape of the discharge flow path guide on the air conditioner indoor unit according to the flow flow of the cold air flow generated from the indoor fan as described above, the consumption according to the indoor fan drive compared to the conventional air conditioner indoor unit formed of a symmetrical discharge flow path guide structure There is another purpose for the power to be greatly reduced.

The object of the present invention, the discharge flow path guide for distributing flow of the cold air discharged in the circumferential direction of the indoor fan to the left / right and the lower side of the indoor unit, that is, installed on the upper side of the upper flow guide and the lower side of the indoor fan It can be solved by the three-sided uniform discharge flow path of the air conditioner indoor unit configured by optimizing the shape of the lower flow path guide to the flow of cold air generated from the indoor fan, will be described in detail with reference to the accompanying drawings.

4 is a cross-sectional detail view showing a three-surface discharge passage of the indoor unit of the air conditioner according to the present invention.

In the three-side uniform discharge flow path of the indoor unit of the present invention, the cold air flow is distributed to the left / right side and the lower side of the fan by the discharge flow path guide consisting of upper and lower flow path guides having a symmetrical structure with respect to the center of the indoor fan 30. In the air conditioner indoor unit of the three-sided discharge type discharged through the discharge port 51, 52, 53 associated with the direction;

Shapes of the upper flow path guide 141 installed on the upper side of the indoor fan 30 and the lower flow path guides 142 and 143 provided on the lower side of the indoor fan 30 of the discharge flow path guide 140 are the indoor fan 30. Characterized by optimizing for the flow of cold air flow generated in the).

At this time, O is the center point of the indoor fan 30, X is the X-direction component, P _U , P _L , P _R is the upper and lower flow path guide 141 (142) (143) closest to the indoor fan 30 Defined as the proximity of;

90°에 위치되고, 상기 하부 유로 가이드(142)(143)는 실내팬(30) 중심점(O)을 기준으로 ∠P_LOX - 180°

360°- ∠P_ROX 에 위치된 것을 특징으로 한다.The upper flow guide 141 is ∠P _U OX based on the center point O of the indoor fan 30.

Located at 90 °, the lower flow guide 142, 143 is based on the center point (O) of the indoor fan 30 ∠P _L OX-180 °

360 °-∠P _R OX.

In addition, the left and right flow path surfaces 141a and 141b of the upper flow guide 141 are generated upward by the indoor fan 30 based on the proximity point P _U of the upper flow guide 141. Predetermined angle (θ ₃ , θ ₄ ) to match the flow of cold air flow Characterized in that formed.

In addition, the horizontal and vertical guides of the one lower guide 142 is lowered by the indoor fan 30 based on the proximity point P _L of the lower guide 142 of the lower flow guides 142 and 143. Characterized in that formed at a predetermined angle (θ ₁ , θ ₂ ) in accordance with the flow of cold air flow generated by.

In addition, the horizontal and vertical guides of the other lower guide 143 are lowered by the indoor fan 30 based on the proximity point P _R of the other lower guide 143 among the lower flow guides 142 and 143. It is characterized in that formed at a predetermined angle (θ ₅ , θ ₆ ) to match the flow of cold air flow generated by.

In addition, θ ₁ of one of the lower guides 142 of the lower flow guides 142 and 143 is in a range of 220 to 260 ° from an angle reference line extending in the X direction from the proximity point P _L , and the one lower guide. Θ ₂ of 142 is in the range of 130 ° to 200 ° from the angle reference line extending in the X direction from the proximity point P _L.

In addition, θ ₃ of the left flow path surface 141a of the upper flow path guide 141 is in a range of 130 to 170 ° from an angle reference line extending from the proximal point P _{U in the} X direction, and the upper flow path guide 141 Θ ₄ of the right flow path surface 141b is within a range of 5 to 45 ° from an angle reference line extending in the X direction from the proximity point P _U.

In addition, θ ₅ of the other lower guide 143 among the lower flow guides 142 and 143 is in a range of −60 to 15 ° from an angle reference line extending from the proximity point P _{R in the} X direction, and the other lower part Θ ₆ of the guide 143 is characterized by being in the range of 225 to 280 ° from the angle reference line extending in the X direction from the proximity point P _R.

Hereinafter, the three-side uniform discharge flow path of the indoor unit of the air conditioner of the present invention will be described in detail.

The three-sided uniform discharge flow path of the air conditioner indoor unit of the present invention is formed by discharging openings 51, 52, 53 formed at the left / right side and the lower side of the conventional air conditioner indoor unit 1 formed in the structure of the discharge flow path guide 40 having the symmetry. In order to uniformize the flow rate of the cold air discharged to the room through, and to reduce the power consumption according to the driving of the indoor fan 30 compared to the conventional, that is, the shape of the discharge passage guide 140, that is, the indoor fan ( Optimize the shape of the upper flow path guide 141 installed on the upper side of the 30 and the lower flow guides 142 and 143 installed on the lower side of the indoor fan 30 in accordance with the flow flow of the cold air flow generated from the indoor fan 30. As configured, the detailed configuration of the present invention is as follows. The same reference numerals apply to the same configurations of the air conditioner indoor unit 1 to which the present invention is applied and the conventional air conditioner indoor unit 1 described above.

Since the overall configuration of the indoor unit 1 to which the three-side uniform discharge flow path of the present invention is applied has the same structure as that of the conventional indoor unit 1 shown in FIG. 1, the overall description of the indoor unit 1 with respect to the same configuration is as follows. 3 will be described in detail with respect to the three-side uniform discharge flow path of the air conditioner indoor unit 1 which is a characteristic structure of the present invention.

The three-sided uniform discharge flow path of the indoor unit 1 of the air conditioner according to the present invention includes upper and lower flow path guides 41 and 42 and 43 having a symmetrical structure with respect to the center of the indoor fan 30 as shown in FIG. 3. Cold air flow is distributed to the left / right and lower sides of the fan by the discharge flow path guide 40 so that the air conditioner indoor unit 1 of the three-sided discharge type discharged through the discharge ports 51, 52 and 53 associated with the direction. In FIG. 4, the upper flow path guide 41 installed on the upper side of the indoor fan 30 and the lower flow path guides 42 and 43 disposed on the lower side of the indoor fan 30 are illustrated in FIG. 4. As shown in, characterized in that configured to optimize the flow of cold air flow generated in the indoor fan (30).

At this time, O is the center point of the indoor fan 30, X is the X-direction component, P _U , P _L , P _R is the upper and lower flow path guide 141 (142) (143) closest to the indoor fan 30 Defined as the proximity of;

90°에 위치되고, 상기 하부 유로 가이드(142)(143)는 실내팬(30) 중심점(O)을 기준으로 ∠P_LOX - 180°

360°- ∠P_ROX 에 위치되어 있다.The upper flow guide 141 is ∠P _U OX based on the center point O of the indoor fan 30.

Located at 90 °, the lower flow guide 142, 143 is based on the center point (O) of the indoor fan 30 ∠P _L OX-180 °

It is located at 360 °-OXP _R OX.

In addition, the left and right flow path surfaces 141a and 141b of the upper flow guide 141 are generated upward by the indoor fan 30 based on the proximity point P _U of the upper flow guide 141. Predetermined angle (θ ₃ , θ ₄ ) to match the flow of cold air flow In this case, θ ₃ of the left flow path surface 141a of the upper flow path guide 141 is in the range of 130 to 170 ° from the angle reference line extending in the X direction from the proximity point P _U , Θ ₄ of the right flow path surface 141b of the flow path guide 141 is characterized by being within a range of 5 to 45 ° from an angle reference line extending in the X direction from the proximity point P _U.

The horizontal and vertical guides of the one lower guide 142 are lowered by the indoor fan 30 based on the proximity point P _L of the lower guide 142 of the lower flow guides 142 and 143. It is formed at a predetermined angle (θ ₁ , θ ₂ ) in accordance with the flow of the cold air flow generated by the, wherein θ ₁ of one of the lower guide 142 of the lower flow path guide 142, 143 is the proximity point (P) _L ) is within a range of 220 to 260 ° from an angle reference line extending in the X direction, and θ ₂ of the lower guide 142 on one side is in a range of 130 to 200 ° from an angle reference line extending in the X direction from the proximity point P _L. It is characterized in that.

In addition, the horizontal and vertical guides of the other lower guide 143 are lowered by the indoor fan 30 based on the proximity point P _R of the other lower guide 143 among the lower flow guides 142 and 143. It is formed at a predetermined angle (θ ₅ , θ ₆ ) in accordance with the flow of the cold air flow generated by the, wherein θ ₅ of the other lower guide 143 of the lower flow guide (142, 143) is the proximity point (P) _{It is in the} range of -60 to 15 degrees in the angle reference line extending in the X direction from _R ), θ ₆ of the other lower guide 143 is 225 to 280 degrees in the angle reference line extending in the X direction from the proximity point (P _R ) It is characterized by being in a range.

Furthermore, when the indoor fan 30 rotates in the counterclockwise direction, the installation position of the upper flow path guide 141 and the lower flow path guide 142 and 143 and the upper / lower flow path guides 141 and 142. 143 is installed around the indoor fan 30 under the condition that the angles of θ ₁ to θ ₆ are symmetrical.

Figure 5 shows the cold air flow state on the three-side discharge passage in accordance with the present invention.

90°에 위치되면서 θ₃ 및 θ₄의 각도로 좌/우측 유로면(141a)(141b)을 형성한 상기 상부 유로 가이드(141)와, 상기 실내팬(30)에 의해 하부로 발생되는 냉기류의 유동 흐름에 맞게 실내팬(30) 중심점(O)을 기준으로 ∠P_LOX - 180°

360°- ∠P_ROX 에 위치되면서 θ₁, θ₂ 및 θ₅, θ₆ 의 각도로 수평/수직 가이드를 형성한 상기 하부 유로 가이드(142)(143)에 의한 전체적인 토출 유로 구조가 상호 대칭적 구조를 이루게 되고, 상기와 같이 실내팬(30)에서 발생되는 냉기류의 유동 흐름이 상기 상부 유로 가이드(141)와 하부 유로 가이드(142)(143)에 의한 실내기(1)의 좌/우측 및 하측의 토출구(51)(52)(53) 면적비에 비례해지면서 도 5 에 도시한 바와 같이, 냉기류의 유량이 균일하게 분배 토출되게 된다.When the three-sided uniform discharge flow path of the present invention is configured in the indoor unit 1 as described above, the upper flow path guide 141 provided above the indoor fan 30 and the lower flow path guide provided below the indoor fan 30 ( Although the discharge flow path of the indoor unit 1 formed through the 142 and 143 has an asymmetrical structure as a whole, the discharge flow path of the indoor unit 1 based on the flow state of the cold air discharged through the indoor fan 30. That is, P _U OX based on the center point (O) of the indoor fan 30 to match the flow of cold air flow generated by the indoor fan 30 to the top.

The upper flow path guide 141, which is formed at 90 ° and forms left and right flow path surfaces 141a and 141b at an angle of θ ₃ and θ ₄ , and the cold air flow generated downward by the indoor fan 30. LP _L OX-180 ° relative to the center point (O) of the indoor fan (O) for flow.

The overall discharge flow path structure by the lower flow path guides 142 and 143, which are located at 360 °-RP _R OX and form a horizontal / vertical guide at angles of θ ₁ , θ ₂ and θ ₅ , θ ₆ , are mutually symmetrical. And the flow flow of cold air generated from the indoor fan 30 as described above is left / right of the indoor unit 1 by the upper flow guide 141 and the lower flow guide 142, 143. As shown in FIG. 5 while being proportional to the area ratio of the lower discharge ports 51, 52 and 53, the flow rate of the cold air flow is uniformly distributed and discharged.

Furthermore, when optimizing the shape of the discharge flow path guide 140 on the air conditioner indoor unit 1 as described above according to the flow of cold air flow generated from the indoor fan 30, the discharge flow path guide 40 has a symmetrical structure. Compared with the conventional air conditioner indoor unit 1 formed, the power consumption according to the driving of the indoor fan 30 can be greatly reduced, at which time the power consumption is about 2W.

In the case of the three-sided uniform discharge flow path of the present invention configured as described above, the rear suction as well as the air conditioner indoor unit 1 having the front suction and three-side discharge (left / right and lower discharge of the room) structure which is the embodiment structure of the present invention. It is noted that the present invention can also be applied to the air conditioner indoor unit 1 having a three-sided discharge (left / right and lower discharge of the room) structure.

The three-side uniform discharge flow path of the indoor unit of the air conditioner according to the present invention is a discharge flow path guide for distributing flow of cold air discharged in the circumferential direction of the indoor fan among the components of the indoor unit to the left / right and the lower side of the indoor unit, that is, the upper side of the indoor fan. By optimizing the shape of the upper flow path guide installed at the lower side and the lower flow path guide installed at the lower side of the indoor fan according to the flow flow of the cold air flow generated from the indoor fan, the flow rate of the cold air flow is proportional to the discharge port area ratio of the left / right side and the lower side of the indoor unit. There is an excellent effect that can be evenly discharged.                     

In addition, when optimizing the shape of the discharge flow path guide on the air conditioner indoor unit according to the flow flow of the cold air flow generated from the indoor fan as described above, the consumption according to the indoor fan drive compared to the conventional air conditioner indoor unit formed of a symmetrical discharge flow path guide structure There is also an excellent effect that can significantly reduce power.

Claims (8)

A three-sided air conditioner in which cold air is distributed to the left / right and lower sides of the fan by the discharge flow path guide consisting of upper and lower flow path guides having a symmetrical structure based on the center of the indoor fan and discharged through the discharge holes associated with the direction. In an indoor unit; Where O is the center point of the indoor fan, X is the X direction component, and P _U , P _L , P _R are the closest points of the upper and lower flow path guides closest to the indoor fan; The upper flow guide is ∠P _U OX based on the indoor fan center point (O)

Located at 90 °, The lower flow guide is ∠P _L OX-180 ° based on the indoor fan center point (O).

360 °-∠P _R OX Three-sided uniform discharge flow path of indoor unit, characterized in that located in the air conditioner. delete According to claim 1, wherein the left / right flow path surface of the upper flow path guide relative to the proximity point (P _U ) of the upper flow path guide to a predetermined angle (θ ₃ to match the flow of the cold air flow generated by the indoor fan upwards , θ ₄ ) Three-sided uniform discharge passage of the indoor unit of the air conditioner, characterized in that formed as. According to claim 1, wherein the horizontal and vertical guide of the one lower guide based on the proximity point (P _L ) of the lower guide of the lower flow path guide to a predetermined angle to match the flow of cold air flow generated by the indoor fan downwards A three-sided uniform discharge flow path of an indoor unit of an air conditioner, characterized by being formed by (θ ₁ , θ ₂ ). According to claim 1, wherein the horizontal and vertical guides of the other lower guide based on the proximity point (P _R ) of the other lower guide among the lower flow guides by a predetermined angle to match the flow of cold air flow generated by the indoor fan downwards A three-sided uniform discharge flow path of an indoor unit of an air conditioner, characterized by being formed by (θ ₅ , θ ₆ ). The method of claim 4, wherein θ ₁ of one of the lower guides of the lower flow path guide is in the range of 220 to 260 degrees from the angle reference line extending in the X direction from the proximity point P _L , Θ ₂ of the lower guide on the one side of the three-sided uniform discharge flow path of the indoor unit of the air conditioner, characterized in that in the range 130 ~ 200 ° from the angle reference line extending in the X direction from the proximity point (P _L ). The θ ₃ of the left flow path surface of the upper flow path guide is in the range of 130 to 170 ° from an angle reference line extending in the X direction from the proximity point P _U. Θ ₄ of the right flow path surface of the upper flow path guide is within a range of 5 to 45 ° from an angle reference line extending in the X direction from the proximity point P _U. The method of claim 5, wherein the θ ₅ of the other lower guide of the lower flow path guide is in the range of -60 to 15 degrees from the angle reference line extending in the X direction from the proximity point (P _R ), Θ ₆ of the other lower guide is in the range of 225 to 280 ° from the angle reference line extending in the X direction from the proximity point (P _R ).

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