JPH053836U - Air outlet structure in indoor unit of air conditioner - Google Patents

Abstract

(57) [Summary] [Purpose] Prevents dew condensation during cooling in an indoor unit. [Structure] The base 16 is attached to the upper inner wall 14 at the edge of the outlet 12.
It is formed into a wedge shape that increases in thickness toward the front. The overhanging portion 17 is provided on the lower front wall at the edge of the air outlet 12 and the air outlet 12
The inner wall 21 that projects toward the side and faces the air outlet 12 is the lower inner wall 18 at the edge of the air outlet 12.
To form a smooth continuous line. Thus, during cooling, the hot and humid indoor air near the outlet 12 is drawn into the blowing cold air in front of the outlet 12, and the cold air flowing along the upper inner wall 14 is blown toward the tip of the horizontal blade 15. To be done. As a result, dew condensation is prevented at the lower part of the vertical blade 13 and the tip of the horizontal blade 15.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

  The present invention relates to a dew-free outlet structure in an indoor unit.

[0002]

[Prior art]

  In the indoor unit of the air conditioner, the air drawn from the room by the rotation of the fan After exchanging heat with the refrigerant in the heat exchanger, as shown in FIGS. The air is blown out into the room again from the air outlet 2 provided in the lower part of the rule 1.

[0003]

[Problems to be solved by the device]

  However, in the conventional outlet 2, there is no dew around the outlet 2 during cooling. Occur. Therefore, add insulation, add another piece, and set the blowing direction At the same time, it is necessary to take measures against dew condensation such as limiting the angles of the horizontal blades 5 and the vertical blades 3 and increasing the fan air volume. Therefore, there is a problem that it becomes a factor and causes a cost increase.

[0004]   Here, the dew condensation at the time of cooling the air outlet 2 will be described in detail below. Occur. (A) When the basic blowing direction of cold air is horizontal with a scroll.   As shown in FIG. 3, in the lower part of the air outlet 2, high temperature and high humidity around the air outlet 2 Indoor air is blown out horizontally from the outlet 2 by the action of the scroll 6. On the cold wind side where the flow velocity is fast (hence negative pressure), it is indicated by the dashed arrow (a). As shown in FIG. As a result, vertical blade 3 A large amount of dew condensation occurs at the bottom of the.   Further, the front end portion of the horizontal blade 5 has an arc shape with a small curvature. According to The cold air blown from the outlet 2 and flowing along the horizontal blades 5 is It will come off at the tip. As a result, the horizontal blades from which the cold air has peeled off The hot and humid indoor air is drawn from both sides of the horizontal blade 5 on the upper surface of the tip of the horizontal blade 5. Condensation occurs when it is trapped.

[0005] (B) When the basic blowing direction of cold air is downward.   As shown in FIG. 4, in the lower part of the air outlet 2, it is separated from the tip of the front grill 1. The cooled cold air is blown out by the blowout port 2 in the front grill 1 as indicated by the solid arrow (b). Around the edge of the lower front wall 7 and mixes with hot and humid room air. So As a result, the indoor air around the lower part of the air outlet 2 reaches the dew point, and the air is blown out in the front grill 1. Condensation occurs at the location forming the lower front wall 7 at the edge of the mouth 2.   At the front end of the horizontal blade 5, the above-mentioned basic blowing direction is downward. Condensation occurs as in the case of the orientation.

[0006]   Therefore, the purpose of this invention is to reduce the cost by preventing dew condensation during cooling. (EN) Provided is an air outlet structure for an air conditioner indoor unit.

[0007]

[Means for Solving the Problems]

  In order to achieve the above object, a device according to claim 1 is illustrated in FIGS. 1 and 2. The air blown from the indoor fan installed in the front of the indoor unit of the air conditioner In the air outlet 12 for discharging air into the room, the air outlet 12 is installed on the front wall at the edge of the air outlet 12. When the air blows off, the air blows out toward the air outlet 12 side, and The inner wall 21 facing the outlet 12 is smoothly connected to the inner wall 18 at the edge of the outlet 12. It is characterized in that it has an overhanging portion 17 formed in this way.

[0008]   The invention according to claim 2 is the same as the invention according to claim 1, as illustrated in FIG. In the air outlet structure of the indoor unit of the air conditioner, increase the thickness toward the front. It is formed in a wedge shape and is provided on the upper inner wall 14 at the edge of the outlet 12. It is characterized by having a base 16.

[0009]

[Action]

  According to the first aspect of the present invention, the cool air is blown horizontally from the outlet 12 during cooling. When the air is blown out at high speed, the hot and humid indoor air around the air outlet 12 becomes the cold air. Tries to be drawn into. At that time, the room air that is about to be drawn into the cold air The presence of the overhanging portion 17 provided on the front wall at the edge of the air outlet 12 causes The cold air is drawn in front of the outlet 12. As a result, inside the outlet 12 Dew formation does not occur on a certain vertical blade 13 or the like.   On the other hand, when cold air is blown downward from the outlet 12 at high speed, The cold air flowing along the inner wall 18 at the edge of the mouth 12 smoothly connects to the inner wall 18. It is blown out forward along the inner wall 21 of the overhang portion 17. As a result, the overhang portion 1 The cold air that has left the inner wall 21 of 7 does not come into contact with the outer wall of the edge of the outlet 12, No dew is formed on the outer wall at the edge of the outlet 12.

[0010]   Further, in the device according to claim 2, the upper portion of the edge of the blowout port 12 is provided during cooling. The cold air blown out along the inner wall 14 is horizontally moved by the wedge-shaped base portion 16. It is blown out toward the tip of the blade 15. As a result, the flow along the horizontal blade The cold air is blown forward without peeling off from the surface of the horizontal blade, Dew does not occur at the root tip.   Further, the vertical blades 13 and the like are operated by the same action as the invention according to claim 1 described above. No dew is formed on the outer wall at the edge of the blowout port 12.

[0011]

【Example】

  Hereinafter, the present invention will be described in detail with reference to illustrated embodiments.   1 and 2 are vertical cross-sectional views of the air outlet in this embodiment. 1 and 2 At the outlet 12, the edge of the opening provided at the bottom of the front grill 11 is It is formed into a bent shape. Below the edge of the air outlet 12 in the front grill 11 By rotating a cross flow fan (not shown), a part of the inner wall 18 is formed. Vertical blades 13 for setting the horizontal blowing direction of the blown air flow It is pivotally supported.   Further, immediately before the vertical blades 13 in the outlet 12, the air flow The horizontal blades 15 for setting the vertical blowing direction are attached to the support portion (not shown). Therefore, it is rotatably supported.

[0012]   The periphery of the lower part and the upper part of the air outlet 12 is formed as follows. Ie before At the position forming the upper inner wall 14 at the edge of the outlet 12 in the surface grill 11, A wedge-shaped base portion 16 is provided so that the thickness thereof increases. In addition, front An upper front wall 19 continuous with the upper inner wall 14 at the edge of the outlet 12 in the rill 11 is constructed. An upper groove 20 extending in the horizontal direction is provided at the formed position.   In addition, a portion that constitutes a lower front wall at the edge of the outlet 12 in the front grill 11 And an overhanging portion 17 having a shape projecting forward as it goes to the outlet 12 side. Set up. Then, the inner wall 21 of the overhanging portion 17 facing the outlet 12 is attached to the above The inner wall 21 is formed so as to be smoothly connected to the inner wall 18, and the wall direction of the inner wall 21 is adjusted to be water. Make it flat. Furthermore, below the overhanging portion 17 of the front grille 11. The part is provided with a lower groove 22 extending in the horizontal direction.

[0013]   Here, in the air outlet 12 shown in FIG. A scroll 23 connected to the end 11a of the rill 11 is provided. And the above cross The basic blowing direction of the air blown by the low fan is the scroll 23 So that it becomes horizontal.   On the other hand, the scroll is not provided at the outlet shown in FIG. did Therefore, the basic blowout of the air blown out by the cross flow fan. The direction is downward.

[0014]   Hereinafter, the operation of the base portion 16 and the overhang portion 17 during cooling will be described in detail. Bell. (A) When the scroll has a scroll and the basic blowing direction of cold air is horizontal.   As shown in FIG. 1, in the lower part of the air outlet 12, the height around the air outlet 12 is increased. The hot and humid indoor air is horizontally moved from the outlet 12 by the action of the scroll 23. The tip of the front grille 11 was drawn around the cold wind side with a high flow velocity. Trying to be. At that time, the lower front wall at the edge of the outlet 12 in the front grill 11 is The part to be formed is formed so as to project forward as it faces the outlet 12 side. Since the overhanging portion 17 is provided, high temperature The moist indoor air travels forward along the overhanging portion 17 and is expanded as indicated by the broken arrow (I). It moves away from the exit portion 17 toward the front.   Therefore, the place where hot and humid indoor air is caught in the cold air is the vertical blade. It is in front of the root 13. Therefore, the indoor air may touch the vertical blades 13. There is no dew condensation on the lower part of the vertical blade 13.

[0015]   Further, the cool air flowing along the upper inner wall 14 at the edge of the outlet 12 is directed toward the front. The front end of the horizontal blade 5 is formed by the base portion 16 formed in a wedge shape so as to increase the thickness. The direction is forcibly changed to face the club. Therefore, the direction of the base 16 The changed flow prevents the separation of the cold air flowing along the horizontal blades 15. It is. As a result, the upper surface of the tip portion of the horizontal blade 15 has a high temperature from both sides. Moist indoor air is not drawn in, and dew condensation occurs at the tips of the horizontal blades 15. There is no such thing.

[0016] (B) When the basic blowing direction of cold air is downward.   As shown in FIG. 2, in the lower part of the outlet 12, the tip end of the overhang 17 is separated. The cooled cold air mixes with the hot and humid indoor air. At that time, the cold The wind moves in the horizontal direction along the inner wall 21 of the overhang 17 as indicated by the solid arrow (ro). It is blown out forward. As a result, the cold air that has left the tip of the overhanging portion 17 is not exposed to the front grill 1. 1 does not come into contact with the front grille 11 and condensation is formed around the lower part of the edge of the outlet 12 of the front grille 11. There is no slippage.   At the front end of the horizontal blade 15, the above-mentioned basic blowing direction is Condensation does not occur in the same manner as in the downward direction.

[0017]   In addition, when the above basic blowing direction is horizontal or downward, high The upper part of the rim of the air outlet 12 in the front grill 11 exposed to warm and humid indoor air The portion forming the front wall 19 and the overhanging portion 17 are cooled by the cold air. did Therefore, dew condensation may occur on the upper front wall 19 and the overhang portion 17.   Therefore, in such a case, water may be absorbed by flocking or the like and the upper groove 19 may be present. By retaining water in the upper or lower groove 22, the upper front wall 19 and the overhanging portion 17 This prevents the dew drops from adhering to the.

[0018]   As described above, in the above embodiment, the air outlet 1 in the front grille 11 is provided. At the location forming the upper inner wall 14 of the edge of No. 2, a wedge is formed so that the thickness increases toward the front. A base 16 formed in a mold is provided. In addition, the outlet 1 in the front grill 11 At the location that constitutes the lower front wall of the edge of 2, the forward direction goes toward the outlet 12 side. Overhang 17 formed so that the inner wall 21 extends horizontally as well as overhangs Is provided.   Therefore, during cooling, the hot and humid indoor air is drawn into the cold wind side. Due to the presence of the overhanging portion 17, it is drawn toward the cool air side in front of the vertical blades 13. Be done. Therefore, dew condensation does not occur on the vertical blades 13 inside the outlet 12. Absent.

[0019]   Further, due to the presence of the base portion 16, the direction of the cold air is directed to the tip portion of the horizontal blade 15. By directing, the separation of cold air at the tip of the horizontal blade 15 is prevented. As a result, hot and humid indoor air is blown from both sides of the horizontal blade 15 onto the upper surface of the horizontal blade 15. There is no condensation caused by being drawn in.   In this way, dew condensation in the vicinity of the air outlet 12 in the indoor unit is prevented.

[0020]   Therefore, according to the present embodiment, the addition of the insulating material, the addition of another piece, the blowing direction Condensation such as angle limitation of the horizontal blades 15 and vertical blades 13 that set the No measures are required, and it is possible to reduce costs.

[0021]   In the above embodiment, the lower front of the edge of the outlet 12 in the front grill 11 While the overhanging portion 17 is provided at a position forming a wall, the air outlet 1 in the front grill 11 is provided. The base portion 16 is provided at a position forming the upper inner wall 14 at the edge of the second edge. Only However, in this invention, only the projecting portion 17 may be provided.   In the above embodiment, the overhanging portion 17 is formed at the edge of the air outlet 12 in the front grill 11. Although it is provided in the part that constitutes the lower front wall of the There is no problem even if it is provided.   The base portion 16 or the overhanging portion 17 in the above-described embodiment has the shape of the front grill 11. It may be formed by deforming the shape, or may be formed separately from the front grill 11 to form the front grill 1. You may stick to 1.

[0022]

[Effect of device]

  As is clear from the above, in the indoor unit of the air conditioner of the invention according to claim 1, The air outlet structure is installed on the front wall of the rim of the air outlet in the forward direction toward the air outlet side. Since the overhanging portion is formed so as to blow out, the air is blown from the blowout port during cooling. The hot and humid indoor air that is about to be drawn in by the cold air that is blown out is present in the overhang part. Depending on the presence, the cold air is drawn in front of the air outlet.   Therefore, it is possible to prevent dew condensation from occurring on the vertical blades and the like located inside the air outlet. It   Further, the above-mentioned overhanging part overhangs forward as it faces the outlet side, The inner wall facing the air outlet is formed so as to be smoothly continuous with the inner wall of the edge of the air outlet. As a result, the cold air blown out is the inner wall of the edge of the outlet and the inner wall of the overhang. Is blown forward along and does not contact the outer wall of the edge of the blowout port.   Therefore, it is possible to prevent dew condensation on the outer wall of the edge of the air outlet.

[0023]   The air outlet structure in the indoor unit of the air conditioner according to the second aspect of the invention is Since a wedge-shaped base that increases in thickness toward the front is provided on the upper inner wall of the rim of the mouth, The cool air flowing along the upper inner wall of the edge of the outlet is blown toward the tips of the horizontal blades. The separation of the cold air that is blown out and flows along the surface of the horizontal blade is prevented.   Therefore, the dew formation at the tip of the horizontal blade due to the blown cold air is prevented. It can be prevented.

[0024]   That is, according to the present invention, it is possible to prevent dew condensation during cooling in the vicinity of the air outlet. Therefore, the cost can be reduced.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view of an outlet according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view of an outlet according to an embodiment different from FIG.

FIG. 3 is a cross-sectional view of a conventional air outlet.

FIG. 4 is a cross-sectional view of a conventional air outlet different from FIG.

[Explanation of symbols]

11 ... Front grill, 12 ... Air outlet,
13 ... Vertical blades, 14 ... Upper inner wall, 15 ... Horizontal blades, 16 ... Stand portion, 17 ... Overhang portion,
20 ... upper groove, 21 ... inner wall,
22 ... Lower groove.

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Yama ▲ Saki ▼ Toshihiro             2 of 1000 Otani, Okamoto-cho, Kusatsu-shi, Shiga             Daikin Industries, Ltd. Shiga Works (72) Inventor Keiichi Nakamura             2 of 1000 Otani, Okamoto-cho, Kusatsu-shi, Shiga             Daikin Industries, Ltd. Shiga Works (72) Inventor Hiroshi Tanaka             2 of 1000 Otani, Okamoto-cho, Kusatsu-shi, Shiga             Daikin Industries, Ltd. Shiga Works

Claims (2)

[Scope of utility model registration request] 1. An air outlet (12) provided on a front surface of an indoor unit of an air conditioner for exhausting air blown out from an indoor fan into a room, the front wall of a rim of the air outlet (12). Is provided in the outlet
The inner wall (21) facing the blowout port (12) has an inner wall (21) protruding toward the front as it goes toward the (12) side.
An outlet structure for an indoor unit of an air conditioner, comprising an overhanging portion (17) formed so as to be smoothly connected to an inner wall (18) of the edge of the air conditioner. 2. The air outlet structure for an indoor unit of an air conditioner according to claim 1, wherein the air outlet is formed in a wedge shape so as to increase in thickness toward the front, and the upper portion of the edge of the air outlet (12). An air outlet structure in an indoor unit of an air conditioner, comprising a pedestal portion (16) provided on an inner wall (14).