KR100697198B1 - Indoor unit of air-conditioner - Google Patents

Abstract

The present invention relates to a mechanism for converting vortices formed by an indoor blower for flowing air upward, into laminar flow, wherein the indoor unit of the air conditioner according to the present invention comprises: a cabinet; A discharge port unit forming a discharge hole in an upper portion of the cabinet; A blower for flowing air toward the discharge port unit; It includes a laminar flow switching means for converting the vortex generated in the blower to laminar flow, the laminar flow switching means has the advantage that the straightness is given to the air converted into laminar flow to prevent the air from being driven to any discharge port. .

Description

Indoor unit of air conditioner {Indoor unit of air-conditioner}             

1 is a perspective view showing an indoor unit of an air conditioner as a first embodiment of the present invention;

2 is an exploded perspective view in which the indoor unit of FIG. 1 is disassembled;

3 is a perspective view showing the grating member of FIG.

4 is an exploded perspective view in which an indoor unit is exploded according to a second embodiment of the present invention;

5 is a perspective view showing the indoor unit of the air conditioner according to the prior art

6 is an exploded perspective view showing the inside of FIG.

<Explanation of symbols on main parts of the drawings>

20: cabinet 22: base

24: front panel 25: inner wall surface

26 side panel 27 inlet port

28: top panel 30: indoor heat exchanger

40: indoor blower of the first embodiment 42: housing

44: fan 50: discharge port unit

52 discharge port 60 grating member

62: hole 64: rib

66: installation frame

70: indoor blower of second embodiment

The present invention relates to an indoor unit of an air conditioner including an indoor blower for flowing air upward, and more particularly, to a mechanism for converting a vortex formed by the indoor blower into a laminar flow.

FIG. 5 is a perspective view illustrating an indoor unit of an air conditioner according to the prior art, and FIG. 6 is an exploded perspective view illustrating the inside of FIG. 5.

5 and 6, the indoor unit of the air conditioner according to the prior art improves the efficiency of the indoor heat exchanger (1) and the indoor heat exchanger (1) for exchanging indoor air and refrigerant, and air into the room. It comprises an indoor blower (2) for flowing the, and the cabinet (5) formed with the suction port (3) and the discharge port (4).

The cabinet 5 has a base 6, a front cabinet 7 having an inlet 3 and an outlet 4 formed therein, and a rear cabinet 8 on which the indoor heat exchanger 1 and the indoor blower 2 are mounted. It is configured to include).

The suction port 3 is formed on both lower sides of the front cabinet 7, and the toe outlet 4 is formed on the upper front surface of the front cabinet 7.

In addition, a filter 9 for filtering the air sucked through the suction port 3 is installed inside the suction port 3.

On the other hand, the discharge port 4 is formed in plural to discharge the air flow by the indoor blower 2 to the room, the area of the front discharge port 4a formed toward the front side is the largest, the front discharge port ( The area of the side discharge port 4b formed at both side surfaces of 4a) is formed relatively narrower than the front discharge port 4a.

The side outlet 4b is equipped with an opening / closing mechanism 10 for opening and closing the side outlet 4b, and is opened and closed according to a user's request.

However, the discharge port 4 of the cabinet 5 has a discharge port formed so that the main discharge of air toward the front surface is main. Even though the side discharge port 4b is formed toward the side surface, the front discharge port 4a Most air is discharged through the air, and the amount of air discharged through the side discharge port 4b has a slight problem.

Therefore, the indoor unit having a small amount of air discharged to the side as described above has a problem that is not suitable for the room except the 'I' shape.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an indoor unit formed such that the air discharged from the indoor unit is concentrated to one side and is not discharged.

The indoor unit of the air conditioner according to the present invention for solving the above technical problem; A discharge port unit forming a discharge hole in an upper portion of the cabinet; A blowing fan for flowing air toward the discharge port unit; A housing formed to surround a circumference of the blowing fan and opened in a vertical direction so that air is blown in a vertical direction; It is characterized in that it comprises a laminar flow switching means disposed on the upper side of the housing for switching the laminar flow of air passing through the housing.

 The laminar flow switching means is characterized in that it is arranged horizontally.

 The laminar flow switching means is characterized in that the lattice member formed with a plurality of holes.

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

1 is a perspective view illustrating an indoor unit of an air conditioner as a first embodiment of the present invention, FIG. 2 is an exploded perspective view in which the indoor unit of FIG. 1 is disassembled, and FIG. 3 is a perspective view of the lattice member of FIG. 2.

As shown in FIGS. 1 to 3, a first embodiment according to the present invention includes a cabinet 20, an indoor heat exchanger 30 for exchanging indoor air and a refrigerant, and air inside the cabinet 20. An indoor blower 40 for discharging air, a discharge port unit 50 for forming a discharge port 52 so that the air discharged by the indoor blower 40 is discharged to the outside of the cabinet 20, and the indoor blower ( And laminar flow switching means for converting the air discharged by 40 into laminar flow.

The cabinet 20 includes a base 22, a front panel 24 installed on an upper portion of the base 22, side panels 26 coupled to both sides of the front panel 24, and the front panel. And an upper panel 28 coupled to the upper surface of the side panel 26.

An inlet port 27 is formed in the side panel 26 to allow air to flow into the cabinet 20, and the outlet unit 50 is mounted on the upper panel 28 to form an outlet port 52. do.

The indoor heat exchanger (30) is installed near the suction port (27) to exchange heat between the air introduced through the suction port (27) and the refrigerant, and the shape of the indoor heat exchanger (30) is provided at the plurality of suction ports (27). It is installed in a '∧' shape to form more contact area with the intake air, the indoor blower 40 discharges the air heat exchanged with the indoor heat exchanger 30 toward the discharge port unit (50).

The discharge port unit 50 is formed in a cube, the overall shape is formed, the lower surface is formed so that most of the air to communicate with the air to discharge, the discharge port 52 is formed on the side.

The indoor blower 40 is a device that receives air from the suction port 27 and discharges the air upwards, and the air flowed by the indoor blower 40 is cabinet 20 through the discharge port 52. Discharged out.

On the other hand, the discharge port 52 is formed on the outer side of the discharge port unit 50, the air flowing through the cabinet 20 flows on the inner wall surface 25 of the cabinet 20 to change the direction during discharge The loss is reduced.

Thus, the indoor blower 40 has a shape in which the housing 42 is extended upward to discharge the air introduced from the lower side toward the inner wall 25 of the cabinet 20, and the fan 44 for flowing the air is Air is discharged in a spiral form so as to be discharged in a form extending toward the cabinet 20. That is, the air discharged in the spiral form as described above is moved toward the wall surface 25 of the cabinet 20 to move along the inner wall surface 25 of the cabinet 20, but the air forms a vortex.

Thus, the grid member 60, which is a laminar flow switching means for converting the vortices generated by the indoor blower 40 into laminar flow, is installed above the indoor blower 40.

The grid member 60 is characterized in that a plurality of holes 62 are formed to communicate the air discharged by the indoor blower (40).

The lattice member 60 forms a vortex and the hole 62 is formed to a predetermined depth in order to convert the air entering into the laminar flow, and the air introduced from the lower side passes through the hole 62 and goes straight upward. Is converted to laminar flow.

The lattice member 60 is positioned above the indoor blower 40, and is particularly spaced apart from the housing 42 in order to provide more uniform straightness to the vortex generated in the indoor blower 40. .

In this embodiment, the grating member 60 is not fixed to the cabinet 20 directly, but is fixed to the installation frame 66 which is caught on the upper side of the cabinet 20, and then fixed to the cabinet 20. The mounting frame 66 and the grid member 60 are fixed by an adhesive or fastening means (not shown) such as bolts and nuts.

In addition, the grid member 60 is fixed to the outside to contact the inner wall 25 of the cabinet 20 is installed so that all the air discharged through the indoor blower 40 passes through the grid member 60. .

Here, looking at the assembly process of the indoor unit of the present invention, the indoor heat exchanger 30 is installed above the base 22, the indoor blower 40 is installed above the indoor heat exchanger 30, and assembled When the front panel 24 and the side panel 26 are wrapped around the outside of the indoor heat exchanger 30 and the indoor blower 40, the cabinets 20 are formed by assembling the panels 24 and 26. The installation frame 66 is fixed to the inner wall surface 25. The installation frame 66 is fixed to the inner wall surface 25 of the cabinet 20 by a fastening means spaced apart from the indoor blower 40 by a fastening means, and the grid member 60 to the inside of the installation frame 66. Is seated and fixed. The upper panel 28 is fixed to the upper side of the front panel 24 and the side panel 26, and the discharge port unit is fixed through the upper panel 28.

4 is an exploded perspective view in which an indoor unit according to a second embodiment of the present invention is disassembled. As shown in FIG. 4, the second embodiment is provided with an indoor blower 70 of a different type from the first embodiment, but the grid member 60 according to the present invention flows regardless of the type of the indoor blower 70. Improved straightness by converting the air to laminar flow.

The second embodiment shown in FIG. 4 differs from the configuration of the first embodiment only in the type of the indoor blower 70 and the other configuration is the same, and a detailed description thereof will be omitted.

Hereinafter, the operation of the first embodiment according to the present invention will be described in more detail with reference to FIGS. 2 and 3.

First, when the fan 44 of the indoor blower 40 is driven to flow air, the outside air of the cabinet 20 flows into the cabinet 20 through the suction port 27 by the pressure difference, and the cabinet The air flowed into the interior 20 flows into the housing 42 via the indoor heat exchanger 30. The air flowing into the housing 42 is discharged helically by the fan 44 toward the inner wall surface 25, and vortex is formed by the fan 44. It flows into the hole 62 of 60. The air introduced into the hole 62 is rubbed with the rib 64 forming the hole 62, and the air flows through the rib 64 in a predetermined distance. Is switched to. The air passing through the hole 62 flows to the discharge port unit 50 and is discharged to the outside of the cabinet 20 through the discharge port 52 of the discharge port unit 50.

Since the air flowing by the above process is converted into the laminar flow of air by the lattice member 60, the air flow is prevented from escaping to either side of the discharge port 52.

The indoor unit of the air conditioner according to the present invention has an advantage of having a structure suitable for diffusing air into a large area because the discharge port is not formed in either direction.

In addition, the laminar flow converting means according to the present invention has the advantage of converting the vortices into laminar flow to impart straightness to the air flowing.

In addition, the laminar flow switching means according to the present invention has the advantage that the straight air is imparted to the air converted to laminar flow to prevent the air from being driven to either discharge port.

In addition, the indoor unit according to the present invention has the advantage of discharging the air in the same amount in each direction, the air conditioning the wide indoor space at a uniform speed.

Claims (4)

Cabinets; A discharge port unit forming a discharge hole in an upper portion of the cabinet; A blowing fan for flowing air toward the discharge port unit; A housing formed to surround a circumference of the blowing fan and opened in a vertical direction so that air is blown in a vertical direction; The indoor unit of the air conditioner is disposed on the housing and comprises a laminar flow switching means for switching the laminar flow of air passing through the housing laminar flow. The method of claim 1, The indoor unit of the air conditioner, characterized in that the laminar flow switching means is arranged horizontally. The method of claim 1, The laminar flow switching means is an indoor unit of an air conditioner, characterized in that a lattice member having a plurality of holes formed therein. delete

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