KR100654996B1 - The acoustic absorption structure of air-conditioner inner door unit - Google Patents

Abstract

The present invention relates to a sound absorbing structure of an indoor unit of an air conditioner, which is connected from the discharge side of the indoor fan to the louver and the vane in order to prevent noise generated by colliding with the cold air discharged through the blowing action of the indoor fan among the components of the indoor unit of the air conditioner. Instead of the styrofoam attached to the guide chassis forming the discharge flow path, a sound absorbing material molded into a predetermined shape is attached by using a porous membrane to have a flow path surface having a small flow resistance, thereby preventing noise caused by cold air collision. There is an excellent effect to improve the sound absorption performance.

In addition, when the outer peripheral surface of the sound absorbing material formed of the membrane is peeled off with vinyl tape, the water absorbing effect is blocked by the vinyl tape, thereby preventing water condensation (waterproof) of the conventional styrofoam accordingly. There is also an excellent effect of maintaining the existing performance of insulation.

Air conditioner, indoor unit, discharge channel, membrane, sound absorption

Description

The acoustic absorption structure of air-conditioner inner door unit

1 is a cross-sectional view schematically showing the structure of a general air conditioner indoor unit.

Figure 2 is a state diagram showing a sound absorption structure of a conventional air conditioner indoor unit.

Figure 3 is a schematic cross-sectional view of the indoor unit air conditioner according to the present invention.

Figure 4 is a state diagram showing the sound absorption structure of the indoor unit of the air conditioner according to the present invention.

Figure 5 is an embodiment showing another sound absorption structure of the indoor unit of the air conditioner according to the present invention.

Figure 6 is an operational state diagram showing the sound absorption process by the operating state and the discharge passage of the indoor unit of the air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawings

1. Main chassis 3. Front panel

4. Filter 5, 5 '. Suction grill

9. Indoor heat exchanger 11. Indoor fan

13. Discharge grill 14. Discharge flow path

15.Vane 16. Louver

20. Guide chassis 22. Insertion groove

30. Sound absorbing material 30a. Plate-shaped sound absorbing material

32, 32a. Vinyl Tape M. Membrane

S. Styrofoam

The present invention relates to an air conditioner, and more particularly, from the discharge side of the indoor fan to the louver and the vane, in order to prevent noise generated when the cold air discharged through the blowing action of the indoor fan among the components of the indoor unit of the air conditioner is hit. Instead of the styrofoam attached to the guide chassis forming the discharge flow path, a sound absorbing material molded into a predetermined shape to attach a flow path surface having a small flow resistance using a membrane made of porous material can be attached to block noise caused by cold air collision. It relates to a sound absorbing structure.

In general, the air conditioner is equipped with a refrigeration cycle device composed of a compressor, an outdoor heat exchanger, an expansion valve, an indoor heat exchanger, and the like. It is a device that keeps the indoor atmosphere pleasant by exporting it properly.

The air conditioner is largely divided into an integrated type and a separate type, and the integrated air conditioner is composed of one unit as a whole, and the separate type air conditioner is divided into an indoor unit installed indoors and an outdoor unit installed outdoors.

Referring to the wall-mounted air conditioner installed on the wall of the separate air conditioner in detail as follows.

The wall-mounted air conditioner, as shown in Figure 1, the main chassis (1) is installed on the wall; A front panel 3 installed at the front of the main chassis 1; Suction grills 5 and 5 'formed at an upper end of the main chassis 1 and a front panel 3; An indoor heat exchanger (9) installed corresponding to the suction grills (5) and (5 '); An indoor fan (11) installed at the rear of the indoor heat exchanger (9) to form an air flow so that cold air generated through heat exchange can be discharged into the room; A discharge grill 13 installed at a lower end of the indoor heat exchanger 9 so that the cold air flowing through the indoor fan 11 is discharged into the room; The vane 15 is installed at the outlet side of the discharge grill 13 and controls the discharge direction of the cold air discharged to the room up and down while opening or closing the outlet of the discharge grill 13 according to the operation / stop of the air conditioner. and; And a louver 16 installed on the discharge flow path 14 of the discharge grill 13 to enable left and right rotation, and controlling the discharge direction of the cold air discharged into the room from side to side.

Reference numeral 4 denotes a filter 4 for filtering out fine dust or contaminants introduced into the indoor air.

Referring to the operating state of the conventional wall-mounted air conditioner configured as described above are as follows.

When the wall air conditioner is operated, indoor air is introduced through the suction grills 5 and 5 'by driving an indoor fan (centrifugal fan) 11. The indoor air introduced as described above is introduced into the indoor heat exchanger. (9) The temperature is lowered through the evaporation of the refrigerant while performing heat exchange with the refrigerant flowing inside.

In this way, the indoor air whose temperature is lowered, that is, the cold air, flows to the discharge grill 13 installed at the lower end of the indoor heat exchanger 9 by driving the indoor fan 11, and the cold air flows to the discharge grill 13. The discharge direction is controlled by the louver 16 and the vane 15 to be discharged into the room.

However, in the conventional air conditioner indoor unit configured as described above, the indoor air temperature decreases through heat exchange between the indoor air introduced into the indoor unit by the suction action of the indoor fan 11 and the refrigerant flowing in the indoor heat exchanger 9. When the changed cool air is discharged to the discharge grill 13 through the blowing action of the indoor fan 11, wind noise caused by discharge pressure, that is, the louver from the discharge side of the indoor fan 11 16) and the vane 15 is connected to the guide chassis 20 to form a discharge flow path 14 to the guide chassis 20 to prevent the noise generated by hitting the cold air discharged through the blowing action of the indoor fan (11). Styrofoam (S) was attached to the (20) plane, and used.

However, in this case, while the heat exchange action of the indoor heat exchanger 9 is performed, water is formed on the outer circumferential surface and the fin of the refrigerant pipe, and at the same time, the water is dropped on the discharge passage 14 which is lower than the indoor heat exchanger 9. As for water condensation on the surface of the guide chassis 20 forming the discharge passage 14, since water acts as a self-waterproof material in which water is not absorbed into the styrofoam S, the surface of the styrofoam S It flows down to the outside of the indoor unit through a drain (not shown) formed in a predetermined position of the indoor unit can prevent water condensation on the discharge passage 14, but the guide for forming the discharge passage 14 For the sound absorbing performance of absorbing and blocking the noise generated when the cold air discharged through the blowing action of the indoor fan 11 to the chassis 20, the lattice structure of the styrofoam (S) is a micro-perforated like a porous material Since the film thickness of the structure, that is, almost blocked, that is, the styrofoam (S) is longer than the wavelength of the noise, the styrofoam (S) does not absorb the noise and almost reflects the noise due to cold air collision. 95% of the noise), such as almost no sound absorption performance for the noise was a big problem that can not block the noise caused by the cold air collision.

In addition, there is a big problem that the user's reliability of the product (indoor) is greatly reduced while preventing the noise due to cold air collision through the styrofoam (S) as described above.

The present invention has been made in order to solve the above problems, from the discharge side of the indoor fan to the louver and the vane to prevent noise generated when the cold air discharged through the blowing action of the indoor fan of the components of the indoor unit of the air conditioner hit Instead of the styrofoam attached to the guide chassis connected to form the discharge flow path, by attaching a sound absorbing material formed into a predetermined shape to have a flow surface with a small flow resistance by using a porous membrane, it is possible to block noise caused by cold air collision. The purpose is to improve the sound absorption performance of the.

In addition, when the outer peripheral surface of the sound-absorbing material formed of the membrane is peeled with vinyl tape, the water absorbing effect is blocked by the vinyl tape, thereby preventing water condensation (waterproof) of the conventional styrofoam accordingly. Another objective is to ensure that the existing performance of insulation is maintained.

The object of the present invention is a porous material in the guide chassis which is connected to the louver and the vane from the discharge side of the indoor fan to form a discharge flow path in order to prevent noise generated when the cold air discharged through the blowing action of the indoor fan is hit. It can be solved by the sound absorbing structure of the air conditioner indoor unit configured by attaching the sound absorbing material formed in a predetermined shape to have a flow path surface having a small flow resistance using a membrane, will be described in detail with reference to the accompanying drawings.

3 is a cross-sectional view schematically showing the air conditioner indoor unit according to the present invention, Figure 4 is a state diagram showing a sound absorbing structure of the air conditioner indoor unit according to the present invention.

The sound absorbing structure of the indoor unit of the air conditioner according to the present invention is an air conditioner indoor unit in which the discharge passage 14 is formed by a guide chassis 20 connected from the discharge side of the indoor fan 11 to the louver 16 and the vanes 15. ;

By attaching the sound absorbing material 30 of the porous material formed in a predetermined shape to the surface of the guide chassis 20 forming the discharge passage 14 to have a flow path surface having a small flow resistance through the blowing action of the indoor fan 11 Characterized in that the configured to block the absorption of the noise generated while the discharged cold air hit.

At this time, the sound absorbing material 30 of the porous material is characterized in that consisting of any one of the membrane (M), felts, polyurethanes, glass fibers, polyamides.

In addition, in order to prevent the water falling on the surface of the guide chassis 20 forming the discharge passage 14 from being absorbed by the sound absorbing material 30, the thickness of the sound absorbing material 30 is less than a predetermined thickness having a sound absorbing effect on the outer peripheral surface of the sound absorbing material 30. It is characterized in that a thin film such as vinyl tape 32 having a peeling treatment.

On the other hand, in another sound absorbing structure of the indoor unit of the air conditioner according to the present invention, the discharge passage 14 is formed by the guide chassis 20 connected to the louver 16 and the vanes 15 from the discharge side of the indoor fan 11. In an air conditioner indoor unit;

The insertion groove 22 having a predetermined depth is formed in the guide chassis 20 which forms the discharge passage 14 so as to block and absorb the noise generated while colliding with the cold air discharged through the blowing action of the indoor fan 11. Inserting the guide chassis 20 in order to insert the plate-shaped sound absorbing material (30a) of the porous material in the insertion groove 22, and to prevent the water falling to the surface of the guide chassis 20 is absorbed into the sound absorbing material (30a). A thin film such as a vinyl tape 32a having a predetermined thickness or less having a sound absorption effect is attached to the groove 22, and the plate-shaped sound absorbing material 30a is in contact with the vinyl tape 32a.

At this time, the plate-shaped sound absorbing material (30a) of the porous material is also characterized in that made of any one of the membrane (M), felts, polyurethanes, glass fibers, polyamides.

Hereinafter, the sound absorption structure of the air conditioner indoor unit of this invention is demonstrated in detail.

The sound absorbing structure of the air conditioner indoor unit of the present invention is attached to the guide chassis 20 which is connected to the louver 16 and the vane 15 from the discharge side of the indoor fan 11 among the components of the air conditioner indoor unit to form the discharge passage 14. Instead of styrofoam (S) attached to the guide chassis 20 to improve the sound absorption performance, such as to block the noise due to cold air impact compared to the styrofoam (S), using a membrane (M) which is a porous material The sound absorbing material 30 formed in a predetermined shape is attached to have a flow path surface having a small flow resistance, and the detailed configuration of the present invention is as follows. The same reference numerals apply to the same configuration of the air conditioner indoor unit to which the present invention is applied and the aforementioned conventional air conditioner indoor unit.

Before describing the sound absorbing structure of the air conditioner indoor unit according to the present invention in detail, the air conditioner indoor unit to which the sound absorbing structure of the present invention is applied will be described as follows.

In the case of the air conditioner indoor unit to which the sound absorbing structure of the present invention is applied, the main chassis 1 installed on the wall of the components of the conventional air conditioner indoor unit shown in FIG. 1; A front panel 3 installed at the front of the main chassis 1; Suction grills 5 and 5 'formed at an upper end of the main chassis 1 and a front panel 3; An indoor heat exchanger (9) installed corresponding to the suction grills (5) and (5 '); An indoor fan (11) installed at the rear of the indoor heat exchanger (9) to form an air flow so that cold air generated through heat exchange can be discharged into the room; A discharge grill 13 installed at a lower end of the indoor heat exchanger 9 so that the cold air flowing through the indoor fan 11 is discharged into the room; The vane 15 is installed at the outlet side of the discharge grill 13 and controls the discharge direction of the cold air discharged to the room up and down while opening or closing the outlet of the discharge grill 13 according to the operation / stop of the air conditioner. and; The louver 16 is installed on the discharge passage 14 of the discharge grill 13 so as to be rotated left and right, and adjusts the discharge direction of the cold air discharged to the left and right. In the guide chassis 20 formed in the indoor unit structure, that is, the characteristic structure of the present invention, that is, connected to the louver 16 and the vane 15 from the discharge side of the indoor fan 11 to form the discharge passage 14. By attaching the sound absorbing material 30 of the porous material to block the noise generated by the impact of the cold air discharged through the blowing action of the indoor fan (11).

According to the sound absorbing structure of the indoor unit according to the air conditioner in detail, the air conditioner indoor unit in which the discharge flow path 14 is formed by the guide chassis 20 connected from the discharge side of the indoor fan 11 to the louver 16 and the vanes 15. 3, the sound absorbing material 30 of the porous material molded in a predetermined shape is attached to the guide chassis 20 forming the discharge flow path 14 to have a flow path surface having a small flow resistance. It is configured to absorb and block the noise generated when the cold air discharged through the blowing action of the indoor fan (11).

In this case, the porous material is formed in the lattice structure of the material has a plurality of micro-pores 31, the film thickness by the micro-holes 31 is made shorter than the wavelength of the noise, longer than the membrane of the porous material Noise having a wavelength length penetrates through the membrane of the porous material and penetrates into the micro-pores 31 of the porous material, thereby removing the noise through the eddy phenomenon in the micro-holes 31. As the sound absorbing material 30, felts, polyurethanes, glass fibers, polyamides and the like can also be used for the membrane M as a representative.

In addition, in the case of the porous sound absorbing material 30, in order to prevent the water falling to the surface of the guide chassis 20 forming the discharge passage 14 is absorbed into the sound absorbing material 30, the sound absorbing material 30 of the porous material A vinyl tape 32 is attached to the outer circumferential surface thereof so that the sound absorbing material 30 is waterproofed by the vinyl tape 32.

The vinyl tape 32 on which the outer circumferential surface of the sound absorbing material 30 is peeled is made of a thin film having a thickness of 0.1 mm. In this case, a thin film of vinyl is used in addition to the vinyl tape 32 on which the outer circumferential surface of the sound absorbing material 30 is peeled off. You can use both.

5 is a view illustrating another sound absorbing structure of an indoor unit of an air conditioner according to the present invention, which is discharged by a guide chassis 20 connected from the discharge side of the indoor fan 11 to the louver 16 and the vane 15. In the air conditioner indoor unit 14 is formed, as shown in Figure 5, the discharge flow path 14 is formed to absorb and block the noise generated when the cold air discharged through the blowing action of the indoor fan 11 is formed. Insertion grooves 22 having a predetermined depth are formed in the guide chassis 20 to insert the plate-shaped sound absorbing material 30a of the porous material into the insertion grooves 22, and water falling onto the surface of the guide chassis 20 is absorbed. The vinyl tape 32a is attached to the insertion groove 22 of the guide chassis 20 in order to prevent absorption by the 30a, but the plate-shaped sound absorbing material 30a is in contact with the vinyl tape 32a.

At this time, the plate-shaped sound absorbing material (30a) of the porous material inserted into the insertion groove 22 of the guide chassis 20 to block the noise generated when the cold air hit, also the membrane (M) shown in FIG. In addition, any of felts, polyurethanes, glass fibers, and polyamides may be used.

In addition, the vinyl tape attached to the insertion groove 22 of the guide chassis 20 to contact the plate-shaped sound absorbing material 30a in order to prevent the water falling to the surface of the guide chassis 20 to be absorbed by the sound absorbing material 30a. (32a) is also made of a thin film of 0.1 mm thickness, the same as the vinyl tape 32 attached to the outer peripheral surface of the sound absorbing material 30 of Figure 4, the plate-shaped sound absorbing material (30a) as described above of the guide chassis 20 In addition to the vinyl tape 32a attached to the insertion groove 22, any vinyl thin film can be used.

Referring to the sound absorbing process by the operating state and the discharge passage of the indoor unit configured as described above are as follows.

6 is an operational state diagram showing the sound absorbing process by the operating state and the discharge passage of the indoor unit of the air conditioner according to the present invention.

First, when the air conditioner indoor unit is operated to cool the room, as shown in FIG. 6, indoor air is introduced through the suction grills 5 and 5 'by driving an indoor fan (centrifugal fan) 11. In addition, the indoor air introduced as described above undergoes heat exchange with the refrigerant flowing in the indoor heat exchanger 9, thereby lowering the temperature through the evaporation of the refrigerant.

The indoor air, that is, the cold air, whose temperature is lowered as described above, is discharged to the discharge grill 13 side along the discharge passage 14 installed at the lower end of the indoor heat exchanger 9 through the blowing action of the indoor fan 11. In particular, when the cold air driven by the indoor fan 11 is discharged onto the discharge passage 14, it is connected from the discharge side of the indoor fan 11 to the louver 16 and the vane 15 to form the discharge passage 14. Noise is generated while the cold air hits the guide chassis 20, the generated noise is absorbed and removed by the membrane (M) sound absorbing material 30 of the porous material attached to the guide chassis 20, When the noise is removed through the membrane (M) sound-absorbing material 30 is a porous material in more detail as follows.

As described above, a lattice structure in which a plurality of micro-holes 31 are formed in the noise generated when the guide chassis 20 forming the discharge channel 14 and the cold air collide with each other, that is, the film thickness due to the micro-holes 31 is the wavelength of noise. When penetrating into the membrane (M) sound absorbing material 30 made shorter than the length and invades the micro-pores 31 inside the membrane (M), the micro-pores penetrated without penetrating further through the micro-pores 31 The noise circulates within (31), and the wavelength of the noise gradually decreases, thereby eliminating the noise.

In addition, in the state in which noise due to cold air collision is removed by the membrane M attached to the surface of the guide chassis 20 as described above, the cold air rides on the flow path surface having a small flow resistance of the membrane M, and the discharge grill 13 ) And the cold air flowing through the discharge grill 13 is controlled by the louver 16 and the vane 15 to discharge the air to the room, thereby cooling the room by the cool air. You lose.

Further, through the heat exchange action of the indoor heat exchanger (9), the water formed on the refrigerant pipe and the fin falls on the discharge passage (14) which is lower than the indoor heat exchanger (9) to form the discharge passage (14). Even if water forms on the surface of the guide chassis 20, the vinyl tape 32 is attached to the outer circumferential surface of the membrane M sound absorbing material 30 so that the membrane M sound absorbing material is removed by the vinyl tape 32. 30) while preventing the water from being absorbed, the vinyl tape 32 flows down the surface of the peeled membrane M and is drained to the outside of the indoor unit through a drain hole (not shown) formed at a predetermined position of the indoor unit. Thus, water condensation on the discharge passage 14 may also be prevented.

The sound absorbing structure of the indoor unit of the air conditioner of the present invention is connected to the louver and the vane from the discharge side of the indoor fan to prevent the noise generated when the cold air discharged through the blowing action of the indoor fan among the components of the air conditioner indoor unit is connected to the discharge passage Instead of the styrofoam attached to the guide chassis to be formed, by attaching a sound-absorbing material molded into a predetermined shape to have a flow surface with a small flow resistance using a membrane made of a porous material, the sound-absorbing performance, such as to block the noise caused by cold air impact can be improved. It has an excellent effect.

In addition, when the outer peripheral surface of the sound absorbing material formed of the membrane is peeled off with vinyl tape, the water absorbing effect is blocked by the vinyl tape, thereby preventing water condensation (waterproof) of the conventional styrofoam accordingly. There is also an excellent effect of maintaining the existing performance of insulation.

Claims (5)

An air conditioner indoor unit in which a discharge flow path is formed by a guide chassis connected to a louver and a vane from a discharge side of an indoor fan; The sound absorbing material of a porous material formed in a predetermined shape is attached to the guide chassis surface forming the discharge flow path so as to have a flow path surface having a small flow resistance. And attaching a vinyl tape to contact the sound absorbing material to prevent water falling onto the guide chassis surface from being absorbed into the sound absorbing material. The method according to claim 1, wherein an insertion groove having a predetermined depth is formed on the guide chassis surface forming the discharge passage so that the sound absorbing material and the vinyl tape are attached to the insertion groove, and the plate sound absorbing material is in contact with the vinyl tape. The sound absorption structure of the air-conditioner indoor unit characterized by the above. The sound absorbing structure of claim 1, wherein the sound absorbing material of the porous material is made of any one of membrane, felt, polyurethane, glass fiber, and polyamide. delete The sound absorbing structure of an indoor unit of an air conditioner according to claim 1, wherein the vinyl tape is made of a thin film having a thickness of 0.1 mm.

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