JPH1073288A - Compressor cover for outdoor machine for air conditioner excellent in soundproof and vibration isolating properties - Google Patents

Abstract

PROBLEM TO BE SOLVED: To restrain noise, vibration and the like, which are caused by a compressor, by a method wherein the outer periphery of a sealed type compressor is covered with a specified felt material, excellent in soundproof and vibration isolating properties, and, further, the felt material is provided on the inner surfaces of wall, bottom and ceiling of a room, in which the compressor is installed as required. SOLUTION: A compressor cover is formed so as to be capable of covering the outer periphery of a sealed type compressor 1 substantially employing a plurality of partial covers 16, 17, 17A, 18, 18A, 19, 20, which are formed so as to be capable of covering the outer periphery of the sealed type compressor 1 or the upper part, side parts, bottom part and the like of the sealed type compressor 1 employing a felt material, having projected parts and recessed parts obtained by corrugating work and excellent in sound insulating and vibration isolating property. In this case, a sandwiched and laminated felt material, obtained by employing an intermediate layer of a base material selected from plastic sheet, rubber sheet, metallic sheet, metallic foil, foamed plastic sheet or wooden sheet, for examples, and outer layers as well as inner layers of corrugated felt materials, is employed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a compressor cover for an outdoor unit for an air conditioner having excellent soundproofing and vibration-proofing properties. Said hermetic compressor, which forms part of an air conditioner connected to form a refrigeration cycle,
The present invention relates to a compressor cover for suppressing noise, vibration, and the like caused by the hermetic compressor of an outdoor unit including a condenser, a blower for the condenser, and the like.

[0002]

FIG. 3 shows a conventional compressor incorporating a hermetic compressor 1, a condenser 2, a condenser blower 3, a motor 4 for driving the blower 3, an accumulator 5, a partition 6, and refrigerant pipes 7a to 7c. It is explanatory drawing which shows the inside of an outdoor unit. The hermetic compressor 1 is mounted on a base 9 having fixed parts 8a, 8b, 8c provided on the outer periphery thereof.
0 is fixed via anti-vibration rubbers 11a, 11b, 11c. Arrows indicate the flow of the refrigerant. The refrigerant drawn into the hermetic compressor 1 from the refrigerant pipe 7a through the accumulator 5 is compressed, then condensed in the condenser 2 through the refrigerant pipe 7b, and then passes through the refrigerant pipe 7c to the outside of the outdoor unit. The refrigerant is returned to the refrigerant pipe 7a through the decompressor and the evaporator of the indoor unit, which are not in turn, to form a refrigeration cycle. 12 is a front wall, 13 is a right wall, 14 is a rear wall, and 15 is a ceiling. The hermetic compressor 1 includes a partition 6, a front wall 12, and a right wall 1.
3. Although installed in a room surrounded by the rear wall 14, the ceiling 15, and the bottom 10, when the hermetic compressor 1 is operated, noise and vibration are large, and there is a problem that the noise and vibration propagate to the outside. . In order to improve this problem, the hermetic compressor 1 is coated with a known resin felt, press felt, needle felt, or the like.
Insufficient suppression of noise and vibration.

[0003]

There is a strong need to reduce the size of an outdoor unit and to suppress noise and vibration caused by the hermetic compressor 1 during operation. An object of the present invention is to provide an air conditioner capable of suppressing noise, vibration, and the like caused by the hermetic compressor of an outdoor unit including a blower for a condenser without changing a hermetic compressor, a condenser, a blower for the condenser, and the like. It is to provide a compressor cover for an outdoor unit.

[0004]

The inventor of the present invention has made extensive studies on such problems, and as a result, the outer periphery of the hermetic compressor is coated with a specific felt material having excellent soundproofing and vibration-proofing properties. The present invention has been found that noise, vibration, etc. caused by the hermetic compressor can be suppressed by arranging the felt material also on the inner surface of the wall, bottom, and ceiling of the room in which the hermetic compressor is installed. It came to accomplish.

According to a first aspect of the present invention, there is provided an air conditioner having a refrigeration cycle formed by connecting a hermetic compressor, a condenser, a decompressor, and an evaporator sequentially with a refrigerant pipe, and at least the hermetic compressor and the condenser. And a compressor cover for an outdoor unit having a built-in blower for the condenser, wherein the compressor cover is made of a felt material having excellent soundproofing and vibration-proofing properties having irregularities on the surface obtained by wave breaking. Using a plurality of partial covers that are integrally formed in a shape that can substantially cover the outer periphery, or that are formed in a shape that can cover the top, side, and bottom of the hermetic compressor using the felt material. An air conditioner outdoor having excellent soundproofing and vibration-proofing properties, which is formed so as to substantially cover the outer periphery of the hermetic compressor. It is the use compressor cover.

According to a second aspect of the present invention, an inner surface of a wall, a bottom, and a ceiling of a room in which a hermetic compressor covered with the compressor cover according to the first aspect is installed is obtained by a wave breaking process. It is integrally formed in a shape that can be substantially covered by using a felt material having excellent soundproofing and vibration-proofing properties having irregularities on the surface to be formed, or covers the wall, bottom, ceiling, etc. using the felt material An outdoor unit for an air conditioner having excellent soundproofing and vibration proofing, characterized in that the wall, the bottom, and the inner surface of the ceiling are formed so as to be substantially covered by using a plurality of partial covers formed in a possible shape. It is a compressor cover for.

According to a third aspect of the present invention, in the compressor cover for an outdoor unit for an air conditioner according to the first or second aspect, as the felt material, two or more felt materials obtained by splitting are used. It is characterized by using a laminated felt material.

According to a fourth aspect of the present invention, in the compressor cover for an outdoor unit for an air conditioner according to the first or second aspect, at least one wave is provided on at least one other substrate as the felt material. It is characterized in that a felt material obtained by laminating felt materials obtained by split processing is used.

According to a fifth aspect of the present invention, in the compressor cover for an outdoor unit for an air conditioner according to the fourth aspect, a substrate selected from a plastic sheet, a rubber sheet, a metal plate, a metal foil, a foamed plastic sheet, and a wood board. Is used as an outer layer and an inner layer, and a felt material obtained by sandwich lamination is used as an outer layer and an inner layer.

According to a sixth aspect of the present invention, in the compressor cover for an outdoor unit for an air conditioner according to the fifth aspect, sandwich lamination is performed such that a surface of the corrugated felt material having an uneven portion is in contact with the intermediate layer. It is characterized by using felted material.

According to a seventh aspect of the present invention, in the compressor cover for an outdoor unit for an air conditioner according to the sixth aspect, an adhesive or a pressure-sensitive adhesive is applied to the tip of the convex portion of the surface of the corrugated felt material having the uneven portion. And a felt material sandwiched and laminated on the intermediate layer.

According to an eighth aspect of the present invention, in the compressor cover for an outdoor unit for an air conditioner according to the first to seventh aspects, a resin felt manufactured using recycled natural fibers and / or synthetic fibers as a raw material. At least one selected from needle felt, press felt
It is characterized by using a felt material obtained by wave-cutting from two felts.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION The felt used as the raw material of the felt material having an uneven portion on its surface and having excellent soundproofing and vibration-proofing properties, which is used in the present invention, is made of a sheet composed of extremely entangled fibers. It is not particularly limited as long as it is in the form of, for example, cotton, rayon, acetate, nylon,
Fabricated by arranging fibers such as polyester or a mixture thereof in a web or mat shape by an appropriate method and bonding the fibers together using an adhesive such as a thermosetting phenolic binder (called resin felt) ) Or by pressing with a binder to bond the fibers together, or by pressing without a binder and bonding the fibers together by fusion of the fibers themselves (called press felt). A sheet-like material needled and fibers are implanted (called needle felt) can be exemplified. Since the surface condition of these felts is affected by the surface of the metal belt at the time of felt production, there are various surface conditions such as flat, meshed, and patterned.

Used clothes made of synthetic fibers, discarded polyester shirts and suits, such as used and discarded towels made of natural fibers, cotton products such as jeans, or these shirts, suits, towels, etc. Resin felt, press felt, needle felt, and the like are used in the present invention. If used as a raw material for felt material, an inexpensive and environmentally friendly felt material can be obtained.

FIG. 4 (a) shows two male and female rolls 21 and 22 having a concave-convex surface for producing the felt material used in the present invention, which are used for wave-cutting. When one piece of material felt 23 is inserted between the rolls 21 and 22, the felt 23 is compressed as shown in the figure due to the uneven shape of the rolls 21 and 22. In this state, the central portion in the thickness direction of the felt is linearly cut by the blade 25 in the direction indicated by the arrow 24 to divide the felt into two parts, so that the felt materials 26A and 26B having the uneven portions on the surface used in the present invention can be obtained. Can be easily made. FIG. 4B shows a cross section of one felt material 26A of two felt materials 26A and 26B obtained by dividing into two. The thickness H of the felt material 26A, the height h1 of the convex portions 27, the thickness h2 of the concave portions 28, the wavelength W of the convex portions 27, the shape and arrangement of the convex portions 27, and the shape and arrangement of the concave portions 28 are particularly limited. However, these can be appropriately changed by changing the thickness of the raw material felt 23, the size, the shape, the arrangement, and the like of the surface irregularities of the rolls 21 and 22. A known machine or device can be used as the machine or device for cutting the felt, and for example, a machine or device used for cutting the urethane foam can be used.

FIG. 5 shows a process for manufacturing the felt material. One piece of the raw felt 23 is inserted between the rolls 21 and 22 and compressed.
Felt material 26 having an uneven portion on the surface by cutting the center portion in the thickness direction of the
Make A, 26B. In the present invention, this felt material 2
6A and 26B, or a laminate of the same with an uneven portion, a surface with an uneven portion and a back surface, or a back surface can be used in the present invention. Material 26A,
A known adhesive or pressure-sensitive adhesive (not shown) is applied to the tips of the convex portions 27, 27, 27,... Of the synthetic rubber sheet 29 as an intermediate layer, and the felt materials 26A, 26B are formed by a known laminating method. The felt material 30 made by sandwich lamination can also be used. Note that the uneven portions formed on the surfaces of the felt members 26A and 26B are in contact with each other and can be overlapped. Although an example of using an adhesive or a pressure-sensitive adhesive for lamination has been described, the lamination method is not particularly limited. For example, a method of laminating by sewing, a method of laminating with a string or a tape, etc., and a method of laminating a felt material and a substrate PVC or synthetic rubber by heating and melting the PVC or synthetic rubber. A method of laminating by directly adhering to the felt material, laminating the felt material and the substrate by interposing a sealing material such as a plastic film on the bonding surface between the felt material and the substrate, heating and melting this sealing material. And lamination.

The substrate laminated on the felt members 26A and 26B may be inorganic or organic, and is not particularly limited. For example, plastic sheet, rubber sheet,
Examples include metal foil such as aluminum foil, metal plate, foamed plastic sheet, and wood plate. Felt material 26
When laminating A and 26B on the substrate, it is not limited whether the surface having the uneven portion is laminated on the substrate or the rear surface is laminated on the substrate. However, if an adhesive or a pressure-sensitive adhesive is applied to the tip of the convex portion of the surface of the undulated felt material 26A, 26B having the uneven portion and laminated on the substrate, the required amount of the adhesive or the pressure-sensitive adhesive is small and economical. In addition, since the amount of air contained in the laminate increases by the amount of the uneven portion, the soundproofing and vibration-proofing properties, softness, flexibility and the like are improved.

FIG. 6 shows an example of the shape and arrangement of the uneven portions on the surface of the felt material used in the present invention. Numeral 1 is a chevron A type, which is an example in which circular chevrons of the same size are alternately arranged in a record state. Reference numeral 2 denotes a chevron B type, which is an example in which circular chevrons of the same size are arranged in a row. Reference numeral 3 denotes a chevron D type, which is an example in which circular chevrons of the same size in which a circular chevron has a W-shaped top are arranged in a row. Reference numeral 4 denotes a chevron C type, which is an example in which circular chevrons of the same size in which the tops of the circular chevrons are W-shaped are alternately arranged in a broken state.
Reference numeral 5 denotes a chevron E type, which is an example in which circular chevrons having different sizes are alternately arranged in a wreck state. Reference numeral 6 denotes a mountain F type, which is an example in which circular mountains having different sizes are arranged in a row.

Reference numeral 7 denotes a waveform A type in which waveforms having the same magnitude are arranged in parallel in a linear state. A waveform B type 8 is an example in which waveforms having the same magnitude are obliquely arranged in a straight line. 9 is a waveform C type, and the top of the waveform is W
This is an example in which waveforms having the same magnitude are arranged in parallel in a straight line. Numeral 10 denotes a waveform D type, in which waveforms having the same magnitude are arranged orthogonally. Reference numeral 11 denotes a waveform E type, which is an example in which waveforms having the same magnitude are arranged obliquely orthogonally.

Numeral 12 denotes a mountain / ellipse combination A type, in which circular and elliptical mountain shapes are alternately arranged in a broken state. Reference numeral 13 denotes a mountain / elliptical assembled B type, in which a circular mountain and an elliptical mountain are arranged in parallel.

Numeral 14 denotes an elliptical chevron A type, in which elliptical chevrons of the same size are alternately arranged in a broken state. Numeral 15 denotes an elliptical chevron B type, which is an example in which elliptical chevrons of the same size are arranged in a row. In the above example, a circular chevron, an elliptical chevron, and a waveform are shown as examples of the convex portion, but a circular, triangular, elliptical, trapezoidal,
A columnar shape and the like can be given.

FIG. 1 shows a compressor cover of the present invention formed so as to cover a hermetic compressor using the felt material used in the present invention, and a side wall of a room where the hermetic compressor is installed. It is explanatory drawing explaining the compressor cover of this invention formed so that the surface might be covered. In FIG. 1, reference numeral 16 denotes a compressor cover (partial cover 1) made of the felt material formed according to the shape of the outer periphery so as to cover the outer periphery of the hermetic compressor 1. Compressor cover (partial cover 2) made of the felt material formed to cover the upper part
Reference numeral 18A denotes a compressor cover (partial cover 3) made of the felt material and formed to cover the bottom of the hermetic compressor 1. The outer periphery of the hermetic compressor 1 is substantially covered with these partial covers 1 to 3. On the other hand, 19 is a hermetic compressor 1 covered with a compressor cover made of the felt material.
Compressor 1 of a partition wall 6 separating a room in which the condenser 2 and the blower 3 are installed from a room in which the
Is a compressor cover (partial cover 4) formed of the felt material according to its shape to be disposed on the surface on which is installed and the inner surface of the rear wall 14;
Reference numeral 0 denotes a compressor cover (partial cover 5) formed of the felt material according to the shape to be disposed on the inner surfaces of the front wall 12 and the right side wall 13 of the room where the hermetic compressor 1 is installed. . In addition, a compressor cover 17 (partial cover 6) formed of the felt material according to the shape and a hermetic compressor 1 are installed to be disposed on the inner surface of a ceiling of a room where the hermetic compressor 1 is installed. There is a compressor cover 18 (partial cover 7) formed of the felt material according to its shape to be disposed on the inner surface of the bottom of the room. The inner wall, ceiling, and bottom inner surface of the room in which the hermetic compressor 1 is installed are substantially covered with these partial covers 4 to 7.

FIG. 2 shows the partition wall 6 and the rear wall 1 in this manner.
4. Compressor covers 17 to 20 (partial cover 4) made of the felt material are provided on the inner surfaces of the front wall 12 and the right side wall 13.
7) and the hermetic compressor 1 is mounted on the compressor covers 16, 17A, 18A made of the felt material.
3 shows an outdoor unit covered with (partial covers 1 to 3).

The type of the hermetic compressor 1 is not particularly limited, and specific examples thereof include a rotary compressor, a reciprocating compressor, a vibration compressor, a multi-vane rotary compressor, a scroll compressor, and the like. it can.

[0025]

The present invention will be described in more detail with reference to the following Examples, which should not be construed as limiting the present invention. (Production Example 1 of felt material used in the present invention) 50% by weight of a peeled polyester shirt fabric generated during production,
A raw resin felt (thickness: 7.5 mm, weight per unit area: 400 g / m ² ) was cut from a collected product composed of 50% by weight of a discarded cotton product fabric into short fibers and crushed to obtain a raw material. Had made. According to the process shown in FIG. 5, this raw resin felt is split and felt material A (felt thickness H = 5 mm, height h1 of the convex portion = 2.5 mm,
The thickness h2 of the concave portion is 2.5 mm, and the wavelength W of the convex portion is 35 m.
m, the shape and arrangement of the projections were the above-mentioned chevron A type, and the weight per unit area was 200 g / m ² ). An epoxy-based adhesive was applied to the tip of the convex portion of the surface of the undulated felt material A having the concave and convex portions, and as shown in FIG.
A synthetic rubber sheet having a specific gravity of 2.5 mm and a specific gravity of 2.5 was sandwiched and laminated to form a felt material B (thickness: about 11 mm).

(Embodiment 1) As shown in FIG.
5, a compressor cover (partial covers 4 to 7) formed on the inner surfaces of the bottom 10, the partition 6, the rear wall 14, the front wall 12, and the right side wall 13 by using a felt material A or a felt material B in accordance with these shapes. ) Was arranged, and the hermetic compressor 1 was substantially covered with a compressor cover (partial covers 1 to 3) formed by using felt material A or felt material B to conform to the shape around the outer periphery. The outdoor unit using the outdoor unit compressor cover of the present invention is compared with a case where the compressor cover formed from the felt material A or the felt material B is not used.
Noise, vibration, and the like generated when the hermetic compressor 1 was operated could be suppressed well.

(Comparative Production Example 1 of Felt Material) A recovered product consisting of 50% by weight of a peeled polyester shirt fabric produced during production and 50% by weight of a discarded cotton fabric is cut into short fibers and crushed to obtain a raw material. To make a raw resin felt (thickness 10 mm, weight 550 g / m ² per unit area). The central part of the thickness of the raw resin felt is sliced and divided into two parts, and two pieces of 5 mm thick felt (weight per unit area: 275 g /
m ² ). An epoxy-based adhesive is applied to the entire surface on one side of the felt, and the synthetic rubber sheet having a thickness of 1 mm and a specific gravity of 2.5 is used as an intermediate layer and sandwich-laminated to form a felt material C (thickness of about 11 mm) for comparison. )made.

(Comparative Example 1) In the same manner as in Example 1,
5. Compressor covers (partial covers 4 to 5) formed on the inner surfaces of the bottom 10, the partition 6, the rear wall 14, the front wall 12, and the right side wall 13 using a felt material C in accordance with these shapes.
7), and the hermetic compressor 1 is substantially covered with a compressor cover (partial covers 1 to 3) formed by using a felt material C to conform to the shape of the outer periphery. I made a machine. This outdoor unit was able to considerably suppress noise, vibration, and the like generated when the hermetic compressor 1 was operated, as compared with the case where the compressor cover formed of the felt material C was not used. However, the thickness is 5 mm and the weight per unit area is 2
Despite using a compressor cover made of a hard felt material C made with a large amount of adhesive using a heavy felt of 75 g / m ² , compared with the outdoor unit of Example 1 The degree of noise and vibration suppression was comparable or inferior.

Using a felt material B and a felt material C for comparison, a frequency of 100 to 315 was obtained by the following method.
The insertion loss was measured in the range of 0 (Hz). The results are shown in Table 1 and FIG.

FIG. 8 shows an outline of an insertion loss measuring device. Acrylic resin plate (20m thick)
m) manufactured by reverberation boxes 31 (volume 0.125 m ³ of 7 tetrahedron) speakers 32 (BOSE manufactured in, 301 mm) [noise generator (JEIC Ltd., 0104A) · amplifier (JE
IC, 0301A) 33 (generated noise: white noise)] and the noise generated by the aperture 34 (10c
m × 15 cm), and is caught by a microphone 35 set 10 cm away from the front, and is measured by a precision sound level meter 36 (manufactured by Rion, NA40) -frequency analyzer 37 (manufactured by JEIC,
331S) -PC 38 (data processing) -Printer 3
According to 9, the sound pressure level (dB) (SPL) at the sound receiving point when the sample of the soundproofing and vibration isolating material is not set in the frequency range of 100 to 3150 (Hz) is measured. Then the opening 3
4 is a sample 40 (20c)
m × 20 cm) is set using the clay seal 41, and the sound pressure level (dB) (SPLa) at the sound receiving point is measured in the same manner. The insertion loss IL (dB) is obtained by the following equation. The measurement is performed three times to obtain an average value. IL (dB) = SPL-SPLa The larger the insertion loss (IL), the better.

[0031]

[Table 1]

From Table 1 and FIG. 7, the felt material B uses a lightweight felt having a thickness H = 5 mm and a weight per unit area of 200 g / m ² , and the amount of the adhesive used is small. Despite being soft, a heavy felt with a thickness of 5 mm and a weight per unit area of 275 g / m ² is used, the amount of adhesive used is large, and almost the same as the hard felt material C or excellent insertion loss is obtained. It turns out that it shows.

[0033]

The compressor cover for an outdoor unit for an air conditioner of the present invention can suppress the noise and vibration caused by the hermetic compressor without changing the hermetic compressor, the condenser and the blower for the condenser.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram showing a compressor cover of the present invention for covering a hermetic compressor or the like of an indoor unit.

FIG. 2 is an explanatory diagram showing the inside of an indoor unit in which a compressor cover of the present invention is provided on a surface such as a side wall and a hermetic compressor is covered with the compressor cover of the present invention.

FIG. 3 is an explanatory view showing the inside of a conventional outdoor unit.

FIG. 4 (a) is a cross-sectional explanatory view of two male and female rolls having a concave-convex surface for producing a felt material and used for wave-cutting processing. (B) is an explanatory sectional view of one felt material obtained by dividing the felt material into two parts.

FIG. 5 is an explanatory view showing a process for manufacturing a felt material.

FIG. 6 is an explanatory diagram showing an example of the shape and arrangement of uneven portions on the surface of a felt material.

FIG. 7 is a graph showing the relationship between frequency and insertion loss of felt materials B and C;

FIG. 8 is an explanatory diagram showing an outline of an insertion loss measuring device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Hermetic compressor 2 Condenser 3 Condenser blower 4 Motor 5 Accumulator 6 Partition wall 7a-7c Refrigerant pipe 8a-c Fixed part 9 Base 10 Bottom part 11a, 11b, 11c Anti-vibration rubber 12 Front wall 13 Right side wall 14 Rear wall 15 Ceiling 16, 17, 17A, 18, 18A, 19, 20 Compressor cover (partial cover) 21, 22 Male / female rolls for wave splitting 23 Felt 25 Blades 26A, 26B, 30 Felt material 27 Convex part 28 Concave part 29 Synthesis Rubber sheet 31 Reverberation box 32 Speaker 33 Noise generator / amplifier 34 Opening 35 Microphone 36 Precision sound level meter 37 Frequency analyzer 38 Personal computer 39 Printer 40 Sample

Claims (8)

[Claims] 1. A hermetic compressor, a condenser, a pressure reducer,
An air conditioner in which an evaporator is sequentially connected with a refrigerant pipe to form a refrigeration cycle, and at least the hermetic compressor, an outdoor unit compressor cover incorporating a condenser and a blower for the condenser, and the compressor cover is provided with a wave-cut processing. It is integrally formed in a shape capable of substantially covering the outer circumference of the hermetic compressor using a felt material having excellent soundproofing and vibration-proofing properties having an uneven portion on the surface obtained,
Or it is formed so that the outer periphery of the hermetic compressor can be substantially covered using a plurality of partial covers formed in a shape capable of covering the top, side and bottom portions of the hermetic compressor using the felt material. A compressor cover for an outdoor unit for an air conditioner with excellent sound and vibration proof characteristics. 2. A soundproofing device having an uneven surface on the inner surface of a wall, a bottom and a ceiling of a room in which a hermetic compressor covered with the compressor cover according to claim 1 is installed. A plurality of portions that are integrally formed in a shape that can be substantially covered using a felt material having excellent vibration isolation properties, or that are formed in a shape that can cover the wall, bottom, ceiling, and the like using the felt material. A compressor cover for an outdoor unit for an air conditioner, which is formed so as to substantially cover the inner surfaces of the wall, the bottom, and the ceiling by using a cover. 3. The air conditioner outdoor unit according to claim 1, wherein a felt material obtained by laminating two or more felt materials obtained by wave breaking is used as the felt material. Compressor cover. 4. The felt material according to claim 1, wherein a felt material obtained by laminating at least one felt material obtained by wave-cutting at least one other substrate is used. 2. The compressor cover for an outdoor unit for an air conditioner according to 2. 5. A felt material in which a substrate selected from a plastic sheet, a rubber sheet, a metal plate, a metal foil, a foamed plastic sheet, and a wood board is used as an intermediate layer, and a felt material obtained by performing a wave splitting process as an outer layer and an inner layer is sandwich-laminated. The compressor cover for an outdoor unit for an air conditioner according to claim 4, characterized in that: 6. The compressor for an outdoor unit for an air conditioner according to claim 5, wherein a felt material which is sandwich-laminated so that a surface of the corrugated felt material having an uneven portion is in contact with the intermediate layer is used. cover. 7. A felt material obtained by applying an adhesive or a pressure-sensitive adhesive to a tip of a convex portion of a surface of a corrugated felt material having an uneven portion and sandwiching and laminating the intermediate layer. 6. The compressor cover for an outdoor unit for an air conditioner according to 6. 8. A felt material obtained by wave-cutting at least one felt selected from resin felt, needle felt, and press felt manufactured using recycled natural fibers and / or synthetic fibers as a raw material. The compressor cover for an outdoor unit for an air conditioner according to any one of claims 1 to 7, wherein: