JP2008169812A - Sound proof heat insulation sheet - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sound proof heat insulation sheet having high heat resistance while keeping sound proof performance and heat insulation performance. <P>SOLUTION: A sound absorber layer 32 consisting of a felt, a sound insulator layer 33 consisting of a rubber and a heat insulator layer 34 consisting of a vacuum heat insulation material are sequentially laminated. A compressor 21 in a refrigerator circuit is coated so that the sound absorber layer 32 is placed inside. Thus, heat quantity from the compressor 21 reaching the heat insulator layer 34 is reduced and thermal damage of heat insulator layer 34 is avoided. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

    The present invention relates to a soundproof heat insulating sheet, and particularly relates to measures for improving heat resistance.

Conventionally, for example, Patent Document 1 discloses a soundproof cover that covers and covers the outer surface of an object. The soundproof cover of Patent Document 1 is used for soundproofing a compressor of a refrigeration apparatus. Specifically, the soundproof cover is covered on the outer surface of a cylindrical casing of the compressor. The soundproof cover is composed of an inner layer portion made of felt and an outer layer portion made of a rubber sheet. This soundproof cover is soundproofing the compressor by the sound absorption effect by the felt and the sound insulation effect by the rubber sheet.
JP 2006-242142 A

    By the way, the compressor of the refrigeration apparatus is generally provided in a heat source unit (outdoor unit) together with other refrigeration equipment. Since the compressor is hotter than other refrigeration equipment, the high-temperature heat is transmitted to the other refrigeration equipment, and the efficiency of the refrigeration cycle is reduced. Therefore, this type of compressor needs to be insulated and insulated.

    Therefore, in the soundproof cover of Patent Document 1, it is conceivable to add a heat insulating material layer to provide heat insulating performance. However, in general, a heat insulating material (particularly, a vacuum heat insulating material that has a high heat insulating performance) is not so high in heat resistance, so it is simply compared to a high temperature (about 80 to 100 ° C.) like a compressor. If only a combination of a soundproof sheet and a heat insulating sheet is used, the heat insulating sheet is damaged by high-temperature heat.

    The present invention has been made in view of such points, and an object thereof is to provide a soundproof and heat insulating sheet having high heat resistance while having soundproof performance and heat insulation performance.

    The first invention comprises a soundproofing material layer (31) made of a soundproofing material and a heat insulating material layer (34) made of a heat insulating material and laminated on the soundproofing material layer (31). The object is covered so that the soundproofing material layer (31) is on the inside, and the object is soundproofed and insulated.

    In said invention, a soundproof material layer (31) and a heat insulating material layer (34) are located in an order from the target object side. The sound emitted from the object is soundproofed by the soundproof material layer (31). On the other hand, the heat generated by the object is transmitted to the heat insulating material layer (34) through the sound insulating material layer (31), and is blocked by the heat insulating material layer (34). Here, heat transfer from the object to the heat insulating material layer (34) is hindered to some extent by the presence of the soundproofing material layer (31), and the amount of heat reaching the heat insulating material layer (34) is lower than the amount of heat generated by the object. . Therefore, it is possible to avoid the heat insulating material layer (34) having low heat resistance from being damaged by heat. That is, heat resistance is improved while having a heat insulating material.

    In a second aspect based on the first aspect, the soundproof material layer (31) is composed of a sound absorbing material layer (32) made of a sound absorbing material and a sound insulating material layer (33) made of a sound insulating material. Is.

    In said invention, the sound which an object emits is reliably sound-insulated by the sound-absorbing effect of a sound-absorbing material layer (32), and the sound-insulating effect of a sound-insulating material layer (33).

    According to a third invention, in the first invention, the heat insulating material of the heat insulating material layer (34) is a vacuum heat insulating material.

    In said invention, the heat insulating material layer (34) is comprised with the vacuum heat insulating material. This vacuum heat insulating material is obtained by laminating a core material such as glass wool with a composite sheet of a metal foil and a resin, and has high heat insulating performance but is not so high in heat resistance. Even in that case, the vacuum heat insulating material is not damaged by heat.

    According to a fourth invention, in the second invention, the sound absorbing material of the sound absorbing material layer (32) is felt, and the sound insulating material of the sound insulating material layer (33) is rubber.

    In said invention, the sound which a target object emits is absorbed by felt, and is sound-insulated by rubber | gum.

    According to a fifth invention, in the first invention, the object is a compressor provided in a refrigerant circuit of a refrigeration apparatus.

    In the above invention, sound insulation and heat insulation of the compressor of the refrigerant circuit where the refrigerant circulates and the vapor compression refrigeration cycle is performed are performed. That is, in the refrigerant circuit, the high-temperature and high-pressure refrigerant compressed by the compressor returns to the compressor again through the condensation process (heat radiation process), the expansion process, and the evaporation process in order. This type of compressor emits high-temperature heat as well as driving noise, but the driving noise is sound-insulated and the high-temperature heat is insulated.

    Therefore, according to the present invention, the soundproofing material layer (31) and the heat insulating material layer (34) are laminated and the object is covered so that the soundproofing material layer (31) is on the inner side. The amount of heat reaching the layer (34) can be reduced by the soundproof material layer (31). Thermal damage to the heat insulating material layer (34) can be avoided. That is, heat resistance can be improved while using a heat insulating material. As a result, a highly reliable soundproofing heat insulating sheet can be provided. Moreover, since it is not necessary to use a heat-insulating material with high heat resistance, an inexpensive sound-insulating and heat-insulating sheet can be provided.

    Further, according to the second invention, the soundproofing material layer (31) is composed of the sound absorbing material layer (32) made of the sound absorbing material and the sound insulating material layer (33) made of the sound insulating material. Both sound insulation effects can be exhibited. Therefore, soundproof performance can be improved.

    According to the third invention, even if a vacuum heat insulating material is used for the heat insulating material of the heat insulating material layer (34), thermal damage to the vacuum heat insulating material can be prevented. Therefore, the heat insulation performance can be improved without impairing the heat resistance.

    In addition, according to the fourth invention, since felt is used for the sound absorbing material of the sound absorbing material layer (32) and rubber is used for the sound insulating material of the sound insulating material layer (33), an inexpensive sound insulation sheet can be provided. .

    Moreover, according to 5th invention, it was made to make into the compressor provided in the refrigerant circuit of a freezing apparatus. In this case, the compressor generates high-temperature heat, but thermal damage to the heat insulating material layer (34) can be avoided. Therefore, soundproofing and heat insulation can be reliably performed even for such a compressor. Thereby, in a refrigerant circuit, it can prevent that an accumulator, a suction pipe, etc. are heated by the high temperature heat of a compressor. As a result, an increase in the intake refrigerant temperature of the compressor can be prevented, so that the refrigeration cycle efficiency can be improved.

    Embodiments of the present invention will be described in detail with reference to the drawings.

    The air conditioner (10) of the present embodiment constitutes a refrigeration apparatus, and a soundproof and heat insulating sheet (30) according to the present invention is attached to a compressor (21) described later. First, the configuration of the air conditioner (10) will be described.

-Configuration of air conditioner-
As shown in FIG. 1, the air conditioner (10) includes an outdoor unit (11) and an indoor unit (12). In the casing of the outdoor unit (11), as a refrigeration device, a compressor (21), an accumulator (22), a four-way valve (23), an outdoor heat exchanger (24), and an expansion valve (26) And are provided. On the other hand, an indoor heat exchanger (27) is housed in the casing of the indoor unit (12) as refrigeration equipment. The compressor (21), the accumulator (22),... And the indoor heat exchanger (27) are connected by piping to form a refrigerant circuit (20). The refrigerant circuit (20) is configured so that a refrigerant is circulated to perform a vapor compression refrigeration cycle.

    The compressor (21) is constituted by, for example, a hermetic high-pressure dome type scroll compressor. The suction pipe (2b) of the compressor (21) is connected to the third port of the four-way valve (23). On the other hand, the discharge pipe (2a) of the compressor (21) is connected to the first port of the four-way valve (23).

    The accumulator (22) is formed in a sealed container shape and is connected in the middle of the suction pipe (2b) of the compressor (21). And the accumulator (22) is arrange | positioned adjacent to the compressor (21).

    The outdoor heat exchanger (24) and the indoor heat exchanger (27) are so-called cross fin type fin-and-tube heat exchangers. One end of the outdoor heat exchanger (24) is connected to the second port of the four-way valve (23) by the gas pipe (2c), and the other end is connected to the expansion valve (26) by the liquid pipe (2d). . One end of the indoor heat exchanger (27) is connected to the fourth port of the four-way valve (23) by the gas pipe (2c), and the other end is connected to the expansion valve (26) by the liquid pipe (2d). . An outdoor fan (27) and an indoor fan (28) are provided in the vicinity of the outdoor heat exchanger (24) and the indoor heat exchanger (27), respectively. The outdoor heat exchanger (24) constitutes a heat source side heat exchanger in which the refrigerant exchanges heat with the outdoor air taken in by the outdoor fan (27). The indoor heat exchanger (27) constitutes a use side heat exchanger in which the refrigerant exchanges heat with the indoor air taken in by the indoor fan (28). The expansion valve (26) is variable in opening and constitutes an expansion mechanism. The outdoor fan (25) and the indoor fan (28) are also housed in the outdoor unit (11) and the indoor unit (12), respectively.

    The four-way valve (23) includes a first state (state indicated by a solid line in FIG. 1) in which the first port and the second port communicate with each other and the third port and the fourth port communicate with each other; It is configured to switch to a second state (state indicated by a broken line in FIG. 1) in which the ports communicate and the second port and the third port communicate. That is, in the refrigerant circuit (20), when the four-way valve (23) is in the first state, the refrigerant circulates in the cooling cycle (the direction indicated by the solid line arrow in FIG. 1), and the outdoor heat exchanger (24) is condensed. As a radiator (heat radiator), the indoor heat exchanger (27) functions as an evaporator. Further, in the refrigerant circuit (20), when the four-way valve (23) is in the second state, the refrigerant circulates in the heating cycle (the direction indicated by the dashed arrow in FIG. 1), and the outdoor heat exchanger (24) evaporates. As the condenser, the indoor heat exchanger (27) functions as a condenser (heat radiator).

-Composition of soundproof insulation sheet-
Next, the soundproof and heat insulating sheet (30) will be described. As shown in FIG. 2, the soundproof and heat insulating cover (30) is attached to the cylindrical casing (21a) of the compressor (21). That is, the sound-insulating and heat-insulating sheet (30) is covered (wrapped) in close contact with the upper and lower surfaces and side surfaces of the casing (21a).

    The soundproof and heat insulating sheet (30) is composed of three layers: a sound absorbing material layer (32) made of a sound absorbing material, a sound insulating material layer (33) made of a sound insulating material, and a heat insulating material layer (34) made of a heat insulating material. ing. From the casing (21a) side, the sound absorbing material layer (32), the sound insulating material layer (33), and the heat insulating material layer (34) are sequentially laminated. The sound absorbing material layer (32) and the sound insulating material layer (33) constitute a soundproofing material layer (31). That is, in the soundproofing and heat insulating sheet (30) of the present embodiment, the soundproofing material layer (31) is positioned on the casing (21a) side, and the heat insulating material layer (34) is positioned on the outside thereof.

    In this embodiment, felt is used as the sound absorbing material of the sound absorbing material layer (32), and rubber (rubber) is used as the sound insulating material of the sound insulating material layer (33). Moreover, the vacuum heat insulating material is used as a heat insulating material of a heat insulating material layer (34). This vacuum heat insulating material is obtained by laminating a core material such as glass wool with a composite sheet of a metal foil and a resin and decompressing the inside. And although this vacuum heat insulating material has especially high heat insulation performance, heat resistance is not so high.

-Operation of air conditioner-
Next, the operation of the air conditioner (10) will be described. The air conditioner (10) is configured to be switchable between a cooling operation and a heating operation.

    First, in the cooling operation, the four-way valve (23) is set to the first state in the refrigerant circuit (20). When the compressor (21) is driven, the high-temperature and high-pressure refrigerant discharged from the compressor (21) to the discharge pipe (2a) flows to the outdoor heat exchanger (24) and dissipates heat to the outdoor air and condenses. To do. The condensed refrigerant is decompressed by the expansion valve (26), then flows to the indoor heat exchanger (27), and absorbs heat from the indoor air to evaporate. The evaporated refrigerant is sucked into the compressor (21) through the accumulator (22) and the suction pipe (2b), and this circulation is repeated.

    In the heating operation, the four-way valve (23) is set to the second state in the refrigerant circuit (20). When the compressor (21) is driven, the high-temperature and high-pressure refrigerant of the compressor (21) flows into the indoor heat exchanger (27), dissipates heat to the indoor air, and condenses. The condensed refrigerant is decompressed by the expansion valve (26), then flows to the outdoor heat exchanger (24), absorbs heat from the outdoor air, and evaporates. The evaporated refrigerant is sucked into the compressor (21) through the accumulator (22) and the suction pipe (2b), and this circulation is repeated.

    In the above-described operation, the compressor (21) has the highest temperature (about 80 to 100 ° C.), and the accumulator (22) and the suction pipe (2b) have the lowest temperature.

-Action by sound insulation sheet-
In the above-described operation, the operation sound generated by the compressor (21) is soundproofed by the soundproof material layer (31) of the soundproofing and heat insulating sheet (30). Specifically, sound insulation is achieved by the sound absorbing effect of the sound absorbing material layer (32), and further sound insulation is achieved by the sound insulating effect of the sound insulating material layer (33). Thereby, the soundproofing of the compressor (21) is achieved.

    The high temperature heat of the compressor (21) is conducted through the sound absorbing material layer (32), the sound insulating material layer (33), and the heat insulating material layer (34) in order from the surface of the casing (21a). Here, it shows in FIG. 3 about the temperature distribution in a soundproofing heat insulation sheet | seat (30). According to FIG. 3, the inner surface temperature of the sound absorbing material layer (32) (ie, the surface temperature of the compressor (21)) is as high as t0, but the inner surface temperature of the sound insulating material layer (33) (ie, the sound absorbing material). The boundary temperature between the layer (32) and the sound insulation layer (33)) decreases to t1, and the inner surface temperature of the heat insulation layer (34) (that is, the boundary temperature between the sound insulation layer (33) and the heat insulation layer (34)). ) Further decreases to t2, and further decreases to t3 at the outer surface temperature of the heat insulating material layer (34). t4 is the temperature of the ambient air. In addition, this FIG. 3 shows the temperature distribution of the soundproofing heat insulation sheet | seat (30) in the trunk | drum of a casing (21a).

    Thus, in the soundproofing heat insulating sheet (30), it can be seen that the temperature drop due to the heat insulating material layer (34) is the largest, and the amount of heat to be blocked is large. That is, it is largely insulated by this heat insulating material layer (34).

    In the soundproofing heat insulating sheet (30), the inner surface temperature t2 of the heat insulating material layer (34) is lower than the inner surface temperature t0 of the sound absorbing material layer (32). This is because heat transfer from the compressor (21) to the heat insulating material layer (34) is hindered by the sound absorbing material layer (32) and the sound insulating material layer (33), and the amount of heat transfer is reduced. That is, by interposing the soundproofing material layer (31) between the compressor (21) and the heat insulating material layer (34), the amount of heat transfer to the heat insulating material layer (34) is reduced. Therefore, the temperature of the heat insulating material layer (34) is lower than the surface temperature of the compressor (21). Then, the vacuum heat insulating material as the heat insulating material is not so high in heat resistance, but is not damaged by heat.

    Moreover, in this embodiment, although it is not as sound insulation material, a heat insulating material has a sound insulation effect. Therefore, since the sound insulation effect is also exhibited by the heat insulating material layer (34), the sound insulation effect of the sound insulation heat insulating sheet (30) is increased, and the sound insulation effect is enhanced.

-Effect of the embodiment-
According to this embodiment, since the soundproofing material layer (31) and the heat insulating material layer (34) are laminated in order from the compressor (21) side, the compressor (21) to the heat insulating material layer (34) are stacked. The amount of heat transfer can be reduced. Thereby, the temperature environment of a heat insulating material layer (34) can be relieved. Therefore, even if it is the heat insulating material layer (34) of the heat insulating material that is not so high in heat resistance, damage due to heat can be avoided. As a result, heat resistance can be improved, and soundproofing and heat insulation of the compressor (21) can be reliably performed.

    And since a compressor (21) is fully insulated, it can suppress that the refrigerant | coolant of an accumulator (22) or a suction pipe (2b) is heated in a refrigerant circuit (20). As a result, the temperature rise of the refrigerant sucked in the compressor (21) can be suppressed, and the refrigeration cycle efficiency is improved.

    Moreover, although the vacuum heat insulating material was used as the heat insulating material of the heat insulating material layer (34), even in that case, thermal damage to the vacuum heat insulating material can be avoided. Therefore, the heat insulation performance of the soundproofing heat insulating sheet (30) can be enhanced.

    Further, since the soundproof material layer (31) is composed of the sound absorbing material layer (32) and the sound insulating material layer (33), the soundproofing effect can be improved by both the sound absorbing effect and the sound insulating effect.

-Modification of the embodiment-
In this modified example (modified examples 1 and 2), the configuration of the soundproofing heat insulating sheet (30) is changed.

<Modification 1>
As shown in FIG. 4, in the first modification, the sound insulating material layer (31) is configured only by the sound absorbing material layer (32) by omitting the sound insulating material layer (33) in the above embodiment. is there. That is, the sound-insulating and heat-insulating sheet (30) has the sound-absorbing material layer (32) and the heat-insulating material layer (34) laminated in order from the compressor (21) side. In this case, the compressor (21) is soundproofed by the sound absorbing effect of the sound absorbing material layer (32). Further, the heat transfer amount from the compressor (21) to the heat insulating material layer (34) is reduced by the sound absorbing material layer (32), and the temperature of the heat insulating material layer (34) becomes lower than the surface temperature of the compressor (21). . Therefore, it is not damaged by heat and can exhibit a heat insulating effect.

<Modification 2>
As shown in FIG. 5, in the second modification, a protective material layer (35) made of a protective material is laminated on the outer surface of the heat insulating material layer (34) in the above embodiment. That is, the sound-insulating and heat-insulating sheet (30) has a sound-absorbing material layer (32), a sound-insulating material layer (33), a heat-insulating material layer (34), and a protective material layer (35) in order from the compressor (21) side. Yes. As the protective material of the protective material layer (35), for example, rubber (rubber) similar to the sound insulating material is used.

    In this case, the vacuum heat insulating material of the heat insulating material layer (34) is protected by the protective material layer (35). In other words, without the protective material layer (35), there is a possibility that the refrigerant piping and the refrigeration equipment in the refrigerant circuit (20) may come into contact with the vacuum heat insulating material and damage the laminate structure of the vacuum heat insulating material. ) Prevents contact damage. Thereby, the reliability of a soundproofing heat insulation sheet (30) can be improved. Further, since rubber is used as the protective material, the sound insulation effect is also exhibited in the protective material layer (35). Therefore, the soundproofing effect of the soundproofing and heat insulating sheet (30) can be further enhanced.

<< Other Embodiments >>
About the said embodiment, it is good also as the following structures.

    For example, in the said embodiment, although the vacuum heat insulating material was used as a heat insulating material of a heat insulating material layer (34), this invention is not limited to this.

    Moreover, in the said embodiment, it was made to laminate | stack in order of the sound-absorbing material layer (32) and the sound-insulating material layer (33) from the compressor (21) side as a sound-insulating material layer (31), but the compressor (21) side The sound insulating material layer (33) and the sound absorbing material layer (32) may be laminated in this order.

    Moreover, in the modified example 2 of the said embodiment, the protective material of a protective material layer (35) is not restricted to rubber, What is necessary is just to be able to protect a heat insulating material layer (34).

    In the above embodiment, the case where the compressor (21) is used has been described. However, the present invention is not limited to this, and the present invention is applicable to any device that emits sound and generates heat at a relatively high temperature (for example, an engine). May be.

    Further, the present invention is not limited to use in the compressor (21) of the air conditioner (10), but may be used in a compressor of another refrigeration apparatus (for example, a refrigerator).

    In addition, the above embodiment is an essentially preferable illustration, Comprising: It does not intend restrict | limiting the range of this invention, its application thing, or its use.

    As described above, the present invention is useful as a soundproofing and heat insulating sheet having a soundproofing material and a heat insulating material.

It is a piping system diagram which shows the structure of an air conditioning apparatus. It is a longitudinal cross-sectional view which shows the structure of the soundproofing heat insulation sheet which concerns on embodiment. It is a figure which shows the temperature for every layer of the soundproofing heat insulation sheet which concerns on embodiment. It is a longitudinal cross-sectional view which shows the structure of the sound-insulation heat insulation sheet which concerns on the modification 1 of embodiment. It is a forward sectional view showing the composition of the soundproofing heat insulation sheet concerning modification 2 of an embodiment.

Explanation of symbols

10 Air conditioning equipment (refrigeration equipment)
20 Refrigerant circuit
21 Compressor
30 Soundproof insulation sheet
31 Soundproofing material layer
32 Sound absorbing material layer
33 Sound insulation layer
34 Insulation layer

Claims (5)

A soundproof material layer (31) made of a soundproof material and a heat insulating material layer (34) made of a heat insulating material and laminated on the soundproof material layer (31) are formed into a sheet shape, and the soundproofing material is formed on an object. A soundproofing and heat insulating sheet, wherein the material layer (31) is covered so as to be inside to perform soundproofing and heat insulation of the object. In claim 1,
The soundproofing and heat insulating sheet, wherein the soundproofing material layer (31) includes a sound absorbing material layer (32) made of a sound absorbing material and a sound insulating material layer (33) made of a sound insulating material. In claim 1,
The heat insulating heat insulating sheet, wherein the heat insulating material of the heat insulating material layer (34) is a vacuum heat insulating material. In claim 2,
The sound absorbing material of the sound absorbing material layer (32) is felt,
The sound insulation material according to claim 1, wherein the sound insulation material of the sound insulation material layer (33) is rubber. In claim 1,
The object is a compressor provided in a refrigerant circuit of a refrigeration apparatus.

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