JP6183828B2 - Anti-vibration support structure for compressor - Google Patents

Description

  The present invention relates to an anti-vibration support structure in which a compressor is anti-vibrated and supported on a fixed base of a unit body such as an air conditioner or a refrigerator.

  The compressor has a plurality of leg portions on the outer periphery of the housing, and the leg portions are usually installed by supporting the leg portions on the fixed base of the unit main body through anti-vibration rubber, springs or the like. . In such an anti-vibration support structure for a compressor, there may be cases where the vibration is not fully absorbed by only one system of anti-vibration rubber or spring. This may contribute to vibrations or repeatedly apply stress to the refrigerant piping connected to the compressor.

  Therefore, as shown in Patent Document 1, the compressor is supported on a fixed plate made of sheet metal via a vibration isolating member made of rubber, a spring or the like, and the fixed plate is supported by a cushioning material such as a rubber sheet. A compressor, an accumulator, an oil separator, etc. are fixed on a common fixing plate, and the fixing plate is fixed via a sheet-like vibration-proof rubber, as shown in Patent Document 2 and those installed on a fixed base The thing etc. which were fixed to the base with the volt | bolt are provided.

JP-A-3-286193 JP 2004-293856 A

  Patent Document 1 discloses a sheet metal fixing plate that supports a vibration-proofing of a compressor, and a buffer material made of a rubber material is bonded and integrated with an adhesive, and is installed on a fixed base. However, it is not clear how the fixed plate and the cushioning material are fixedly installed on the fixed base. When the fixed plate on which the compressor is installed is fixedly installed on the fixed base via a sheet-like vibration-proof rubber, it is generally fixed to the fixed base via a bolt as shown in Patent Document 2. It was.

  However, as described above, when the fixing plate on which the compressor is installed is fixedly installed on the fixing base via a fixing means such as a bolt together with the sheet-like anti-vibration rubber, it is assumed that the anti-vibration rubber is inserted with great effort. However, vibration may propagate to the fixed base via the fixing means, and a sufficient anti-vibration effect may not be obtained. Therefore, when the fixed plate, on which the compressor is supported for vibration isolation, is installed on the fixed base via the sheet-shaped vibration isolation member, the vibration is transmitted from the fixed plate to the fixed base side. Therefore, there has been a demand for an anti-vibration support structure that can be reliably shut off.

  The present invention has been made in view of such circumstances, and provides a vibration-proof support structure for a compressor that can reliably block propagation of vibration from the compressor to a fixed base and reduce unit vibration. The purpose is to provide.

In order to solve the above-described problems, the vibration isolating support structure for a compressor according to the present invention employs the following means.
That is, the vibration isolating support structure of the compressor according to the present invention is such that the compressor is supported on the fixed plate via the vibration isolating member, and the fixed plate is installed on the fixed base via the sheet-like vibration isolating material. In the anti-vibration support structure of the compressor, the fixed plate is installed on the sheet-like vibration isolating material in a laminated or integrally coupled state, and both the fixed plate and the sheet-like anti-vibration material are provided on the fixed base. It is fixedly installed through fixing means for insulating and fixing vibration propagation from the fixed plate to the fixed base, and the fixed plate is provided with flange portions bent upward at the left and right ends. is, by the flange portion is fitted into the rising walls provided on right and left side portions of the fixed base, said fixed plate and said sheet-like vibration-proof material on said fixed base set Is, the locking means engaged with the flange portion of the fixing plate, characterized in that there is a claw portion for preventing the floating of the above said fixed plate and said sheet-like vibration-proof material.

According to the present invention, there is provided an anti-vibration support structure for a compressor in which a fixed plate for anti-vibration support of the compressor by the anti-vibration member is installed on the fixed base via the sheet-like anti-vibration material. A fixed plate is installed on the anti-vibration material in a stacked or united manner, and both the fixed plate and the sheet-like anti-vibration material isolate the vibration propagation from the fixed plate to the fixed base on the surface of the fixed base. Since it is fixedly installed via a fixing means for fixing, the vibration of the compressor that has not been absorbed by the vibration isolating member and has propagated to the fixing plate is prevented from being absorbed by the sheet-like sheet between the fixing plate and the fixing base. Absorption by the vibration material and propagation to the unit main body side through the fixed base can be blocked. At this time, both the fixed plate and the sheet-shaped vibration isolator are fixedly installed on the fixed base via the fixing means with the vibration propagation from the fixed plate to the fixed base being insulated. Vibration propagation from all the fixed plates to the fixed base can be reduced. Therefore, the unit vibration can be reduced, and the fixed plate can be prevented from being lifted during transportation or when the unit is dropped.
Further, according to the present invention, flange portions are provided at both left and right end portions of the fixed plate, and the flange portions are fitted between the rising walls on the left and right side portions of the fixed base, so that the fixed plate is mounted on the fixed base. And a sheet-like vibration isolator is installed, and the fixing means is a claw part that engages with the flange part of the fixing plate and prevents the fixing plate and the sheet-like vibration isolator from lifting upward. It is possible to fix and install a fixed plate supporting the machine for vibration isolation and a sheet-like vibration isolation material interposed between the fixed plate and the fixed base without using fastening means such as screws. it can. Therefore, the fixing plate and the sheet-like vibration isolating material can be securely fixed without using expensive fixing means such as a bolt with vibration isolating rubber that insulates vibration on the fixing base.

  Furthermore, the vibration isolating support structure for a compressor according to the present invention is the above-described vibration isolating support structure for a compressor, wherein the fixing plate and the sheet vibration isolating material are drain holes for draining drain water onto the fixed base. And a drainage groove for collecting the drain and draining it to a specific position is provided on the surface of the fixed base.

  According to the present invention, the fixing plate and the sheet-shaped vibration isolating material are provided with drain holes for draining drain water onto the fixed base, and the drain grooves for collecting the drain on the surface of the fixed base and draining it to a specific position are provided. Therefore, even if dew condensation occurs on the surface of the refrigerant pipes and equipment installed in the upper space of the compressor, etc., and it drops on the fixed plate, the drain water is discharged into the fixed plate and sheet form. It drains on a fixed base through the drainage hole provided in the vibration isolator, and can guide and process to a specific drainage position through the drainage groove provided in the surface of the fixed base. Therefore, even if the compressor is supported on the fixed plate by vibration isolation, and the fixed plate is fixedly installed on the fixed base via the sheet vibration isolation material, the drain water can be surely drained to a specific position. it can.

  Furthermore, the anti-vibration support structure for a compressor according to the present invention is the above-described anti-vibration support structure for a compressor, wherein the sheet-like anti-vibration material is formed with an upward bent portion at both left and right ends, and the bent portion. Is sandwiched between the rising wall of the fixed base and the flange portion of the fixed plate.

  According to the present invention, the upward bent portions are formed at the left and right end portions of the sheet-shaped vibration damping material, and the bent portions are sandwiched between the rising wall of the fixed base and the flange portion of the fixed plate. In addition, the propagation of vibration due to the direct contact between the flange portion of the fixed plate and the rising wall of the fixed base can be blocked by the bent portion provided in the sheet-shaped vibration isolating material. Therefore, the propagation of vibration from the fixed plate to the fixed base can be further reduced, and the vibration reduction effect of the unit body can be further enhanced.

Furthermore, the vibration isolating support structure of the compressor according to the present invention is such that the compressor is supported on a fixed plate via a vibration isolating member, and the fixed plate is installed on the fixed base via a sheet-like vibration isolating material. In the anti-vibration support structure of the compressor, the fixed plate is installed on the sheet-shaped vibration isolating material in a laminated or integrally coupled state, and both the fixed plate and the sheet-shaped vibration isolating material are mounted on the fixed base. Fixedly installed through fixing means for insulating and fixing vibration propagation from the fixed plate to the fixed base, and the fixed plate and the sheet-shaped vibration isolating material are integrally bonded with an adhesive, The fixing means is a fixing screw that penetrates the hole of the fixing plate and fixes only the sheet-shaped vibration isolating material to the fixing base side.

  According to the present invention, the fixing plate and the sheet-like vibration isolating material are integrally bonded by the adhesive, and the fixing means penetrates the hole of the fixing plate, and only the sheet-like vibration isolating material is fixed to the fixed base side. By fixing the sheet vibration isolator that is bonded to the fixing plate with an adhesive to the fixing base side through the fixing screw that penetrates the hole of the fixing plate. Both the fixed plate and the sheet-shaped vibration isolating material can be fixedly installed on the fixed base in a state where vibration propagation from the fixed plate to the fixed base is insulated via a fixing screw. Therefore, the vibration of the unit body can be ensured by blocking the propagation of vibration from the fixed plate to the fixed base via the fixing means, while the sheet-shaped vibration isolator is fixed to the fixed base with ordinary screws. Can be reduced.

  According to the present invention, the vibration of the compressor that has not been absorbed by the vibration isolating member but propagated to the fixed plate is absorbed by the sheet-shaped vibration isolating material interposed between the fixed plate and the fixed base, and the fixed base is Propagation to the unit main body side can be interrupted, and at this time, both the fixed plate and the sheet-like vibration isolating material can transmit vibration from the fixed plate to the fixed base on the fixed base via the fixing means. Since it is fixedly installed in an insulated state, it is possible to reduce the propagation of vibration from the fixed plate to the fixed base via the fixing means, so that it is possible to reduce unit vibration, It is also possible to prevent the fixed plate from rising when the unit is dropped.

It is a perspective view of the cross section of the longitudinal direction of the compressor installation site | part of the unit main body which shows the vibration proof support structure of the compressor which concerns on 1st Embodiment of this invention. FIG. 2 is a perspective view of only a vibration isolating support structure portion shown in FIG. 1. It is a perspective view of the part except the compressor of the said vibration proof support structure. It is a perspective view only of the fixed base part of the said vibration proof support structure. It is a front view of the said vibration proof support structure. It is a front view equivalent to FIG. 5 of the modification of the said vibration-proof support structure. It is sectional drawing of only the principal part of the vibration proof support structure which concerns on 2nd Embodiment of this invention.

Embodiments according to the present invention will be described below with reference to the drawings.
[First Embodiment]
Hereinafter, a first embodiment of the present invention will be described with reference to FIGS. 1 to 5.
FIG. 1 is a perspective view of a longitudinal section of a compressor installation portion of a unit body showing a vibration isolating support structure for a compressor according to the first embodiment, and FIG. 2 shows only the vibration isolating support structure portion. 3 is a perspective view of a portion excluding the compressor, FIG. 4 is a perspective view of only the fixed base portion, and FIG. 5 is a front view of the vibration isolating support structure.
The unit main body 1 such as an air conditioner, a refrigerator, or various heat pumps has a compressor 2 supported on the bottom surface thereof in a vibration-proof manner. The compressor 2 is configured to include a plurality of legs 4 in a lower part of the outer periphery of the sealed container 3.

  In this compressor 2, the leg portion 4 is fitted on the outer periphery of a vibration-proof rubber (vibration-proof member) 5, and a through hole 6 provided at the center of the vibration-proof rubber 5 is fixedly installed on a fixed plate 10. Anti-vibration is supported on the fixed plate 10 at a plurality of locations on the outer periphery via an anti-vibration support device 9 configured to be inserted into the bolt 7 and fastened and fixed with the nut 8. The anti-vibration rubber 5 may be replaced with a spring or the like.

  The fixed plate 10 is a plate material made of sheet metal and has a rectangular shape, and flange portions 11 bent upward are provided at both left and right end portions. Further, the fixing plate 10 has the above-described bolts 7 for the vibration isolating support device 9 fixedly installed at a plurality of locations (usually 3 to 4 locations), as shown in FIG. A plurality of drainage / positioning holes (drainage holes) 12 are provided for draining the drained water dropped downward.

  On the lower surface of the fixed plate 10, a sheet-like vibration isolator 13 is integrally joined with an adhesive, caulking, bolts, or the like. The sheet-like vibration isolator 13 is made of a rectangular rubber sheet having a predetermined thickness and hardness, and the vibration propagated to the fixed plate 10 without being completely absorbed by the anti-vibration support device 9. It is for absorbing. It is assumed that the sheet-shaped vibration isolator 13 is provided with similar holes at positions corresponding to the plurality of drainage / positioning holes (drainage holes) 12 of the fixed plate 10. Note that the fixed plate 10 and the sheet-like vibration isolator 13 do not necessarily have to be integrally joined, and may simply be laminated.

  In addition, a bent portion 14 is formed at both left and right ends of the sheet-shaped vibration isolator 13 so as to be bent upward along the outer surface of the flange portion 11 of the fixing plate 10. It is configured to be sandwiched between the rising wall 19 of the base 15 and the flange portion 11 of the fixed plate 10. The sheet-shaped vibration isolator 13 is configured to be placed on the upper surface of a fixed base 15 that is fixedly installed on a pedestal 21 that constitutes the bottom surface of the unit body 1.

  A large number of ribs 16 are provided on the upper surface of the fixed base 15, a plurality of drain drain grooves 17 are formed between the ribs 16, and drain water can be drained by guiding drain water to a specific position. Protruding portions 18 that protrude upwardly into which the drainage and positioning holes 12 provided in the sheet-shaped vibration isolator 13 and the fixing plate 10 are fitted are provided at a plurality of locations.

  Further, on both the left and right side portions of the fixed base 15 are provided vertical rising walls 19 into which the flange portion 11 of the fixed plate 10 and the bent portion 14 of the sheet-like vibration damping material 13 are fitted. The left and right rising walls 19 engage with the flange portion 11 of the fixed plate 10 and the upward bent portion 14A of the sheet vibration isolator 14, respectively, so that the fixed plate 10 and the sheet vibration isolator 14 are engaged. A claw portion (fixing means) 20 serving as a means for fixing so as to prevent upward lifting is extended in the width direction and provided in a predetermined range.

With the configuration described above, according to the present embodiment, the following operational effects can be obtained.
Various vibrations are generated by the operation of the compressor 2, and the vibrations are first absorbed by the vibration isolating support device 9 that supports the vibration isolating of the compressor 2, thereby moving to the fixed plate 10 side. Propagation is blocked. However, since there is a surface that cannot be absorbed only by the vibration isolating support by the single vibration isolating rubber 5, the fixing plate 10 is placed on the fixing base 15 via the sheet-like vibration isolating material 13 made of a rubber sheet material or the like. The vibration that is installed and absorbed by the vibration proofing support device 9 is absorbed by the sheet-shaped vibration proofing material 13, so that it is prevented from propagating to the unit body 1 side through the fixed base 15, and the unit vibration is prevented. Reduced.

  At this time, in this embodiment, both the fixing plate 10 and the sheet-like vibration isolator 13 are not directly fastened and fixed via fixing means such as bolts, but the fixing plate 10 is fixed to the fixing base 15 on the fixing base 15. The installation is fixed through means for fixing the vibration propagation in an insulated state. For this reason, it is possible to reduce the vibration propagation from the fixing plate 10 to the fixing base 15 via the fixing means, thereby reliably reducing the unit vibration, and at the time of carrying or dropping the unit. It is possible to prevent the fixed plate 10 from being lifted.

  Further, in the present embodiment, flange portions 11 are provided at both left and right ends of the fixing plate 10, and the flange portions 11 are fixed by being fitted between the rising walls 19 on both the left and right sides of the fixing base 15. The fixing plate 10 and the sheet-like vibration isolating material 13 are installed on the base 15, and the fixing means engages with the flange portion 11 of the fixing plate 10, and the fixing plate 10 and the sheet-like vibration isolating material 13 are lifted upward. It is set as the nail | claw part (fixing means) 20 which prevents this.

  For this reason, the fixed plate 10 that supports the vibration-proofing of the compressor 2 and the sheet-shaped vibration-proofing material 13 interposed between the fixed plate 10 and the fixed base 15 are fastened with screws or the like on the fixed base 15. It can be fixedly installed without using means. Thus, the fixing plate 10 and the sheet-like vibration isolating material 13 can be reliably fixed on the fixing base 15 without using an expensive fixing means such as a bolt with anti-vibration rubber that insulates vibration.

  Particularly, an upward bent portion 14 is formed at both left and right end portions of the sheet-shaped vibration isolator 13, and the bent portion 14 is sandwiched between the rising wall 19 of the fixed base 15 and the flange portion 11 of the fixed plate 10. Therefore, propagation of vibration due to direct contact between the flange portion 11 of the fixed plate 10 and the rising wall 19 of the fixed base 15 can be blocked by the bent portion 14 provided in the sheet-shaped vibration isolating material 13. Thereby, the propagation of vibration from the fixed plate 10 to the fixed base 15 can be further reduced, and the vibration reduction effect of the unit body 1 can be further improved.

  Furthermore, in this embodiment, the fixing plate 10 and the sheet-shaped vibration isolator 13 are provided with a drainage / positioning hole (drainage hole) 12 for draining drain water onto the fixed base 15, and the fixed base 15 is provided from the drainage hole 12. The drain water is drained to the surface of the water, and the drainage treatment is performed at a specific position via the drainage groove 17. For this reason, even if dew condensation occurs on the surfaces of the refrigerant pipes and devices disposed in the upper space of the compressor 2 and drops on the fixed plate 10, the drain water is supplied to the fixed plate 10 and the sheet. Drained onto the fixed base 15 through the drainage holes 12 provided in the vibration-proof material 13, guided to a specific drainage position via the drainage grooves 17 provided on the surface of the fixed base 15, and appropriately processed. Can do.

  Therefore, even if the compressor 2 is supported on the fixed plate 10 by vibration isolation, and the fixed plate 10 is fixedly installed on the fixed base 15 via the sheet-shaped vibration isolation material 13, the drain water is surely placed at a specific position. Waste water can be treated.

  In the above-described embodiment, the upward bent portions 14 are formed at the left and right ends of the sheet-shaped vibration damping material 13, and the bent portions 14 are formed on the rising wall 19 of the fixed base 15 and the flange portion of the fixed plate 10. However, as shown in FIG. 6, the bent portion 14 may be omitted.

  Also with this configuration, the vibration propagation from the fixed plate 10 to the fixed base 15 is performed on the fixed base 15 without directly fastening and fixing both the fixed plate 10 and the sheet-like vibration isolating material 13 through fixing means such as bolts. Can be fixedly installed by the claw portion 20 in an insulated state, so that vibration propagation from the fixing plate 10 to the fixing base 15 via the fixing means can be reduced, and vibration of the unit body 1 is reduced. In addition, it is possible to prevent the fixed plate 10 from being lifted during transportation or when the unit is dropped.

[Second Embodiment]
Next, a second embodiment of the present invention will be described with reference to FIG.
This embodiment differs from the first embodiment described above in the fixing structure of the fixing plate 10 and the sheet-like vibration isolating material 14. Since other points are the same as those in the first embodiment, description thereof will be omitted.
In this embodiment, after omitting the flange portion 11, the bent portion 14, and the claw portion 20, as shown in FIG. 7, the fixing plate 10 installed on the fixing base 15 and the sheet-like vibration isolator 13 are bonded. The sheet-type vibration isolator 13 alone is fixed to the screw boss 15A provided on the fixed base 15 side through the hole 10A provided in the fixing plate 10 (fixing means). ) 22 and tightened and fixed.

  As described above, the fixing plate 10 and the sheet-like vibration isolating material 13 are integrally bonded with an adhesive, and the fixing screw 22 as a fixing means is passed through the hole 10A of the fixing plate 10 so that the sheet-like vibration isolating material 13 is provided. Only the fixing base 15 is fastened and fixed, so that the sheet-like vibration isolator 13 bonded to the fixing plate 10 by an adhesive is attached to the fixing plate 10 with the fixing screw 22 penetrating the hole 10A of the fixing plate 10. By fastening and fixing to the fixed base 15 side, the vibration propagation from the fixed plate 10 to the fixed base 15 can be performed on the fixed base 15 via the fixing screw 22 on both the fixed plate 10 and the sheet-shaped vibration isolator 13. It can be fixedly installed in an insulated state.

  Therefore, also in the present embodiment, the sheet-like vibration isolator 13 is fixed to the fixing base 15 with the normal fixing screw 22, and the fixing plate 10 to the fixing base 15 via the fixing means is used. By blocking the vibration propagation, the vibration of the unit body 1 can be reliably reduced.

  In addition, this invention is not limited to the invention concerning the said embodiment, In the range which does not deviate from the summary, it can change suitably. For example, in the above-described embodiment, the anti-vibration support device 9 for isolating and supporting the compressor 2 on the fixed plate 10 is fitted into the outer periphery of the anti-vibration rubber 5 so that the leg 4 of the compressor 2 is fitted. In the above description, the through-hole 6 provided in the center is inserted into the bolt 7 fixedly installed on the fixing plate 10 and is fastened and fixed by the nut 8 as an example. It can be anything.

  In the above embodiment, the drainage / positioning hole (drainage hole) 12 is used as both the drainage hole and the positioning hole, but it is needless to say that the hole may be provided separately. Furthermore, although the said embodiment demonstrated what provided the drainage groove | channel 17 which drains drain water on the upper surface of the fixed base 15, about this drainage groove | channel 17, it cannot be overemphasized that a groove shape etc. can be changed suitably. Nor. Moreover, this invention is not limited to what has the drain groove 17, It is needless to say that it can apply similarly to the thing which does not have the drain groove 17. FIG.

1 Unit body 2 Compressor 5 Anti-vibration rubber (anti-vibration member)
9 Anti-vibration support device 10 Fixing plate 10A Hole 11 Flange 12 Drain and positioning hole (drain hole)
13 Sheet-like vibration isolator 14 Bending portion 15 Fixed base 17 Drainage groove 19 Rising wall 20 Claw portion (fixing means)
22 Fixing screw (fixing means)

Claims (4)

In the anti-vibration support structure of the compressor in which the compressor is supported on the fixed plate via the anti-vibration member, and the fixed plate is installed on the fixed base via the sheet-like anti-vibration material.
The fixed plate is installed on the sheet-shaped vibration isolator by being laminated or integrally joined,
Both the fixed plate and the sheet-like vibration isolating material are fixedly installed on the fixed base via fixing means for insulating and fixing vibration propagation from the fixed plate to the fixed base,
The fixing plate is provided with flange portions that are bent upward at both left and right end portions, and the flange portions are fitted between rising walls provided on the left and right side portions of the fixing base, thereby The fixed plate and the sheet-like vibration isolator are installed on a fixed base , the fixing means engages with the flange portion of the fixed plate, and the fixed plate and the sheet-like vibration isolator are lifted upward. An anti-vibration support structure for a compressor, wherein the anti-vibration support structure is a claw portion for preventing the vibration.   The fixed plate and the sheet-shaped vibration isolator are provided with drain holes for draining drain water onto the fixed base, and a drain groove for collecting the drain and draining it to a specific position on the surface of the fixed base. The anti-vibration support structure for a compressor according to claim 1, wherein the anti-vibration support structure is provided.   The sheet-shaped vibration isolator is formed with bent portions at the left and right ends, and the bent portions are sandwiched between the rising wall of the fixed base and the flange portion of the fixed plate. The anti-vibration support structure for a compressor according to claim 2. In the anti-vibration support structure of the compressor in which the compressor is supported on the fixed plate via the anti-vibration member, and the fixed plate is installed on the fixed base via the sheet-like anti-vibration material.
The fixed plate is installed on the sheet-shaped vibration isolator by being laminated or integrally joined,
Both the fixed plate and the sheet-like vibration isolating material are fixedly installed on the fixed base via fixing means for insulating and fixing vibration propagation from the fixed plate to the fixed base,
The fixing plate and the sheet vibration isolator are integrally bonded with an adhesive, and the fixing means passes through the hole of the fixing plate, and fixes only the sheet vibration isolating material to the fixed base side. An anti-vibration support structure for a compressor, characterized by being a fixing screw.

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