JPH10318331A - Vibro-isolating supporting device for compressor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a vibro-isolating supporting device for a compressor being large in the degree of freedom for a design of making both of load resistance and dampingness reconcilable in a proper manner. SOLUTION: This supporting device is so constituted that a stud bolt 6 is attached tight onto an anchor block 1, a hollow tubular elastic rubber body 2 is installed in the stud bolt 6, and then a compressor 3 is mounted on the elastic rubber body 2 for maintenance. In this case, a cavity 2c is formed in the hollow tubular elastic rubber body 2, whereby it is composed of having a slit 2d formed downward in a range from the cavity 2 up to an end face of the elastic rubber body 2 upward as its constitution.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vibration isolating support device for a compressor, and more particularly, to a structure of an elastic rubber body for supporting an object to be supported.

[0002]

2. Description of the Related Art As shown in FIGS. 1 and 7, a conventional vibration isolating support device for a compressor includes a fixed base 1 made of sheet metal such as a thin steel plate.
, Three stud bolts 6 are fixed toward the upper surface of the fixed base 1, and three hollow cylindrical elastic rubber bodies 2 are inserted into the stud bolts 6, and a compressor is mounted on the elastic rubber bodies 2. 3 and mounting holes 3c formed in the mounting portions 3b are inserted into the stud bolts 6, and mounting nuts 7 are screwed onto the stud bolts 6, and the compressor 3
The mounting portion 3b is sandwiched and fixed between the elastic rubber body 2 and the mounting nut 7.

[0003]

However, in this configuration, the load-bearing and vibration-damping properties of the vibration-proof support device of the compressor are as follows.
Although it depends greatly on the rubber hardness of the elastic rubber body, the rubber hardness is increased to increase the load bearing capacity, and the rubber hardness is decreased to increase the vibration damping performance. There is a problem that it is difficult to design an elastic rubber body having appropriate load resistance and vibration damping properties under load and vibration conditions. In view of the above problems, an object of the present invention is to provide an anti-vibration support device for a compressor having a large degree of freedom in design, which can appropriately balance load resistance and vibration damping.

[0004]

According to the present invention, in order to solve the above-mentioned problems, a stud bolt is fixed on a fixed base, and a hollow cylindrical elastic rubber body is mounted on the stud bolt. In a vibration isolating support device for a compressor having a compressor mounted thereon and supported, a hollow is formed inside the hollow cylindrical elastic rubber body, and a slit is formed from the hollow to an end face. Has become.

The hollow cylindrical elastic rubber body is formed in a cylindrical shape.

[0006] Further, the cavity is formed to be continuous around the entire circumference of the elastic rubber body.

[0007] Further, the cavity is formed so as to be partially discontinuous on the entire circumference of the elastic rubber body.

Further, the cross section of the cavity is configured to have no corner at a corner, such as an ellipse, a circle, and an oval.

Further, the slit is bent at a right angle or an obtuse angle in the middle.

In addition, a concave portion is formed on both sides of the slit on the end surface of the elastic rubber body in which the slit is formed, and a convex portion that fits into the concave portion is formed on the upper surface of the fixed base or the lower surface of the supported object. The configuration is as follows.

In addition, a convex portion is formed on both sides of the slit on the end surface of the elastic rubber body in which the slit is formed, and a concave portion to be fitted to the convex portion is formed on the upper surface of the fixing base or the lower surface of the supported object. It has a formed configuration.

[0012] Further, the projection and the depression are formed on the entire periphery on both sides of the slit on the end face of the elastic rubber body and on the entire periphery of the upper surface of the fixed base or the lower surface of the supported object. Has become.

Further, the slit is welded.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS With the above-described structure, a vibration-proof supporting device for a compressor having a large degree of freedom in designing, which can appropriately balance load resistance and vibration damping properties.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First, an embodiment of the present invention shown in FIGS. 1 to 4 will be described. Fixed table 1 made of sheet metal such as thin steel plate
, Three stud bolts 6 are fixed toward the upper surface of the fixed base 1, and three hollow cylindrical elastic rubber bodies 2 are inserted into the stud bolts 6, and a compressor is mounted on the elastic rubber bodies 2. 3 and mounting holes 3c formed in the mounting portions 3b are inserted into the stud bolts 6, and mounting nuts 7 are screwed onto the stud bolts 6, and the compressor 3
Is fixed between the elastic rubber body 2 and the mounting nut 7. A rectangular cavity 2c is formed near the lower end surface 2a of the elastic rubber body 2, and the lower end surface 2a
Further, a slit 2d is formed in the cavity 2c. The cavity 2b can improve the vibration absorption without significantly lowering the load resistance of the elastic rubber body 2.

The cavity 2c of the elastic rubber body 2 is formed in a mold configuration shown in FIG. The block mold part 4a forming the cavity 2c is connected to the mold body 4 by a thin plate-shaped mold part 4b. After molding, the block mold portion 4a
Is forcibly removed using the elasticity of rubber. The trace of the thin plate-shaped mold portion 4b remains on the elastic rubber body 2 as the slit 2d.

By making the cross section of the cavity an elliptical shape and having a shape with no corners, it is easy to forcibly remove after molding and stress due to the load of the compressor 3 is hardly concentrated. , Load resistance is less likely to decrease.

Since the slit 2d is configured to bend twice at a right angle or an obtuse angle on the way,
The hermeticity of the cavity 2c can be improved, and the vibration absorption can be improved. When the slit 2d has an obtuse angle on the way, it can be more reliably engaged with the slit 2d when assembling than when the angle is a right angle.

Concave portions 2e are formed on both sides of the slit 2d on the lower end surface 2a of the elastic rubber body 2 in which the slit 2d is formed, and a convex portion 1a fitted to the concave portion 2e is formed on the upper surface of the fixed base 1. By adopting the formed configuration, it is possible to prevent the slit 2d from opening due to the load of the compressor 3 and to prevent the load resistance from being reduced, and also to prevent the hermeticity of the cavity 2c from being reduced and the vibration absorption from being reduced. Can be prevented. The same effect can be obtained by forming the concave portion on the upper surface of the fixed base 1 and providing the convex portion on the lower end surface 2a.

By making the hollow cylindrical elastic rubber body 2 have a cylindrical planar shape, a compressor having a uniform directional characteristic with respect to a two-dimensional planar vibration component of the compressor 3 in the front-rear and left-right directions. It becomes the anti-vibration support device. As shown in FIG. 4, the cavity 2 c is connected to the lower end surface 2 a of the elastic rubber body 2.
In the vicinity inside, it is formed continuously around the entire circumference, and the slit 2
d is also formed continuously over the entire circumference. Since the cavity 2c is formed on the entire circumference, a vibration isolating support device of a compressor having uniform directional characteristics and improved vibration absorption with respect to a two-dimensional planar vibration component in front, rear, left and right of the compressor 3 is provided. Can be obtained.

Next, another embodiment of the present invention shown in FIG. 5 will be described. The configuration of the cavity is different from that of the embodiment. The cavity 2c is formed in the vicinity of the lower end surface 2a of the elastic rubber body 2 so as to be partially discontinuous over the entire circumference, and the slit 2d is also formed partially discontinuously over the entire circumference. Since the slits 2d are partially connected, the slits 2d are opened by the load of the compressor 3 to prevent the load resistance from deteriorating.
It is possible to prevent the hermeticity of c from lowering and the vibration absorbing property from lowering.

Next, another embodiment of the present invention shown in FIG. 6 will be described. The configuration of the concave portion and the convex portion is different from that of the embodiment. The concave portion 2e is formed on the entire periphery of the lower end surface 2a of the elastic rubber body 2 on both sides of the slit 2d, and the convex portion 1a is formed on the entire periphery of the upper surface of the fixed base 1. In all directions, the load of the compressor 3 opens the slit 2d to prevent the load resistance from being reduced, and also prevents the hermeticity of the cavity 2c from being reduced and prevents the vibration absorption from being reduced. be able to.

By welding and sealing the slit 2d by ultrasonic welding or heat welding, the hermeticity of the cavity 2c is ensured, and the vibration absorption can be improved.

[0024]

As described above, according to the present invention,
It is a vibration-proof support device for a compressor having a large degree of freedom in design that can appropriately balance load resistance and vibration damping.

[Brief description of the drawings]

1A and 1B show an overall configuration of an anti-vibration support device for a compressor according to the present invention and a conventional example, wherein FIG. 1A is a plan view and FIG. 1B is a side view.

2A and 2B show an embodiment of a vibration isolating support device for a compressor according to the present invention, in which FIG. 2A is a cross-sectional view of a main part viewed from the side, and FIG. .

FIG. 3 is a side sectional view showing a configuration of a mold forming a cavity of the vibration isolating support device of the compressor according to the present invention, as viewed from a side.

FIG. 4 is a cross-sectional view of a main part of an embodiment of the vibration-damping support device for the compressor according to the present invention as viewed from above.

FIG. 5 is a cross-sectional view of a main part of another embodiment of a vibration damping support device for a compressor according to the present invention as viewed from above.

FIG. 6 is a cross-sectional view of a main part viewed from below showing another embodiment of the vibration isolating support device of the compressor according to the present invention.

FIG. 7 is a cross-sectional view of a main part of a vibration damping support device for a compressor according to a conventional example viewed from a side surface.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Fixed base 1a Convex part 2 Elastic rubber body 2a Lower end surface 2b Upper end surface 2c Cavity 2d Slit 2e Depression 3 Compressor 6 Stud bolt

Claims (10)

[Claims] 1. A compressor comprising a stud bolt fixed on a fixed base, a hollow cylindrical elastic rubber body mounted on the stud bolt, and a compressor mounted and supported on the elastic rubber body. An anti-vibration support device for a compressor, wherein a cavity is formed in the hollow cylindrical elastic rubber body, and the hollow and a lower end face communicate with each other by a slit. 2. The vibration isolating support device for a compressor according to claim 1, wherein said hollow cylindrical elastic rubber body is formed in a cylindrical shape. 3. The vibration isolating support device for a compressor according to claim 1, wherein the cavity is formed continuously around the entire circumference of the elastic rubber body. 4. The elastic rubber body according to claim 1, wherein the cavity is formed partially discontinuously on the entire circumference of the elastic rubber body.
Or a vibration isolating support device for a compressor according to claim 2. 5. The vibration isolating support device for a compressor according to claim 1, wherein a cross-sectional shape of said cavity is a shape having no corner at a corner. 6. The vibration isolating support device for a compressor according to claim 1, wherein the slit is formed so as to be bent at a right angle or an obtuse angle in the middle. 7. A method according to claim 1, wherein a concave portion is formed on both sides of the slit at a lower end surface of the elastic rubber body having the slit formed thereon, and a convex portion which fits into the concave portion is formed on an upper surface of the fixing base. 7. The vibration isolating support device for a compressor according to claim 1, wherein: 8. An elastic rubber body in which said slit is formed, wherein a convex portion is formed on both sides of a slit on a lower end surface, and a concave portion which fits into said convex portion is formed on an upper surface of said fixed base. The vibration isolating support device for a compressor according to any one of claims 1 to 7, wherein: 9. The fixing device according to claim 1, wherein the convex portion and the concave portion are formed on the entire periphery of both sides of the slit on the end face of the elastic rubber body and the entire periphery of the upper surface of the fixing base. An anti-vibration support device for a compressor according to claim 8. 10. The vibration isolating support device for a compressor according to claim 1, wherein the slit is welded.