KR200450593Y1 - Slewing bearing - Google Patents

Abstract

Slewing bearing of the present invention is disposed on the inner circumferential surface of the outer race and the outer race is formed along the inner circumferential surface on one side of the inner circumference, the outer race and the step is formed so that one side enters than one side of the outer race, the other side An inner race which protrudes from the other side of the outer race and has an inner groove formed on the outer circumferential surface along the outer circumferential surface, and a plurality of steel balls interposed between the inner circumferential surface of the outer race and the outer circumferential surface of the inner race and the outer groove and the inner groove. One side is inserted into and coupled to each of the inner side, and the other side is seated on each of the inner race and the outer race, and the outer race forming the outer groove and the inner groove among the portions inserted into the outer groove and the inner groove, and remind At least any one surface of the corresponding portion on the wall surface of the race you are to contain a plurality of acid formed the seal.
According to this, when a plurality of acids are formed in the seal and inserted into the outer / inner grooves, the seals are inserted in the compressed state according to the width of the outer / inner grooves. Since it is in close contact with the wall of the outer / inner race forming the groove, it is possible to prevent the seal from being detached due to heat shrinkage due to the temperature change around the slewing bearing.

Description

Slewing Bearings {SLEWING RING BEARING}

The present invention relates to a slewing bearing of the bearing, and more particularly to an assembly structure of the seal for the outer race and the inner race of the components constituting the slewing bearing.

In general, a bearing refers to a mechanical element that fixes a shaft of a rotating machine to a fixed position, and rotates the shaft while supporting the weight of the shaft and the load on the shaft.

Among these bearings, the slewing bearing is characterized by a structure in which gears existing inside and outside are engaged with each other in addition to the above elements, and are mainly used in a turning device of a crane or a large construction machine.

Conventional slewing bearings have a ring-shaped outer race, a ring-shaped inner race coupled within an inner circumferential surface of the outer race, and an outer race fixed between an outer race and an inner race. And a plurality of Steelballs that allow the inner race to rotate relative to the steel balls.

Here, the inner race is stepped with the outer race so that one side enters the outer race and the other side protrudes from the outer race.

An outer groove is formed on the inner circumferential surface of the outer race along the inner circumferential surface, and an inner groove is formed on the outer circumferential surface of the inner race along the outer circumferential surface.

One side of a seal made of rubber is inserted into each of the outer / inner grooves, and the other side thereof is respectively seated on the inner / outer race.

The seal prevents external foreign matter from penetrating between the outer race and the inner race during the operation of the slewing bearing to prevent the inner race from rotating relative to the outer race.

However, since the seal is made of a rubber material, a change in the shrinkage of the seal occurs due to a change in the ambient temperature of the swing bearing, or the seal is separated from the groove of the outer / inner race due to a rotation moment generated when the swing bearing is operated. That is, there is a problem that is missing.

If the seal deviates from the groove for the same reason as above, the foreign matter penetrates into the space between the outer race and the inner race during operation of the slewing bearing, which in turn hinders the original function of the slewing bearing. There is a problem in that the slewing bearing needs to be replaced or repaired in the equipment using the bearing.

The present invention is to solve the above problems, an improved turning to prevent the seal from being separated from the outer groove and the inner groove of the outer race and inner race due to the temperature change around the slewing bearing or the generation of the rotation moment It is an object to provide a bearing.

Slewing bearing of the present invention is disposed on the inner circumferential surface of the outer race and the outer race is formed along the inner circumferential surface on one side of the inner circumference, the outer race and the step is formed so that one side enters than one side of the outer race, the other side An inner race which protrudes from the other side of the outer race and has an inner groove formed on the outer circumferential surface along the outer circumferential surface, and a plurality of steel balls interposed between the inner circumferential surface of the outer race and the outer circumferential surface of the inner race and the outer groove and the inner groove. One side is inserted into and coupled to each of the inner side, and the other side is seated on each of the inner race and the outer race, and the outer race forming the outer groove and the inner groove among the portions inserted into the outer groove and the inner groove, and remind At least any one surface of the corresponding portion on the wall surface of the race you are to contain a plurality of acid formed the seal.

A plurality of spring pins may be provided for fixing the seals in the outer / inner grooves, respectively, through the outer / inner races in the portions corresponding to the outer / inner grooves and the seals respectively inserted in the outer / inner grooves. have.

At least one of the wall surfaces of each of the outer / inner races respectively forming the outer / inner grooves may be tapered, so that the width of each of the outer / inner grooves may be smaller than the inner side.

A valley may be formed on a wall of each of the outer / inner races corresponding to the mountains so as to correspond to the mountains and the males and females.

According to the slewing bearing of the present invention, when a plurality of peaks are formed in the seal and inserted into the outer / inner groove, they are inserted in the compressed state according to the width of the outer / inner groove, and when the thermal contraction is performed, the degree of compression is reduced. Since it is small and closely adheres to the wall surface of the outer / inner race forming the outer / inner groove, it is possible to prevent the seal from being released due to heat shrinkage due to the temperature change around the slewing bearing.

In addition, even when the seal inserted into the outer / inner groove is weakened or loosened to the wall of the outer / inner race forming the outer / inner groove by heat shrinkage, the seal is fastened to the outer / inner race through the seal. Since the seal can be fixed in the outer / inner groove by the spring pin, it is possible to prevent the seal from the outer / inner groove even if the seal is heat shrinked.

Therefore, the seal can be fixed in the outer / inner groove by the above means, so that the seal can block various foreign substances that can penetrate into the space between the outer race and the inner race during the operation of various equipment employing the slewing bearing. Therefore, it is possible to prevent replacement or repair of the slewing bearing due to foreign matter infiltration.

1 is a perspective view schematically showing a slewing bearing according to a first embodiment of the present invention;
FIG. 2 is a cross-sectional view schematically showing a slewing bearing along the line II ′ of FIG. 1. FIG.
3 and 4 are cross-sectional views schematically showing another embodiment of the outer / inner groove of FIG.

Hereinafter, the turning bearing of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view schematically showing a slewing bearing according to a first embodiment of the present invention, Figure 2 is a cross-sectional view schematically showing a slewing bearing according to the line II 'of FIG.

1 and 2, the swing bearing 100 of the present invention includes an outer race 110, an inner race 120, a steel ball 140, and a seal 130.

The outer race 110 and the inner race 120 has a circular ring shape, the outer race type gear is formed on the outer peripheral surface of the outer race 110, the inner race formed gears on the inner peripheral surface of the inner race 120 It may be a wheelless type in which no gear is formed in the type and both.

The inner race 120 is stepwise coupled to the inner circumferential surface of the outer race 110, the steel ball groove 112 formed on the inner circumferential surface of the outer race 110 and the steel ball groove formed on the outer circumferential surface of the inner race 120 The inner race 120 rotates on the inner circumferential surface of the outer race 110 with respect to the outer race 110 by the plurality of steel balls 140 interposed between the 122.

The inner race 120 is disposed to be stepped on the outer race 110 means that the inner race 120 is formed in one side than the outer race 110, and is expressed in a protruding form on the other side. Can be.

Seal grooves 111 and 121 spaced apart from the steel ball grooves 112 and 122 are formed along the inner circumferential surface of the inner circumferential surface of the outer race 110 and the outer circumferential surface of the inner race 120.

Hereinafter, the grooves formed in the outer race 110 and the inner race 120 refer to the seal grooves 111 and 121, and the seal groove of the outer race 110 is the outer groove 111 to the inner race 120. The seal groove of the will be referred to as the inner groove (121).

One side of the seal 130 is inserted into and coupled to the outer groove 111 and the inner groove 121, and the other side of the seal 130 is seated on the inner race 120 and the outer race 110. The seal 130 covers a space formed between the outer race 110 and the inner race 120.

That is, the seal 130 having one side coupled to the outer groove 111 is seated on the inner race 120, and the seal 130 having one side coupled to the inner groove 121 is the outer race 110 at the other side. It is seated on).

Here, the seal 130 may be coupled through the adhesive 150 in the outer / inner grooves 111 and 121, or may be coupled in an interference fit manner.

Hereinafter, "outer / inner" refers to "outer and inner".

Since the seal 130 is made of rubber and has a large heat shrinkage, a plurality of mountains 131 may be continuously formed on at least one surface closely contacting the wall surface of the outer / inner races 110 and 120 forming the outer / inner grooves 111 and 121. It may be formed intermittently.

Accordingly, even when the seal 130 is thermally contracted, the plurality of peaks 131 continue to be in close contact with the wall surfaces of the outer / inner races 110 and 120, so that the seal 130 is connected to the outer / inner grooves 111 and 121. You can prevent it from falling off.

That is, when the seal 130 is inserted and coupled to the outer / inner grooves 111 and 121, the plurality of acids 131 may be compressed and inserted to fit the width of the outer / inner grooves 111 and 121, and may be changed according to a temperature change. Even though the seal 130 is thermally contracted, the plurality of acids 131 are in close contact with the wall surfaces of the outer / inner races 110 and 120 forming the outer / inner grooves 111 and 121 as their compression degree decreases. Can be.

In order to prevent the seal 130 from being separated from the outer / inner grooves 111 and 121 in addition to the plurality of mountains 131, a spring pin 160 may be formed in the outer / inner race 110 and 120. ) And the seal 130 inserted into the outer / inner grooves 111 and 121.

Specifically, holes 113 and 123 are formed on one surface of the outer / inner races 110 and 120 corresponding to one side of the outer / inner grooves 111 and 121 so that the holes 113 and 123 communicate with the outer / inner grooves 111 and 121. In addition, the grooves 114 and 124 are formed on the same line as the holes 113 and 123, and the grooves 114 and 124 are formed in the outer / inner races 110 and 120 corresponding to the other sides of the outer and inner grooves 111 and 121, respectively. / To communicate with the inner groove (111, 121).

Thereafter, the spring pin 160 is inserted through the holes 113 and 123 to penetrate the seal 130 inserted into the outer / inner grooves 111 and 121, and then the spring pin 160 in the grooves 114 and 124. By inserting the ends of the seal 130, the seal 130 may be fixed in the outer / inner grooves 111 and 121 even when the seal 130 is not in close contact with the outer / inner grooves 111 and 121 by heat shrinkage.

In particular, by using the spring pin 160 as a means for fixing the seal 130 in the outer / inner groove (111, 121) through the outer / inner race (110, 120) and the seal 130, The outer circumferential surface of the 160 is in close contact with the wall surface forming the holes 113 and 123, the wall surface forming the grooves 114 and 124, and the wall surface of the seal 130 of the penetrating portion, so that the spring pin 160 easily detaches to the outside. Will not be.

That is, the spring pin 160 penetrates through the seal 130 and is similar in shape to a certain depth from one side of the outer / inner race 110 and 120 in the other direction.

According to the slewing bearing 100 having the above-described structure, a plurality of peaks 131 are formed in the seal 130 to be inserted into the outer / inner grooves 111 and 121 to fit the width of the outer / inner grooves 111 and 121. Inserted in the compressed state, when the heat shrink shrinks as much as the contraction is reduced, the temperature change around the slewing bearing 100 because it is in close contact with the wall of the outer / inner race (110, 120) forming the outer / inner groove (111, 121) As a result, separation of the seal 130 due to heat shrinkage can be prevented.

In addition, when the seal 130 inserted into the outer / inner grooves 111 and 121 is in close contact with the wall of the outer / inner races 110 and 120 forming the outer / inner grooves 111 and 121 by heat shrinkage, or becomes loose. Since the seal 130 can be fixed in the outer / inner grooves 111 and 121 by the spring pins 160 fastened to the outer / inner races 110 and 120 through the Edo seal 130, the seal 130 is heat-shrinked. Even if it does so, departure from the outer / inner grooves 111 and 121 can be prevented.

Accordingly, since the seal 130 can be fixed in the outer / inner grooves (111 and 121) by the above means, the outer race 110 and the inner race 120 during operation of various equipment employing the slewing bearing 100 can be fixed. Since the seal 130 may block various foreign matters that may penetrate into the space between the two, it is possible to prevent replacement or repair of the swing bearing 100 due to foreign matter infiltration.

Here, although only the example in which the seal 130 is separated from the outer / inner grooves 111 and 121 by heat shrinkage has been described, it may be prevented that the seal 130 is separated by various other reasons such as a rotation moment.

3 and 4 schematically illustrate another embodiment of the outer / inner groove of FIG. 2.

Referring to FIG. 3, a portion of the wall of the outer / inner races 110 and 120 forming the outer / inner grooves 111 and 121 respectively corresponds to the plurality of mountains 131 formed in the seal 130. The same shape as that of the bone 125 may be formed.

In the case of the outer / inner grooves 111 and 121 having the structure as described above, when the seal 130 is inserted into the outer / inner grooves 111 and 121, a plurality of peaks 131 formed in the seal 130 are formed in the valleys. Male and female coupling to each of 125 may fix the seal 130 in the outer / inner grooves 111 and 121 even when the seal 130 is thermally contracted.

4, the outer / inner races 110 and 120 forming the outer / inner grooves 111 and 121 to prevent the seal 130 from being separated from the outer / inner grooves 111 and 121 even when the seal 130 is thermally contracted. By tapering the wall surface of), the outer side of the outer / inner grooves 111 and 121 has a smaller width than the inner side, so that once the seal 130 is inserted into the outer / inner grooves 111 and 121, It may be difficult to separate from the outer / inner grooves 111 and 121 again.

When the outer / inner grooves 111 and 121 having the structure described above are formed, the seal 130 may be prevented from being separated from the outer / inner grooves 111 and 121, and thus, between the outer race 110 and the inner race 120. It is possible to prevent the ingress of foreign matter that can penetrate the space, which may cause the failure of the swing bearing 100.

100 ... Slewing Bearing 110 ... Outer Race
111 ... Outer groove 112,122 ... Steel ball groove
113,123 ... Hall 114,124 ... Home
120 Inner Race 121 Inner Groove
125 ... Goal 130 ... Seal
131 mountain 140 steel ball
150 ... glue 160 ... spring pin

Claims (4)

An outer race having an outer groove formed on one side of the inner circumferential surface;
Is disposed in the inner circumferential surface of the outer race, the outer race and the step is formed so that one side enters than one side of the outer race, the other side protrudes than the other side of the outer race, the inner race formed an inner groove along the outer circumferential surface on the outer circumferential surface ;
A plurality of steel balls interposed between the inner circumferential surface of the outer race and the outer circumferential surface of the inner race; And
One side is inserted and coupled to each of the outer groove and the inner groove, and the other side is seated on each of the inner race and the outer race, and the outer groove and the inner groove of the portion inserted into the inner groove are respectively. And a seal in which a plurality of mountains are formed on at least one surface of the outer race and the portion corresponding to the wall surface of the inner race forming the inner race.
And a plurality of spring pins for fixing the seals in the outer / inner grooves, respectively, through the outer / inner races in the portions corresponding to the outer / inner grooves and the seals respectively inserted in the outer / inner grooves. Slewing bearing characterized by the above-mentioned.
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