KR20180041653A - Device for guiding a piston for reciprocationg in the cylinder - Google Patents

Abstract

The present invention relates to a supporting member for an apparatus for guiding an operating rod of an excavator cylinder. A technical point of the present invention is characterized in which a guide bar which cooperates in the horizontal direction when the cylinder is pulled out in the forward and backward directions of an operating rod is rigid so as to be slid. Therefore, the present invention can prevent the operating rod of the cylinder from being bent by external force.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a support member for an operation rod guide device of an excavator cylinder,

The present invention relates to an excavator cylinder which is configured to slide while supporting a guide bar interlocking in the horizontal direction when the cylinder is withdrawn in the forward and backward directions of the operating rod so as to be able to prevent the operating rod of the cylinder from being bent by external force And a support member for an operation rod guide device.

In general, excavators are used in steel, civil engineering, construction, and construction sites to transport steel or steel, etc., or to excavate the ground, to carry soil, to dismantle the building, to dismantle the ground, It is divided into crawler crawler type and tire type wheel excavator according to the driving method of the traveling body.

Therefore, the crawler excavator is widely used in various work sites from 1 ton to 100 tons of equipment because it is stable and work productivity compared with wheel excavator, and wheel excavator is different from crawler excavator It is possible to move the workplace without trailer and it is used mainly in the work site where work and movement are frequently required.

On the other hand, the excavator is composed of a traveling body which largely moves, an upper revolving body which is mounted on the traveling body, and a working device. Appropriate working devices are installed according to the state of the soil and rock, Such as buckets for excavation and earth moving, hard ground, breakers for crushing rocks, and crushers used for demolition and crushing of buildings.

The upper revolving body of the excavator is connected to the cab in the left and right directions, and the boom and the arm are connected to the front of the cab in a link type so that the up and down movement is performed according to the driving of the cylinder. After the boom, the arm and the working device (bucket) are moved in the desired position, the bucket is filled with the soil, and then the cab is rotated so that the soil contained in the bucket can be transported to another place or carried in the loading box of the truck .

However, when the cylinder is driven, the working rod of the cylinder is buckled as the load of the soil contained in the bucket, the load applied in the course of joint motion for containing the soil into the bucket is repeatedly applied to the working rod of the cylinder There is a structural problem such as fatigue breakage.

In addition, when the working rod of the cylinder is broken during the above-described operation, the force of supporting the bucket is removed, and a safety accident such as dropping of the soil contained in the bucket to the worker working in the vicinity is caused.

Korean Registered Patent No. 10-1355067 (Registered on April 1, 2014)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is a technical object of the present invention to provide a sliding device for a sliding device which firmly supports a guide bar interlocked in a horizontal direction at the time of withdrawal of a cylinder from an operating rod, And an object of the present invention is to provide a support member for an operation rod guide device of an excavator cylinder.

In order to achieve the above object, the excavator support member 100 of the present invention is constructed such that the support member body is fixedly installed by bolts passing through the rod groove entrance / exit end of the cylinder body 41, And the guide bar 300 is inserted into the other end of the support member body and inserted into the insertion hole 100a. The insertion hole 100a is formed in the other end of the support member body, The insertion hole 100a is provided with a friction preventing means for reducing frictional resistance with respect to the guide bar 300. As shown in FIG.

As described above, according to the present invention, when the arm coupled in the form of a link is moved up and down according to the forward and backward movement of the cylinder, the load applied to the operation rod of the cylinder is dispersed by guiding and supporting the operation rod of the cylinder within the movement range There is an effect that the working rod of the cylinder can be prevented from buckling.

Further, according to the present invention, as the load of the soil contained in the bucket when the cylinder is driven, the load applied in the course of performing the joint motion for containing the soil into the bucket is repeatedly applied to the working rod of the cylinder, It is possible to prevent a secondary safety accident due to the breakage.

In addition, since the size and the volume of the cover are smaller than those of a conventional cover for protecting the cylinder of the excavator from external foreign matter, there is an effect that the working device of the excavator can be prevented from overlapping with peripheral facilities during joint exercise.

1 is a structural view showing a general excavator.
2 is a side view showing a supporting member for an operating rod guide device of an excavator cylinder according to an embodiment of the present invention.
3 is a view showing a supporting member of a supporting member for an operating rod guide device of an excavator cylinder according to an embodiment of the present invention in the direction of AA 'in Fig.
4 is a view showing a fixing member of a supporting member for an operating rod guide device of an excavator cylinder according to an embodiment of the present invention in the direction of BB 'in Fig.
5 is an operational state view showing an operation state of a support member for an operation rod guide device of an excavator cylinder according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the accompanying drawings.

First, FIG. 1 is a structural view showing a general excavator. The excavator is composed of a front attachment, an upper rotatable body, and an undercarriage.

The working device is composed of a boom 10, an arm 20, a bucket 30, etc., and is operated by a plurality of cylinders 40.

The upper rotating body is installed on the frame of the lower traveling body, and is coupled to the swing ball race on the frame, and a boom is provided on the front side.

At this time, an engine, a hydraulic pump, a cockpit, a swing device, a hydraulic oil tank and a control valve are installed on the frame, and the lower part is connected to a swing ball race, and the engine → hydraulic pump → control valve → swing brake valve → swing motor → the swing reduction gear → the swing pinion → the swing ring gear → the upper revolving sequence, so that the upper revolving unit is turned.

Particularly, the present invention is a device for guiding and supporting a cylinder 40 for operating a work device composed of a boom 10, an arm 20, a bucket 30, etc., and will be described below.

2 to 4, the support member 100 of the present invention is configured such that the operating rod 42 of the cylinder is buckled by a load applied to the operating rod 42 of the cylinder 40 And is formed to ensure longitudinal sliding and rigid support of the guide bar 300 fixed to the fixing member 200. In addition,

That is, in the excavator support member 100 of the present invention, the support member body is fixedly installed by the bolts passing through the rod groove entrance / exit end of the cylinder body 41, And the insertion hole 100a is formed at the other end of the support member body so that the guide bar 300 is inserted and then slid in the longitudinal direction And the insertion hole 100a is provided with a friction preventing means to reduce frictional resistance with respect to the guide bar 300. [

The cylinder 40 has a cylindrical shape as a whole, and has a cylinder body 41 having a rod groove recessed inwardly at one side thereof. The cylinder body 41 is fixedly installed in a rod groove formed in the cylinder body 41, And an operating rod 42 which is pulled forward in a state of being drawn into the groove.

At this time, the support member 100 is fixed to a part of the edge of the surface of the cylinder body 41 on which the rod groove is formed.

Preferably, the support member 100 has a rounded shape inwardly in correspondence with a part of the edge of the surface of the cylinder body 41 on which the rod groove is formed.

At this time, the surface of the cylinder body 41 which is recessed inwardly of the support member 100 is fixed by a plurality of bolts while being in contact with a part of the edge of the surface of the cylinder body 41 on which the rod groove is formed.

The support member 100 is formed with an insertion hole 100a having a circumference larger than the circumference of the guide bar so that the guide bar 300 can pass therethrough.

In particular, the guide bar 300 interlocked with the operation rod 42 of the cylinder 40 is moved to a predetermined position, that is, the operation rod 42 of the cylinder 40, The guide bar 300 is disposed at a position in parallel with the guide bar 300 and supports a weight of the guide bar 300 and a load applied to the guide bar 300, A friction preventing means such as a roller is provided.

The friction preventing means is provided to reduce frictional resistance with the guide bar 300 inserted into the insertion hole 100a.

The end of the cylinder 40 is fixed to the arm 20 of the working device so that the arm 20 is rotated upwardly and downwardly in conjunction with the forward and backward movement of the operating rod 42 A fixing member 200 is formed on the outer side of the fixture 50 to which the end of the operation rod 42 is fixed.

At this time, the fixing member 200 has a plate shape and is formed at a position facing the support member 100 and extending to the outside of the fixing body 50.

Particularly, in the fixing member 200, an insertion groove 200a, which is recessed inward, is formed in an area opposed to the insertion hole 100a formed in the support member 100, and one end of the guide bar 300 Inserted into the insertion groove 200a, and fixed by a plurality of bolts.

Further, as shown in FIG. 5, the guide bar 300 has a long bar shape and has a circumference corresponding to the circumference of the insertion groove 200a.

Particularly, the guide bar 300 is inserted into an insertion groove 200a formed at one end of the fixing member 200 and fixed by a plurality of bolts. At this time, the other end of the guide bar 300 is supported by the support Is disposed parallel to the operating rod (42) of the cylinder (40) through the insertion hole (100a) formed in the member (100).

The guide bar 300 interlocks with the forward and backward movement of the operation rod 42 and moves forward and backward while maintaining a state parallel to the operation rod 42 of the cylinder 40. In particular, When the operating rod 42 of the cylinder 40 is advanced to a maximum value, the other end of the guide bar 300 is moved in the direction of the guide bar 300 so that the other end of the guide bar 300 is not separated from the insertion hole 100a formed in the support member 100. [ Preferably, the length is longer than the length of the actuating rod 42.

3, the support member 100 of the present invention has a fully contact structure (a retaining jaw contact structure with a retainer) and a least two direction stress dispersive corner ) So as to prevent buckling of the operation rod remarkably.

That is, the support member 100 of the present invention is configured such that the body is fixed to the cylinder main body 41, and the support member 100 corresponds to a part of the edge of the surface of the cylinder body 41 on which the rod groove is formed, A concave round shape is formed.

In other words, the present invention is formed in two places, each having a stepped concave round shape in close contact with the outer circumferential surface of the cylinder body 41 and the rod groove from which the operating rod 42 is drawn, When the operating rod is bent in response to the stepped surface of the main body, three supporting surfaces are formed.

The present invention emphasizes that the contact surface of the support member 100 is formed in a stepped shape, and is tightly coupled by the step between the rod groove and the cylinder main body, so that the support rod 100 is formed to provide a strong bearing force when the operation rod is deflected in the horizontal direction.

In the present invention, the support member 100 is formed as a memory or a step-like shape, and is formed so that stress can be dispersed simultaneously in the horizontal direction and the vertical direction around the corner corner portion when the buckling (bending phenomenon) of the operation rod occurs.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

10: Boom 20: Cancer
30: bucket 40: cylinder
41: cylinder body 42: operating rod
50:
100: Support member 100a: Insertion hole
200: fixing member 200a: insertion groove
300: Guide Bar

Claims (1)

A supporting member (100) for an operating rod guide device of an excavator cylinder,
One end of the support member body corresponds to a part of the edge of the surface of the cylinder body 41 on which the rod groove is formed while the other end of the support member body is connected to the rod body And the insertion hole 100a is formed at the other end of the support member body so as to slide in the longitudinal direction after the guide bar 300 is inserted. The insertion hole 100a is formed at the inner side And a frictional preventing means is provided to reduce frictional resistance with respect to the guide bar (300).

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