KR100461933B1 - Hydraulic installation apparatus for spring type cable cleat - Google Patents

Abstract

The present invention relates to a mechanism for compressing and fixing the springs on both sides in a spring crete for holding a cable, and in detail, a hydraulic cylinder for compressing the spring by extending the piston is formed on the upper portion of the spring receiving portion, the piston of the piston Hydraulic clamping device of the spring crete that provides the holding force to the cable by compressing the spring of the crete by the hydraulic pressure and fixing the compressed spring by the pin-hole fastening method. It is about.

Description

Hydraulic installation apparatus for spring type cable cleat}

The present invention is formed in the upper portion of the spring receiving portion for the piston fixed to the piston is inserted into the spring and the spring compression plate of the piston is supported in the upper end of the spring and inserted into the piston fixing hole of the end of the piston It consists of a pin and a crete flow prevention fixture for connecting and supporting the lower part of the side plate of the hydraulic cylinder and the lower crete to extend the piston of the hydraulic cylinder to easily compress the spring and insert the piston fixing pin into the piston fixing hole of the piston. It is related with the hydraulic clamping device of the spring crete to provide and maintain the gripping force on the cable by fixing the compression of the spring.

In order to lay the cables, the springs must be applied to grip the cables. Such a spring crete is configured by connecting and coupling both end portions of the upper crete and both end portions of the lower crete, respectively, and a spring for providing a grip force to the cable is inherent in the spring accommodating portions at both end portions of the spring crete.

Conventionally, the cable is gripped by a constant gripping force by fastening the bolts and nuts by hand to connect the upper and lower cretes, and to compress and fix the springs in the spring housing. Therefore, the compression fixing operation of the spring is very demanding and takes a long time, and the incidence of the fastening of the bolt and nut is high, especially when the thread is damaged during the tightening of the bolt and nut, the bolt and the nut are cut and other There is a problem that needs to be replaced.

An object of the present invention is to extend the piston in the upper portion of the spring housing to compress the spring, a piston fixing pin which is inserted into the piston fixing hole of the end of the piston, and the side plate of the hydraulic cylinder and the lower cleat It is to provide a hydraulic clamping device of the spring crete consisting of a creep flow prevention fixture for connecting the lower portion to easily compress the spring by the hydraulic cylinder and to fix the compressed spring in a pin-hole fastening method.

1 is a structural diagram of a conventional crete

2 is a structural diagram of a hydraulic fastening device of the present invention

Figure 3 is an operation state diagram of the hydraulic fastening device of the present invention

Explanation of symbols on the main parts of the drawings

1: hydraulic cylinder 2: piston

3: spring compression plate 4: piston fixing hole

5: pin for fixing the piston 6: holder

7: seating portion 11: upper cleat

12: lower cleat 13: spring storage

14: spring

Hydraulic clamping device of the spring crete of the present invention is formed in the downward direction from the top of the spring receiving portion 13 so that the piston (2) is inserted into the spring 14 and the spring compression plate (3) of the piston (2) is A hydraulic cylinder 1 supported at the upper end of the spring 14, a piston fixing pin 5 inserted into and fastened to a piston fixing hole 4 formed at an end of the piston 2, and an upper portion of the hydraulic cylinder 1; It is characterized in that it is fixed to the cylinder (1) and the jaw portion of the lower inner side is composed of a crete flow preventing fixture 6 is matched to the lower side of the side plate of the lower crete (12).

With reference to the drawings and embodiments will be described in detail the configuration of the present invention.

1 illustrates a structure of a conventional spring crete and FIG. 2 illustrates a basic structure of a hydraulic fastening device of a spring crete according to the present invention, and FIG. 3 illustrates an operation state of the hydraulic fastening device of a spring crete according to the present invention. It is shown.

A hydraulic cylinder 1 for compressing the spring 14 of the spring accommodating part 13 is formed in the downward direction on the spring accommodating part 13. The hydraulic cylinder 1 has a piston 2 of a constant length is formed, a spring compression plate 3 having a predetermined area is formed to press the spring 14 at a certain point of the piston (2). The piston 2 of the hydraulic cylinder 1 is inserted into the spring 14, and the spring compression plate 3 of the piston 2 allows the spring 14 to be pressed against the spring 14. It is supported at the top. When the upper crete 11 is aligned with the lower crete 12 and the piston 2 of the hydraulic cylinder 1 is extended, the spring 14 is fixed by the spring compression plate 3 of the piston 2. The lower end of the extended piston (2) is exposed to the outside through the hole of the lower portion of the spring receiving portion 13 and the hole of the side plate of the lower crete (12).

A piston fixing hole 4 is formed in the lower end portion of the piston 2 of the hydraulic cylinder 1 in the horizontal direction, and a piston fixing pin 5 having a predetermined length is inserted into the piston fixing hole 4. . The fastened piston fixing pin 5 is supported by the lower side plate of the lower crete 12 so as to support the piston 2. The shaft is stopped and the compressed state of the spring 14 is fixed, and both ends of the upper crete 11 and both ends of the lower crete 12 are fastened, respectively.

Breakaway cut to coincide with the lower part of the piston fixing hole 4 at one point of the piston fixing pin 5 to prevent the piston fixing pin 5 from being separated from the piston fixing hole 4. The preventive seating portion 7 is formed. When the piston fixing pin 5 is inserted into and fastened to the piston fixing hole 4, the seating portion 7 for preventing separation of the piston fixing pin 5 by the elastic force of the spring 14 of the spring receiving portion 13. ) Is seated in the lower part of the piston fixing hole 4, so that the piston fixing pin 5 is completely fixed. Easily seats the release preventing seat 7 of the piston fixing pin 5 in the lower part of the piston fixing hole 4 and the bearing force of the piston fixing pin 5 against the side plate of the lower crete 12. The piston fixing hole 4 and the piston fixing pin 5 are preferably formed in the shape of a rod of a hexahedron so as to increase the diameter.

While the hydraulic cylinder 1 compresses the spring 14 of the spring housing 13 and the piston fixing pin 5 is inserted into the piston fixing hole 4, the upper crete 11 and the lower crete 12 In order to prevent the flow of c), the creat flow preventing stand 6 is formed to support and fix the lower portion of the side plate of the hydraulic cylinder 1 of the upper crete 11 and the lower crete 12. The creat flow preventing fixture 6 has an n-shape that covers the upper crete 11, and an inner upper part is fixed to the upper part of the hydraulic cylinder 1, and a jaw portion formed from the lower side to the inner side side plate of the lower crete 12 It is configured to coincide with the lower portion and to simultaneously support the upper crete 11 and the lower crete 12.

The operation of the present invention will be described in detail with reference to Examples.

The cable is mounted on the lower crete 12 and the upper crete 11 is fitted to the lower crete 12 and the cable to mount the cable, and the lower crete 12 and the upper crete 11 coincide with each other. The piston 2 of the hydraulic cylinder 1 of the upper crete 11 is extended to compress the spring 14 to be compressed to a predetermined length, and at the same time, the piston fixing hole 4 of the piston 2 is external to the crete. Expose A piston fixing pin (5) is inserted into the piston fixing hole (4) of the piston (2) to fasten the piston (2). The shaft is stopped, the compressed state of the spring 14 is fixed, and both ends of the upper crete 11 and both ends of the lower crete 12 are fastened, respectively, so that the cable is gripped with a constant gripping force and laid on the power transmission line.

In the case of dismantling the installed cable, when the piston fixing pin 5 is released from the piston fixing hole 4 of the piston 2, the cable is gripped by the elasticity of the spring 14 of the spring housing 13. The state and the fastening between the upper crete 11 and the lower crete 12 are released as they are so that the cable can be easily taken out of the crete.

Hydraulic clamping device of the spring crete according to the present invention is a hydraulic cylinder for compressing the spring to extend the piston and the piston fixing pin which is inserted and fastened into the piston fixing hole of the piston and the crete flow for connecting and supporting the hydraulic cylinder and the lower crete It is composed of an anti-fixing fixture to easily compress the spring by a hydraulic cylinder in a short time and to fix the compressed spring by pin-hole fastening method to hold the cable, which greatly increases the work efficiency of cable laying and dismantling and the incidence of creep fastening. This effect is greatly reduced.

Claims (2)

In the spring crete formed by fastening the upper crete 11 and the lower crete 12 and compresses the spring 14 on both sides of the crete to grip the cable, It is formed in the downward direction from the upper portion of the spring receiving portion 13 so that the piston (2) is inserted into the spring 14, the spring compression plate 3 of the piston (2) is supported by the upper end of the spring 14 A cylinder 1, a piston fixing pin 5 inserted into and fastened to a piston fixing hole 4 formed at an end of the piston 2, and an upper portion of which is fixed to the hydraulic cylinder 1, Hydraulic clamping device of the spring crete, characterized in that the jaw portion is composed of a crete flow preventing fixture (6) is matched to the lower side of the side plate of the lower crete (12). 2. The hydraulic clamping device of a spring crete as claimed in claim 1, characterized in that the piston fixing pin (5) is provided with a release preventing seat (7) having a shape corresponding to the lower portion of the piston fixing hole (4).