CN215090001U - Cable bridge rolling forming device - Google Patents

Abstract

The utility model discloses a cable testing bridge roll forming device, it relates to cable testing bridge shaping technical field. A drilling cutter is arranged above the bridge frame body; a first limiting column is arranged above the bridge frame body, a second air cylinder is arranged below the bridge frame body, the second air cylinder is connected with a first push block, and the first push block and the first limiting column are arranged correspondingly; a second limiting column is arranged behind the first limiting column, a third air cylinder is arranged on the outer side of the first bending part and connected with a second pushing block, and the second pushing block and the second limiting column are arranged correspondingly; a third limiting column is arranged on one side, away from the first bent part, of the second limiting column, a fourth air cylinder is arranged at the top of the second bent part and connected with a third pushing block, and the third pushing block and the third limiting column are arranged in a position corresponding to each other; the outer side of the first bending part is provided with a drilling knife. The utility model has the advantages that: the processing can be synchronously carried out, the operation is continuous, the processing efficiency is improved, the bending position is accurate, and the processing quality is stable.

Description

Cable bridge rolling forming device

Technical Field

The utility model relates to a cable testing bridge shaping technical field, concretely relates to cable testing bridge roll forming device.

Background

The bridge is an indispensable part in wiring engineering, and the bridge can support cables, protect the cables and is convenient for managing the cables. At present, the production of crane span structure generally adopts traditional manufacturing process to make, adopt plate shearing machine, bender etc, substep machine-shaping, inefficiency, the quality is unstable, need adjust the part during installation, the installation rate is slow, in addition, still can punch on the crane span structure, the heat dissipation when the cable of being convenient for uses, the puncher step of punching needs substep processing again, the process is many, process time is of a specified duration, and the part of buckling is direct bending usually, the angle of buckling has skew easily, the position of buckling is inaccurate, also can cause the quality unstability to lead to the installation trouble.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a cable crane span structure roll forming device, can solve among the prior art cable crane span structure forming processing need substep processing, buckle the partial problem that the position of buckling is inaccurate, processingquality is unstable, machining efficiency is low.

In order to solve the technical problem, the utility model adopts the technical scheme that: roll forming is carried out to the cable crane span structure, and the cable crane span structure includes crane span structure body and kink, kink and integrative setting of crane span structure body, the kink includes first kink, second kink and third kink, first kink is located the both sides of crane span structure body and is set up perpendicularly with the crane span structure body, the second kink is connected perpendicularly respectively with first kink, third kink and second kink, be equipped with perforation, its characterized in that on crane span structure body and the first kink: the bridge frame body is rolled and conveyed through a roller, a first air cylinder is arranged above the bridge frame body, a drilling cutter is connected to the bottom of the output end of the first air cylinder, the bridge frame body is drilled, and the drilling cutter and the roller are arranged in a staggered mode;

a first limiting column is arranged above the bridge frame body, the first limiting column is arranged at an inner right-angle position formed by the bridge frame body and the first bent part, a second air cylinder is arranged below the bridge frame body, the top of the output end of the second air cylinder is connected with a first push block, the first push block is arranged at an outer right-angle position formed by the bridge frame body and the first bent part, and the first push block and the first limiting column are arranged correspondingly;

a second limiting column is arranged behind the first limiting column, the second limiting column is arranged at an inner right-angle position formed by the first bending part and the second bending part, a third air cylinder is arranged on the outer side of the first bending part, the output end of the third air cylinder is connected with a second push block, the second push block is arranged at an outer right-angle position formed by the first bending part and the second bending part, and the second push block and the second limiting column are arranged correspondingly;

a third limiting column is arranged on one side, away from the first bent part, of the second limiting column, the third limiting column is arranged at an inner right-angle position formed by the second bent part and the third bent part, a fourth air cylinder is arranged at the top of the second bent part, the output end of the fourth air cylinder is connected with a third pushing block, the third pushing block is arranged at an outer right-angle position formed by the second bent part and the third bent part, and the third pushing block and the third limiting column are arranged correspondingly;

the outside of first kink is equipped with the fifth cylinder, the output of fifth cylinder is connected with the drilling sword, drills to first kink.

Furthermore, a plurality of pairs of rolling rollers are arranged at intervals, and the rolling rollers rotate to drive the bridge frame body to move.

Further, first cylinder is equipped with the several, and the first cylinder of several distributes along the width direction of crane span structure body in proper order, second cylinder, third cylinder and fourth cylinder are equipped with the several respectively, and several second cylinder, third cylinder, fourth cylinder distribute along the length direction of crane span structure body respectively, the fifth cylinder is equipped with the several, and the several fifth cylinder distributes along the direction of height of first kink, and several first cylinder, second cylinder, third cylinder, fourth cylinder, fifth cylinder are respectively through the mounting bracket installation.

After adopting the structure, the utility model has the advantages that: when the bridge is rolled and formed, the bridge is conveyed through a roller, the first cylinder drives the drilling cutter to drill the bridge body, the second cylinder drives the first push block to bend the first bent part of the bridge body, the first limiting column is arranged at an inner right angle formed by the bridge body and the first bent part, the specific bending position of the first bent part is limited, the bending angle is not inclined, the bending position is accurate, and the bending of the first bent part and the drilling of the bridge body can be processed simultaneously;

the third cylinder drives the second push block to bend the second bent part, the second limiting column is arranged at an inner right-angle position formed by the first bent part and the second bent part, the specific bending position of the second bent part is limited, the bending position is accurate, meanwhile, the fifth cylinder drives the drilling knife to drill the first bent part, and the drilling of the first bent part and the bending of the second bent part can be simultaneously carried out;

the first bending part is bent and then bent, the second bending part is bent and then drives the third push block to bend the third bending part through the fourth air cylinder, operation is continuous, machining efficiency is improved, the third limiting column is arranged at an inner right-angle position formed by the second bending part and the third bending part, the specific position of the third bending part in bending is limited, the bending position is accurate, machining quality is stable, and installation is more convenient.

Drawings

Fig. 1 is a schematic structural view of a cable tray according to the present invention;

fig. 2 is a schematic structural view of the punching of the bridge frame and the bending portion of the first bending portion of the present invention;

fig. 3 is a schematic structural view of the first bending portion, the second bending portion, and the third bending portion of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and the following detailed description. The following examples are presented to enable those skilled in the art to more fully understand the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1, the cable bridge includes a bridge body 10 and a bending portion, the bending portion and the bridge body 10 are integrally disposed, the bending portion includes a first bending portion 11, a second bending portion 12 and a third bending portion 13, the first bending portion 11 is disposed on two sides of the bridge body 10 and perpendicular to the bridge body 10, the second bending portion 12 and the first bending portion 11, the third bending portion 13 and the second bending portion 12 are respectively and perpendicularly connected, and the bridge body 10 and the first bending portion 11 are provided with a through hole 20.

As shown in fig. 2, the bridge body 10 is rolled and conveyed by a roller 1, a first cylinder 2 is arranged above the bridge body 10, a drilling knife 3 is connected to the bottom of the output end of the first cylinder 2, the bridge body 10 is drilled, the drilling knife 3 and the roller 1 are staggered, a plurality of pairs of rollers 1 are arranged at intervals, the roller 1 rotates to drive the bridge body 10 to move, the first cylinders 2 are provided with a plurality of first cylinders 2, the plurality of first cylinders 2 are distributed along the width direction of the bridge body 10 in sequence, and the plurality of drilling knives 3 can be driven by the plurality of first cylinders 2 to drill a plurality of holes on the bridge body 10.

The bridge frame comprises a bridge frame body 10, a first limiting column 4 is arranged above the bridge frame body 10, the first limiting column 4 is arranged at an inner right angle formed by the bridge frame body 10 and a first bent part 11, a second cylinder 5 is arranged below the bridge frame body 10, the top of the output end of the second cylinder 5 is connected with a first push block 15, the first push block 15 is arranged at an outer right angle formed by the bridge frame body 10 and the first bent part 11, the first push block 15 is arranged corresponding to the first limiting column 4, the second cylinder 5 is provided with a plurality of second cylinders 5, the plurality of second cylinders 5 are distributed along the length direction of the bridge frame body 10, the second cylinder 5 drives the first push block 15 to bend the first bent part 11 on the bridge frame body 10, the first bent part 11 is bent on two sides of the bridge frame body 10, the first limiting column 4 limits the specific position of the first bent part 11, the bent angle is not inclined, the bent position is accurate, the bending of the first bent part 11 and the drilling of the first bent part 10 can be processed simultaneously, the processing efficiency is improved.

As shown in fig. 3, a second position-limiting post 6 is disposed at the rear upper portion of the first position-limiting post 4, the second position-limiting post 6 is disposed at an inner right angle formed by the first bending portion 11 and the second bending portion 12, a third cylinder 7 is disposed at the outer side of the first bending portion 11, an output end of the third cylinder 7 is connected to a second push block 16, the second push block 16 is disposed at an outer right angle formed by the first bending portion 11 and the second bending portion 12, the second push block 16 is disposed corresponding to the second position-limiting post 6, the third cylinder 7 is provided with a plurality of third cylinders 7, the plurality of third cylinders 7 are distributed along the length direction of the bridge body 10, the second push block 16 is driven by the third cylinder 7 to bend the second bending portion 12, the top portion of the first bending portion 11 is bent toward one side of the bridge body 10, the second position-limiting post 6 limits the specific bending position of the second bending portion 12, and the bending position is accurate, the outside of first kink 11 is equipped with fifth cylinder 14, the output of fifth cylinder 14 is connected with drilling sword 3, drill first kink 11, fifth cylinder 14 is equipped with the several, the several fifth cylinder 14 distributes along the direction of height of first kink 11, fifth cylinder 14 drives drilling sword 3 and punches to first kink 11 when second kink 12 is buckled, the punching of first kink 11 and the buckling of second kink 12 can go on simultaneously, efficiency improves.

A third limiting column 8 is arranged on one side of the second limiting column 6 far away from the first bent part 11, the third limiting column 8 is arranged at an inner right angle formed by a second bent part 12 and a third bent part 13, a fourth cylinder 9 is arranged at the top of the second bent part 12, the output end of the fourth cylinder 9 is connected with a third push block 17, the third push block 17 is arranged at an outer right angle formed by the second bent part 12 and the third bent part 13, the third push block 17 and the third limiting column 8 are correspondingly arranged, the fourth cylinders 9 are provided with a plurality of, the fourth cylinders 9 are respectively distributed along the length direction of the bridge frame body 10, the third push block 17 is driven by the fourth cylinder 9 to bend the third bent part 13, the side edge of the second bent part 12 is bent downwards by the third bent part 13, the third limiting column 8 limits the specific bending position of the third bent part 13, the bending position is accurate, the processing quality is stable, the installation is more convenient, when buckling to second kink 12, third ejector pad 17 can upwards remove the certain distance under the effect of fourth cylinder 9 for third ejector pad 17 can not form the obstacle to second kink 12, carry out the buckling of second kink 12 after first kink 11 buckles, carry out the buckling of third kink 13 after second kink 12 buckles, operate continuously, machining efficiency improves, the first cylinder 2 of several, second cylinder 5, third cylinder 7, fourth cylinder 9, fifth cylinder 14 is installed through the mounting bracket respectively.

The working principle is as follows: when the bridge is rolled and formed, the bridge is conveyed by a roller 1, the drilling cutter 3 is driven by the first cylinder 2 to drill the bridge body 10, the second cylinder 5 drives the first push block 15 to bend the first bent part 11 of the bridge body 10, the bending of the first bent part 11 and the drilling of the bridge body 10 can be processed simultaneously, the second push block 16 is driven by the third cylinder 7 to bend the second bent part 12, the drilling cutter 3 is driven by the fifth cylinder 14 to drill the first bent part 11, the punching of the first bent part 11 and the bending of the second bent part 12 can be performed simultaneously, step-by-step operation is not needed, the bending of the second bent part 12 is performed after the bending of the first bent part 11, the bending of the third bent part 13 is performed after the bending of the second bent part 12, the operation is continuous, the processing efficiency is improved, the first limit column 4 is arranged at an inner right angle formed by the bridge body 10 and the first bent part 11, the inner right angle that first kink 11 and second kink 12 formed is located to spacing post 6 of second, the inner right angle that second kink 12 and third kink 13 formed is located to spacing post 8 of third, first spacing post 4, the spacing post 6 of second, the spacing post 8 of third is respectively to first kink 11, second kink 12, the concrete position that third kink 13 buckled carries on spacingly, the angle of buckling does not have crooked, the position of buckling is accurate, the processingquality is stable, the machine-shaping effect of cable crane span structure is better, it is more convenient to install.

When the bridge is formed by rolling, the conveying is carried out through the rolling roller, the bending of the first bending part and the drilling of the bridge body can be processed simultaneously, the punching of the first bending part and the bending of the second bending part can be carried out simultaneously, step-by-step operation is not needed, the bending of the first bending part, the bending of the second bending part and the bending of the third bending part are continuous, the processing efficiency is improved, the limiting column can limit the specific bending position, the bending position is accurate, the processing quality is stable, and the processing and forming effect of the cable bridge is better.

The basic principles and main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (3)

1. The utility model provides a cable testing bridge roll forming device carries out roll forming to the cable testing bridge, and the cable testing bridge includes crane span structure body and kink, the kink sets up with crane span structure body an organic whole, the kink includes first kink, second kink and third kink, first kink is located the both sides of crane span structure body and is set up perpendicularly with the crane span structure body, the second kink is connected perpendicularly respectively with first kink, third kink and second kink, be equipped with perforation on crane span structure body and the first kink, its characterized in that: the bridge frame body is rolled and conveyed through a roller, a first air cylinder is arranged above the bridge frame body, a drilling cutter is connected to the bottom of the output end of the first air cylinder, the bridge frame body is drilled, and the drilling cutter and the roller are arranged in a staggered mode;

a first limiting column is arranged above the bridge frame body, the first limiting column is arranged at an inner right-angle position formed by the bridge frame body and the first bent part, a second air cylinder is arranged below the bridge frame body, the top of the output end of the second air cylinder is connected with a first push block, the first push block is arranged at an outer right-angle position formed by the bridge frame body and the first bent part, and the first push block and the first limiting column are arranged correspondingly;

a second limiting column is arranged behind the first limiting column, the second limiting column is arranged at an inner right-angle position formed by the first bending part and the second bending part, a third air cylinder is arranged on the outer side of the first bending part, the output end of the third air cylinder is connected with a second push block, the second push block is arranged at an outer right-angle position formed by the first bending part and the second bending part, and the second push block and the second limiting column are arranged correspondingly;

a third limiting column is arranged on one side, away from the first bent part, of the second limiting column, the third limiting column is arranged at an inner right-angle position formed by the second bent part and the third bent part, a fourth air cylinder is arranged at the top of the second bent part, the output end of the fourth air cylinder is connected with a third pushing block, the third pushing block is arranged at an outer right-angle position formed by the second bent part and the third bent part, and the third pushing block and the third limiting column are arranged correspondingly;

the outside of first kink is equipped with the fifth cylinder, the output of fifth cylinder is connected with the drilling sword, drills to first kink.

2. A cable tray roll forming apparatus as claimed in claim 1, wherein: the roller rolls are provided with a plurality of pairs at intervals and rotate to drive the bridge frame body to move.

3. A cable tray roll forming apparatus as claimed in claim 1, wherein: the first cylinder is equipped with the several, and the first cylinder of several distributes along the width direction of crane span structure body in proper order, second cylinder, third cylinder and fourth cylinder are equipped with the several respectively, and several second cylinder, third cylinder, fourth cylinder distribute along the length direction of crane span structure body respectively, the fifth cylinder is equipped with the several, and the several fifth cylinder distributes along the direction of height of first kink, and the first cylinder of several, second cylinder, third cylinder, fourth cylinder, fifth cylinder are installed through the mounting bracket respectively.

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