CN112872692A

CN112872692A - Cable testing bridge preparation welding forming frock clamp

Info

Publication number: CN112872692A
Application number: CN202110390692.5A
Authority: CN
Inventors: 徐剑
Original assignee: Individual
Current assignee: Shaanxi Xiecheng Testing Technology Co ltd
Priority date: 2021-04-12
Filing date: 2021-04-12
Publication date: 2021-06-01
Anticipated expiration: 2041-04-12
Also published as: CN112872692B

Abstract

The invention relates to a welding forming tool clamp for manufacturing a cable bridge, which comprises a workbench, a clamping and fixing mechanism, a width adjusting mechanism and an interval adjusting mechanism, wherein the clamping and fixing mechanism is arranged above the workbench, the width adjusting mechanism is arranged on the clamping and fixing mechanism, and the interval adjusting mechanism is arranged on the clamping and fixing mechanism, therefore, bridges with different widths can be adjusted.

Description

Cable testing bridge preparation welding forming frock clamp

Technical Field

The invention relates to the technical field of cable bridges, in particular to a welding forming tool clamp for manufacturing cable bridges.

Background

The cable testing bridge divide into the slot type, tray formula and ladder formula, latticed isotructure, by the support, composition such as trailing arm and installation annex, the bridge can independently erect in the building, also can lay on various building (structure) building and piping lane support, should embody simple structure, handsome in appearance, dispose characteristics such as flexibility and easy maintenance, all parts all need carry out the galvanizing treatment, install the open-air crane span structure outside the building, the crane span structure is by section bar steel welding preparation shaping, nevertheless can appear following problem in cable crane span structure preparation welding shaping frock centre gripping fixed process:

1. in the clamping and fixing process of the traditional welding and forming tool for manufacturing the cable bridge, the distance between the crosspieces in the middle of the bridge is not adjustable, and when the distance between the crosspieces in the middle of the bridge with different distances needs to be welded, the clamping and fixing assembly is repeatedly disassembled, so that the service life of the clamping and fixing assembly is shortened, and the clamping and fixing assembly needs manual operation and disassembly, so that the working efficiency is slow;

2. when the middle crosspieces of the bridges with different distances are adjusted, the clamping and fixing assemblies are usually moved by judgment of staff, and the judgment of the staff is wrong, so that the distances between the middle crosspieces of the bridges which are clamped and fixed are inconsistent.

Disclosure of Invention

Technical scheme (I)

In order to achieve the purpose, the invention adopts the following technical scheme that the welding forming tool clamp for manufacturing the cable bridge comprises a workbench, a clamping and fixing mechanism, a width adjusting mechanism and an interval adjusting mechanism, wherein the clamping and fixing mechanism is arranged above the workbench, the width adjusting mechanism is arranged on the clamping and fixing mechanism, and the interval adjusting mechanism is arranged on the clamping and fixing mechanism.

The clamping and fixing mechanism comprises an L plate, a contraction rod, a support plate, a strip-shaped plate, a round rod, a first L-shaped plate, a sliding groove, a sliding plate, a second L-shaped plate, a moving groove, an electric slider, a moving plate, a first Contraband-shaped plate, an electric telescopic rod, a second Contraband-shaped plate and a pressing plate, wherein the upper end face of the workbench is symmetrically provided with the L plates with opposite openings, the contraction rods are symmetrically arranged between the horizontal sections of the L plates from front to back, the upper end face of the workbench is provided with the four support plates arranged in a matrix manner, the upper end faces of the left support plate and the right support plate are jointly provided with the strip-shaped plate, a plurality of round rods are arranged between the two strip-shaped plates at equal intervals from left to right, the front side and the back side of each round rod are symmetrically sleeved with the first L-shaped plate with the corresponding contraction rod positions and the openings, the lower end face of, sliding plates are arranged in the sliding grooves, the sliding grooves and the sliding plates are of T-shaped structures, a second L-shaped plate with a right opening is fixedly sleeved on each round rod, the second L-shaped plate is located between the two first L-shaped plates, moving grooves are formed in the upper end faces of the horizontal sections of the second L-shaped plate, electric sliding blocks are arranged in the moving grooves, the moving grooves and the electric sliding blocks are of T-shaped structures, moving plates are fixedly mounted on the upper end faces of the electric sliding blocks, a first-type-III-21274with a downward opening is mounted on the upper end face of the workbench, an electric telescopic rod is mounted in the middle of the lower end face of the horizontal section of the first-type-Contraband plate through a first-type machine base, a second-type-III-IV-III-IV, promote No. two Contraband shaped plates and clamp plate through electric telescopic handle and move downwards, the clamp plate downstream extrusion sliding plate slides downwards in the sliding tray for the sliding plate presss from both sides the section bar steel of crane span structure both sides on the L shaped plate horizontal segment tightly fixedly, then puts the crosspiece in the middle of the crane span structure on the horizontal segment of No. two L shaped plates from No. two L shaped plate tops, drives the movable plate through electric slider and moves to the left in the sliding tray, makes the movable plate press from both sides tightly fixedly to the crosspiece in the middle of the crane span structure.

As a preferable technical scheme of the present invention, the width adjusting mechanism includes a T-shaped groove and a T-shaped plate, the T-shaped groove is formed on each of the opposite surfaces of the horizontal sections of the L-shaped plates, the T-shaped plates fixedly connected to the contraction rod are arranged in the T-shaped grooves, and when the required bridge frame has different widths, the T-shaped plates are pushed to slide in the T-shaped grooves, so as to adjust the bridge frames with different widths.

As a preferred technical scheme of the invention, the distance adjusting mechanism comprises a scissor assembly, a first hinge point, a second hinge point, a connecting plate, an electric cylinder, a rectangular groove and a rectangular plate, wherein the scissor assembly is symmetrically arranged on a round rod in a front-back manner, the hinge point of the scissor assembly and the round rod is the first hinge point, the hinge point between the scissor assemblies is the second hinge point, the connecting plate is arranged at the left end and the right end of the scissor assembly, the electric cylinder is arranged on the opposite surface of the vertical section of the L plate through a second stand, the electric cylinder is fixedly connected with the connecting plate, the rectangular groove is arranged on the opposite surface of the strip-shaped plate, the rectangular plate fixedly connected with the round rod is arranged in the rectangular groove, the rectangular groove and the rectangular plate are both in a T-shaped structure, when the distance between the required bridge frame is smaller than the original fixed distance, the electric cylinder pushes the connecting plate and the scissor assembly to approach to, the pole draws close to the centre under the sliding fit of rectangular plate and rectangular channel through a pin joint, make the distance between No. two pin joints of cutting the fork subassembly shorten, the shrink pole shortens in step simultaneously, when the interval of required crane span structure is bigger than former definite interval, withdraw to both sides through electric cylinder pulling connecting plate and cutting the fork subassembly, the pole withdraws to both sides under the sliding fit of rectangular plate and rectangular channel through a pin joint, make the distance between No. two pin joints of cutting the fork subassembly lengthen, the shrink pole is synchronous to lengthen simultaneously, thereby realize adjusting the crosspiece in the middle of the crane span structure of different intervals.

According to a preferable technical scheme of the invention, rubber pads are arranged on opposite surfaces of the horizontal section of the first L-shaped plate and the sliding plate, and when the sliding plate clamps and fastens profile steels on two sides of the bridge frame on the horizontal section of the first L-shaped plate under the driving of the electric telescopic rod, the rubber pads prevent the sliding plate and the horizontal section of the first L-shaped plate from deforming due to excessive force when clamping and fixing the profile steels on two sides of the bridge frame.

As a preferred technical scheme of the invention, threaded holes are formed in the vertical section of the second L-shaped plate and the moving plate, screws are screwed in the threaded holes, and after the moving plate clamps and fixes the crosspiece in the middle of the bridge, the screws are screwed into the threaded holes in a rotating manner, so that the second L-shaped plate and the moving plate more firmly clamp and fix the crosspiece in the middle of the bridge.

As a preferable technical scheme of the invention, the steel ruler is fixedly arranged on the upper end surface of one of the strip-shaped plates and the upper end surface of one of the L-shaped plates, the required distance is adjusted through the scales of the steel ruler on the L-shaped plate when the width of the bridge frame is adjusted, and the required distance is adjusted through the scales of the steel ruler on the strip-shaped plate when the distance of the bridge frame is adjusted, so that the required distance can be accurately adjusted during distance adjustment.

(II) advantageous effects

1. The electric cylinder is adopted to push the scissor assembly to approach to the middle, the round rod approaches to the middle through the first hinged point, so that the distance between the second hinged points of the scissor assembly is shortened, the electric cylinder pulls the scissor assembly to retract to the two sides, the round rod retracts to the two sides through the first hinged point, so that the distance between the second hinged points of the scissor assembly is lengthened, the middle crosspieces of bridges with different intervals are adjusted, and when the required bridge is different in width, the T-shaped plates are pushed to slide in the T-shaped grooves, so that bridges with different widths are adjusted;

2. when adjusting the different width of crane span structure, adjust required distance through the scale of steel chi on the L board, when adjusting the different intervals of crane span structure, adjust required distance through the scale of steel chi on the strip shaped plate, can be accurate when the roll adjustment of being convenient for transfer required distance.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a front cross-sectional view of the present invention;

FIG. 4 is a right side elevation view of the present invention;

FIG. 5 is a top cross-sectional view of the present invention;

FIG. 6 is an enlarged view of a portion of the invention at A in FIG. 2;

FIG. 7 is a schematic diagram of the object of action of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered by the claims.

As shown in fig. 1 to 7, a welding forming tooling fixture for manufacturing a cable bridge comprises a workbench 1, a clamping and fixing mechanism 2, a width adjusting mechanism 3 and an interval adjusting mechanism 4, wherein the clamping and fixing mechanism 2 is arranged above the workbench 1, the width adjusting mechanism 3 is arranged on the clamping and fixing mechanism 2, and the interval adjusting mechanism 4 is arranged on the clamping and fixing mechanism 2.

The clamping and fixing mechanism 2 comprises an L-shaped plate 20, a contraction rod 21, support plates 22, strip-shaped plates 23, round rods 24, a first L-shaped plate 25, a sliding groove 26, a sliding plate 27, a second L-shaped plate 28, a moving groove 29, an electric sliding block 2a, a moving plate 2b, a first V-21274, a shape plate 2c, an electric telescopic rod 2d, a second V-21274and a shape plate 2e and a pressing plate 2f, wherein the upper end surfaces of the workbench 1 are symmetrically provided with the L-shaped plates 20 with opposite openings from left to right, the contraction rods 21 are symmetrically arranged between the horizontal sections of the L-shaped plates 20 from front to back, the upper end surfaces of the workbench 1 are provided with four support plates 22 arranged in a matrix, the strip-shaped plates 23 are jointly arranged on the upper end surfaces of the left support plate 22 and the right support plate 22, a plurality of the round rods 24 are equidistantly arranged from left to right between the two strip-shaped plates 23, the first L-, the lower end face of the first L-shaped plate 25 is fixedly connected with the contraction rod 21, the opposite faces of the vertical sections of the front and rear first L-shaped plates 25 are provided with sliding grooves 26, sliding plates 27 are arranged in the sliding grooves 26, the sliding grooves 26 and the sliding plates 27 are of T-shaped structures, round rods 24 are fixedly sleeved with second L-shaped plates 28 with right openings, the second L-shaped plates 28 are located in the middles of the two first L-shaped plates 25, the upper end faces of the horizontal sections of the second L-shaped plates 28 are provided with moving grooves 29, electric sliding blocks 2a are arranged in the moving grooves 29, the moving grooves 29 and the electric sliding blocks 2a are of T-shaped structures, the upper end faces of the electric sliding blocks 2a are fixedly provided with moving plates 2b, the upper end face of a workbench 1 is provided with a first V-shaped 212742 c with downward openings, the first V-shaped plates 2c and the first V-shaped plates 2c are provided with electric expansion rods 2d through first bases, the electric expansion rods 2d are fixedly provided with downward openings and staggered with second V-shaped 742122 e plates 2 e-shaped plates 2c The second vertical section lower end face of the shaped plate 2e is jointly provided with a pressing plate 2f, profile steels on two sides of the bridge are placed on the horizontal section of the first L-shaped plate 25 from the left end of the workbench 1, the second vertical section lower end face of the shaped plate 2e pushes the second 21274through an electric telescopic rod 2d, the shaped plate 2e and the pressing plate 2f move downwards, the pressing plate 2f moves downwards to extrude the sliding plate 27 to slide downwards in the sliding groove 26, so that the sliding plate 27 clamps and fixes the profile steels on two sides of the bridge on the horizontal section of the first L-shaped plate 25, then a crosspiece in the middle of the bridge is placed on the horizontal section of the second L-shaped plate 28 from the upper side of the second L-shaped plate 28, and the electric sliding block 2a drives the moving plate 2b to move leftwards in the moving groove 29, so that the moving plate 2b clamps and.

Rubber pads 251 are arranged on the opposite surfaces of the horizontal section of the first L-shaped plate 25 and the sliding plate 27, under the driving of the electric telescopic rod 2d, the sliding plate 27 clamps and fastens the section steel on two sides of the bridge on the horizontal section of the first L-shaped plate 25, and the rubber pads 251 prevent the sliding plate 27 and the horizontal section of the first L-shaped plate 25 from being deformed due to excessive force when clamping and fixing the section steel on two sides of the bridge.

No. two vertical sections of L shaped plate 28 and movable plate 2b all set up the screw hole, threaded hole is equal spiro union has screw 281, presss from both sides tight fixed back to the crosspiece in the middle of the crane span structure when movable plate 2b, twists the screw 281 rotation in the screw hole for No. two L shaped plate 28 and movable plate 2b are more firm presss from both sides the crosspiece in the middle of the fixed crane span structure.

One of them the equal fixed mounting of strip 23 up end and one of them L board 20 up end has steel chi 231, when adjusting the different width of crane span structure, adjusts required distance through the scale of steel chi 231 on the L board 20, when adjusting the different interval of crane span structure, adjusts required distance through the scale of steel chi 231 on the strip 23, can be accurate when the roll adjustment and transfer required distance.

Width adjustment mechanism 3 include T-slot 30 and T shaped plate 31, the opposite face of the horizontal segment of L board 20 all seted up T-slot 30, all be provided with in the T-slot 30 with shrink pole 21 fixed connection's T shaped plate 31, when the width of required crane span structure is different, slide in T-slot 30 through promoting T shaped plate 31 to the realization is adjusted the crane span structure of different width.

The distance adjusting mechanism 4 comprises a scissor assembly 40, a first hinge point 41, a second hinge point 42, a connecting plate 43, an electric cylinder 44, a rectangular groove 45 and a rectangular plate 46, wherein the scissor assembly 40 is symmetrically arranged on the round rod 24 in a front-back manner, the hinge point of the scissor assembly 40 and the round rod 24 is the first hinge point 41, the hinge point between the scissor assembly 40 is the second hinge point 42, the connecting plates 43 are respectively arranged at the left end and the right end of the scissor assembly 40, the electric cylinder 44 is arranged on the opposite surface of the vertical section of the L-shaped plate 20 through a second stand, the electric cylinder 44 is fixedly connected with the connecting plate 43, the rectangular groove 45 is respectively arranged on the opposite surface of the strip-shaped plate 23, the rectangular plate 46 fixedly connected with the round rod 24 is respectively arranged in the rectangular groove 45, the rectangular groove 45 and the rectangular plate 46 are both in a T-shaped structure, when the required bridge interval is smaller than the original fixed interval, the electric cylinder 44 pushes the connecting plate 43 and the scissor assembly 40, round bar 24 draws close to the centre under the sliding fit of rectangular plate 46 and rectangular channel 45 through a pin joint 41 for the distance between No. two pin joints 42 of scissors subassembly 40 shortens, shrink pole 21 is synchronous to shorten simultaneously, when the interval of required crane span structure is bigger than former fixed interval, draw connecting plate 43 and scissors subassembly 40 through electric cylinder 44 and withdraw to both sides, round bar 24 withdraws to both sides under the sliding fit of rectangular plate 46 and rectangular channel 45 through a pin joint 41, make the distance between No. two pin joints 42 of scissors subassembly 40 lengthen, shrink pole 21 is synchronous to lengthen simultaneously, thereby the realization is adjusted the crosspiece in the middle of the crane span structure of different intervals.

In the specific working process, firstly, the section steels on two sides of the bridge are placed on the horizontal section of the first L-shaped plate 25 from the left end of the workbench 1, the second L-shaped plate 21274is pushed by the electric telescopic rod 2d, the shape plate 2e and the pressure plate 2f move downwards, the pressure plate 2f moves downwards to extrude the sliding plate 27 to slide downwards in the sliding groove 26, so that the sliding plate 27 clamps and fixes the section steels on two sides of the bridge on the horizontal section of the first L-shaped plate 25, the rubber pad 251 prevents the sliding plate 27 and the horizontal section of the first L-shaped plate 25 from excessively stressing and deforming when clamping and fixing the section steels on two sides of the bridge, then the crosspiece in the middle of the bridge is placed on the horizontal section of the second L-shaped plate 28 from above the second L-shaped plate 28, the movable plate 2b is driven by the electric sliding block 2a to move leftwards in the moving groove 29, so that the crosspiece 2b clamps and fixes the crosspiece in the, the second L-shaped plate 28 and the moving plate 2b can clamp and fix the crosspiece in the middle of the bridge more firmly;

secondly, when the widths of the bridges are different, the T-shaped plates 31 are pushed to slide in the T-shaped grooves 30, and the required distance is adjusted through the scales of the steel ruler 231 on the L-shaped plates 20, so that the required distance can be accurately adjusted during distance adjustment, and the bridges with different widths can be adjusted;

thirdly, when the distance of the required bridge is smaller than the original fixed distance, the electric cylinder 44 pushes the connecting plate 43 and the scissor assembly 40 to approach to the middle, the round rod 24 approaches to the middle under the sliding fit of the rectangular plate 46 and the rectangular groove 45 through the first hinge point 41, so that the distance between the second hinge point 42 of the scissor assembly 40 is shortened, the contraction rod 21 is synchronously shortened, the required distance is adjusted through the scale of the steel ruler 231 on the strip plate 23, the required distance can be accurately adjusted during distance adjustment, when the distance of the required bridge is larger than the original fixed distance, the electric cylinder 44 pulls the connecting plate 43 and the scissor assembly 40 to retract to two sides, the round rod 24 retracts to two sides under the sliding fit of the rectangular plate 46 and the rectangular groove 45 through the first hinge point 41, so that the distance between the second hinge point 42 of the scissor assembly 40 is lengthened, and the contraction rod 21 is synchronously lengthened, required distance is adjusted through the scale of steel chi 231 on the shaped plate 23, can be accurate when being convenient for the roll adjustment transfer required distance to the realization is adjusted the crosspiece in the middle of the crane span structure of different intervals.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a cable testing bridge preparation welding forming frock clamp, includes workstation (1), presss from both sides tight fixed establishment (2), width adjustment mechanism (3) and interval adjustment mechanism (4), its characterized in that: a clamping and fixing mechanism (2) is arranged above the workbench (1), a width adjusting mechanism (3) is arranged on the clamping and fixing mechanism (2), and a spacing adjusting mechanism (4) is arranged on the clamping and fixing mechanism (2);

the clamping and fixing mechanism (2) comprises an L-shaped plate (20), contraction rods (21), support plates (22), strip-shaped plates (23), round rods (24), a first L-shaped plate (25), a sliding groove (26), a sliding plate (27), a second L-shaped plate (28), a moving groove (29), an electric sliding block (2a), a moving plate (2b), a first \ 21274; (2c), an electric telescopic rod (2d), a second Contraband-shaped plate (2e) and a pressing plate (2f), the L-shaped plates (20) with opposite openings are symmetrically arranged on the left and right of the upper end face of the workbench (1), the contraction rods (21) are symmetrically arranged between the horizontal sections of the L-shaped plates (20) from front to back, the four support plates (22) arranged in a matrix manner are arranged on the upper end face of the workbench (1), the strip-shaped plates (23) are jointly arranged on the upper end faces of the left and right support plates (22), and the round rods (24), the front and back of each round rod (24) are symmetrically sleeved with a first L-shaped plate (25) corresponding to the position of the contraction rod (21) and opposite to the opening, the lower end face of the first L-shaped plate (25) is fixedly connected with the contraction rod (21), the opposite faces of the vertical sections of the front and back first L-shaped plates (25) are provided with sliding grooves (26), the sliding grooves (26) and the sliding plates (27) are both of a T-shaped structure, the round rods (24) are fixedly sleeved with second L-shaped plates (28) with right openings, the second L-shaped plates (28) are positioned in the middle of the two first L-shaped plates (25), the upper end faces of the horizontal sections of the second L-shaped plates (28) are both provided with moving grooves (29), the moving grooves (29) and the electric sliding blocks (2a) are both of a T-shaped structure, the upper end faces of the electric sliding blocks (2a) are both fixedly provided with moving plates (2b), the utility model discloses a workstation (1) up end installs one ^ 21274with opening down, shape board (2c), one ^ 21274, electric telescopic handle (2d) is installed through a frame in the middle part of the horizontal segment lower extreme face of shape board (2c), fixed mounting has opening down and with one ^ 21274on electric telescopic handle (2d), two numbers Contraband shaped plates (2e) that shape board (2c) was crisscross, clamp plate (2f) are installed jointly to two vertical section lower extreme faces of two numbers Contraband shaped plates (2 e).

2. The cable bridge manufacturing, welding and forming tool clamp of claim 1, wherein: the width adjusting mechanism (3) comprises a T-shaped groove (30) and a T-shaped plate (31), the opposite surfaces of the horizontal sections of the L-shaped plates (20) are provided with the T-shaped groove (30), and the T-shaped plate (31) fixedly connected with the contraction rod (21) is arranged in the T-shaped groove (30).

3. The cable bridge manufacturing, welding and forming tool clamp of claim 1, wherein: the spacing adjusting mechanism (4) comprises a scissor assembly (40), a first hinge point (41), a second hinge point (42), a connecting plate (43), an electric cylinder (44), a rectangular groove (45) and a rectangular plate (46), the round rod (24) is symmetrically provided with the scissor assembly (40) from front to back, the hinge point of the scissor assembly (40) and the round rod (24) is the first hinge point (41), the hinge point between the scissor assemblies (40) is the second hinge point (42), the connecting plates (43) are respectively arranged at the left end and the right end of the scissor assembly (40), the electric cylinder (44) is arranged on the opposite surface of the vertical section of the L plate (20) through a second machine base, the electric cylinder (44) is fixedly connected with the connecting plate (43), the rectangular groove (45) is arranged on the opposite surface of the strip-shaped plate (23), the rectangular plate (46) fixedly connected with the round rod (24) is arranged in the rectangular groove (45), the rectangular groove (45) and the rectangular plate (46) are both T-shaped structures.

4. The cable bridge manufacturing, welding and forming tool clamp of claim 1, wherein: and rubber pads (251) are arranged on the opposite surfaces of the horizontal section of the first L-shaped plate (25) and the sliding plate (27).

5. The cable bridge manufacturing, welding and forming tool clamp of claim 1, wherein: threaded holes are formed in the vertical section of the second L-shaped plate (28) and the moving plate (2b), and screws (281) are screwed in the threaded holes.

6. The cable bridge manufacturing, welding and forming tool clamp of claim 1, wherein: and a steel ruler (231) is fixedly arranged on the upper end surface of one of the strip-shaped plates (23) and the upper end surface of one of the L-shaped plates (20).