CN110860847A

CN110860847A - H-shaped steel assembling machine

Info

Publication number: CN110860847A
Application number: CN201911192073.4A
Authority: CN
Inventors: 刘红军; 徐红军; 刘京鑫
Original assignee: ZHENGYI GROUP Co Ltd
Current assignee: ZHENGYI GROUP Co Ltd
Priority date: 2019-11-28
Filing date: 2019-11-28
Publication date: 2020-03-06

Abstract

The invention discloses an H-shaped steel assembling machine, relates to the technical field of section steel production equipment, and is mainly used for solving the problems of low splicing efficiency, poor quality and high production cost of the existing section steel. The main structure is as follows: the conveying device comprises a rack, wherein a plurality of conveying rollers are sequentially arranged on the rack, a transmission chain is arranged at one end of each conveying roller, a web supporting beam is arranged between every two adjacent conveying rollers, and a fixed supporting oil cylinder is arranged in the middle of each web supporting beam; mounting beams are further arranged below two sides of the conveying roller, and a plate turnover device capable of turning over towards the middle of the conveying roller is hinged to the mounting beams; the discharge end of the rack is provided with a machine head frame, and the machine head frame is provided with a vertical pressing mechanism and a horizontal guiding mechanism. The H-shaped steel assembling machine provided by the invention can automatically splice the web plate and the flange plate, improves the production efficiency and quality, and reduces the production cost.

Description

H-shaped steel assembling machine

Technical Field

The invention relates to the technical field of profile steel production equipment, in particular to an H-shaped steel assembling machine.

Background

The H-shaped steel is an economic section efficient section with more optimized section area distribution and more reasonable strength-to-weight ratio, and is named because the section is the same as the English letter H. The production of modern H-section steel generally requires two steps, spot welding and full welding. The spot welding refers to the primary fixing of one web plate and two wing plates in a spot welding mode. In order to complete the spot welding of the H-shaped steel, the H-shaped steel needs to be pre-assembled during spot welding.

At present, the pre-assembled steel is mainly positioned and spot-welded through a manual matching travelling crane, namely, a flange plate needs to be turned over and a web plate needs to be lifted when spot welding is carried out, and a rudiment of H-shaped steel is formed. However, since the steel plate is extremely large in length and weight, it is particularly difficult to turn over and lift the steel plate. The auxiliary operation is carried out by adopting the travelling crane, so that the working efficiency is low, the safety is poor, and accidents are easy to happen.

Meanwhile, the web plates and the flange plates are placed by adopting a manually matched travelling crane, and the positioning is mainly realized through human eyes. Therefore, there are problems of coarse positioning, poor uniformity, and the like. Meanwhile, as the manual matching of the travelling crane production is adopted, the whole production process can occupy more labor resources, and further the production cost is increased.

Therefore, there is an urgent need for an H-section assembling machine that can solve the above-mentioned drawbacks.

Disclosure of Invention

The invention aims to provide an H-shaped steel assembling machine which can automatically splice a web plate and a flange plate, improve the production efficiency, the safety coefficient and the product quality and reduce the production cost.

In order to achieve the purpose, the invention provides an H-shaped steel assembling machine which comprises a rack, wherein a plurality of mutually parallel conveying rollers are sequentially arranged on the rack, a transmission chain is arranged at one end of each conveying roller, a web plate supporting beam parallel to each conveying roller is arranged between every two adjacent conveying rollers, and a fixed supporting oil cylinder for jacking a web plate is arranged in the middle of each web plate supporting beam; the lower parts of two sides of the conveying roller are also provided with mounting beams along the conveying direction, and a plurality of plate turnover devices which are positioned between adjacent conveying rollers and can turn over towards the middle part of the conveying roller are sequentially hinged on the mounting beams; the machine head frame is arranged at the discharge end of the machine frame, and a vertical pressing mechanism for pressing the web plate and a horizontal guide mechanism for propping the flange plates at two sides are arranged on the machine head frame.

As a further improvement of the invention, the middle part of the web support beam is also provided with a movable support oil cylinder which can move along the web support beam.

As a further improvement of the invention, a web positioning beam which is sequentially connected with each movable supporting oil cylinder is arranged below the conveying roller along the conveying direction, and a positioning beam walking screw which is in threaded fit connection with the web positioning beam and is parallel to the conveying roller is arranged on the rack.

As a further improvement of the invention, one end of the positioning beam walking screw is provided with a positioning beam walking motor for driving the positioning beam walking screw to axially rotate.

As a further improvement of the invention, the plate turnover device comprises a flange plate transmission roller which is parallel to the conveying roller and can axially rotate, one end of the flange plate transmission roller is connected with the mounting beam through a hinge part, and the lower part of the flange plate transmission roller is provided with a jacking oil cylinder.

As a further improvement of the invention, the rack is provided with a mounting beam walking screw which is in threaded fit connection with the mounting beam and is parallel to the conveying roller.

As a further improvement of the invention, one end of the mounting beam walking screw is provided with a mounting beam walking motor for driving the mounting beam walking screw to axially rotate.

As a further improvement of the invention, the vertical pressing mechanism comprises a pressing oil cylinder, a guide wheel rotating along the conveying direction is connected below the pressing oil cylinder, and a driving motor for driving the guide wheel to rotate is arranged on one side of the guide wheel.

As a further improvement of the invention, the horizontal guide mechanism comprises a slide rail parallel to the conveying roller and clamping seats which are arranged at two ends of the slide rail and can move on the slide rail, and telescopic oil cylinders with two ends respectively connected with the two clamping seats are arranged at the lower parts of the two clamping seats.

As a further improvement of the invention, the opposite surfaces of the two clamping seats are respectively provided with a guide roller which is vertically arranged and can axially rotate, and the upper end of the guide roller is provided with a driven wheel which synchronously rotates with the guide roller; the clamping seat is further provided with a guide motor, and the power output end of the guide motor is in transmission connection with the driven wheel.

Advantageous effects

Compared with the prior art, the H-shaped steel assembling machine has the advantages that:

1. when the assembling machine is used, the fixed supporting oil cylinder jacks up a web plate placed in the middle of the conveying roller and lifts the web plate away from the conveying roller. The plate turnover device then turns the flange plates placed on both sides of the conveying roller towards the web. Through the mode, the flange plate is turned and the web plate is lifted during spot welding to form a prototype of the H-shaped steel, and the turning, lifting and splicing work of all components of the H-shaped steel is completed. Meanwhile, the machine head frame can extrude and fix the web plate and the flange plate of the H-shaped steel, and guide and convey the H-shaped steel. Through the structural cooperation of the series of structures, the assembling machine can automatically splice the web plate and the flange plate, and the production efficiency of the H-shaped steel is greatly improved. Moreover, the assembling machine can be used without manual intervention, so that the safety factor in the production process is improved, and the production cost is reduced. In addition, because the work of overturning, lifting and splicing all components of the H-shaped steel is automatically completed by a mechanical device, compared with the positioning by human eyes, the splicing precision is higher, and the product quality is ensured.

2. And a movable supporting oil cylinder capable of moving along the web supporting beam is also arranged in the middle of the web supporting beam. The position of the movable supporting oil cylinder can be adjusted according to the actual size of the web plate. Therefore, through the cooperation of the movable supporting oil cylinder and the fixed supporting oil cylinder, the assembling machine can stably jack up webs with various sizes, and the webs are ensured to be stably placed in the splicing process.

3. And web positioning beams sequentially connected with the movable supporting oil cylinders are further arranged below the conveying rollers along the conveying direction, and positioning beam walking screws which are connected with the web positioning beams in a threaded fit manner and are parallel to the conveying rollers are arranged on the rack. Through the rotation of locating beam walking screw rod, can accurate adjustment web location roof beam's position, and then accurate adjustment removes the position of support cylinder, makes the web of various sizes of jack-up that the assemblage machine can be stable, guarantees that the web places stably at the concatenation in-process.

4. The plate turnover device comprises a flange plate transmission roller which is parallel to the conveying roller and can axially rotate. One end of the flange plate transfer roller is connected to the mounting beam through a hinge. And the lower part of the flange plate transmission roller is provided with a jacking oil cylinder. Through the jacking oil cylinder, the flange plate conveying roller can be turned towards the web plate side, and the purpose of turning the flange plate is achieved. In the whole overturning process, the flange plate can be stably placed on the flange plate conveying roller, the splicing accuracy is ensured, and the product production quality is further ensured.

5. And the rack is provided with an installation beam walking screw which is in threaded fit connection with the installation beam and is parallel to the conveying roller. Through the rotation of installation roof beam walking screw rod, can accurate adjustment installation roof beam's position, and then accurate adjustment turns over the relative position of board ware, makes flange board can be with the accurate concatenation combination of web.

6. The lower part of the pressing oil cylinder is connected with a guide wheel which rotates along the conveying direction, and one side of the guide wheel is provided with a driving motor for driving the guide wheel to rotate. The guide wheel can cooperate the fixed web of support cylinder to prevent it from removing at will. Meanwhile, the rotation of the guide wheel can also guide the H-shaped steel to leave from the output end of the assembling machine.

7. The horizontal guide mechanism comprises a sliding rail parallel to the conveying roller and clamping seats which are arranged at two ends of the sliding rail and can move on the sliding rail, and telescopic oil cylinders with two ends respectively connected with the two clamping seats are arranged at the lower parts of the two clamping seats. The clamping seat can fix and clamp the flange plate and prevent the flange plate from moving randomly.

8. All be equipped with vertical setting and ability axial pivoted guide roller on the opposite face of two clamp holders. The rotation of the guide roller can guide the H-shaped steel to leave from the output end of the assembling machine.

The invention will become more apparent from the following description when taken in conjunction with the accompanying drawings, which illustrate embodiments of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a partial top view of the feed side of the frame;

FIG. 4 is a partial block diagram of the head frame side;

fig. 5 is a perspective view of the plate turnover device of the present invention.

Wherein: 1-a frame; 11-a conveyor roll; 12-a drive chain; 2-web support beams; 21-fixing a support oil cylinder; 22-moving the supporting cylinder; 23-web positioning beams; 24-positioning beam walking motor; 241-positioning beam walking screw; 3, mounting a beam; 31-a plate turnover device; 311-flange plate transfer rollers; 312-jack up the cylinder; 32-a hinge; 33-positioning beam walking motor; 331-mounting a beam walking screw; 4-a head frame; 41-vertical pressing mechanism; 411-a press cylinder; 412-a guide wheel; 413-a drive motor; 42-a horizontal guide mechanism; 421-a clamping seat; 422-a slide rail; 423-telescopic oil cylinder; 424-guide rollers; 425-driven wheel; 426-a lead motor; 427-a driving wheel; 428-transmission wheel.

Detailed Description

Embodiments of the present invention will now be described with reference to the accompanying drawings.

Examples

Detailed description of the inventionas shown in fig. 1-5, an H-section steel assembling machine comprises a frame 1, wherein a plurality of mutually parallel conveying rollers 11 for placing a web plate and a flange plate are sequentially arranged on the frame 1. One end of the conveyor roller 11 is provided with a drive chain 12. As shown in fig. 1, the transmission chains 12 are arranged in a staggered manner and connect the conveying rollers 11 in pairs, so that the effect of synchronous rotation of the conveying rollers 11 is achieved. In this embodiment, the middle of the conveying roller 11 is a web conveying area, and the two sides of the conveying roller are flange plate conveying areas, that is, a web and two flange plates are simultaneously placed on the assembling machine along the conveying direction.

Among them, a web support beam 2 parallel to the adjacent conveying rollers 11 is provided therebetween. And a fixed supporting oil cylinder 21 for jacking the web is arranged in the middle of the web supporting beam 2. And mounting beams 3 are further arranged below two sides of the conveying roller 11 along the conveying direction. A plurality of plate turnover devices 31 which are positioned between adjacent conveying rollers 11 and can turn over 90 degrees towards the middle parts of the conveying rollers 11 are sequentially hinged on the mounting beam 3 and used for turning over the flange plates. The discharge end of the frame 1 is provided with a machine head frame 4. The head frame 4 is provided with a vertical pressing mechanism 41 for pressing the web and a horizontal guiding mechanism 42 for propping the flange plates on both sides.

When the assembling machine in the embodiment is used, the fixed supporting oil cylinder 21 jacks up the web placed in the middle of the conveying roller 11, and the web is lifted away from the conveying roller 11. The flipper 31 then turns the flange plates placed on both sides of the conveyor roller 11 to the web side. Through the mode, the flange plate is turned and the web plate is lifted during spot welding to form a prototype of the H-shaped steel, and the turning, lifting and splicing work of all components of the H-shaped steel is completed. Meanwhile, the head frame 4 can press and fix the web and the flange plate of the H-shaped steel, and guide and convey the H-shaped steel. Through the structural cooperation of the series of structures, the assembling machine can automatically splice the web plate and the flange plate, and the production efficiency of the H-shaped steel is greatly improved. Moreover, the assembling machine can be used without manual intervention, so that the safety factor in the production process is improved, and the production cost is reduced. In addition, because the work of overturning, lifting and splicing all components of the H-shaped steel is automatically completed by a mechanical device, compared with the positioning by human eyes, the splicing precision is higher, and the product quality is ensured.

And a movable supporting oil cylinder 22 capable of moving along the web support beam 2 is arranged in the middle of the web support beam 2. The top of the fixed support cylinder 21 and the top of the movable support cylinder 22 in this embodiment are both provided with elastic rollers capable of rotating in the conveying direction, so that the web is conveniently conveyed. And the position of the movable support cylinder 22 can be adjusted according to the actual size of the web. Therefore, by matching the movable supporting oil cylinder 22 with the fixed supporting oil cylinder 21, the assembling machine can stably jack up webs with various sizes, and the webs are ensured to be stably placed in the splicing process.

And a web positioning beam 23 sequentially connected with each movable supporting oil cylinder 22 is further arranged below the conveying roller 11 along the conveying direction. And a positioning beam walking screw 241 which is in threaded fit connection with the web positioning beam 23 and is parallel to the conveying roller 11 is arranged on the frame 1. Through the rotation of locating beam walking screw 241, can accurate adjustment web location roof beam 23 position, and then accurate adjustment removes the position of support cylinder 22, makes the web of various sizes of jack-up that the assemblage machine can be stable, guarantees that the web places stably at the concatenation in-process.

In this embodiment, one end of the positioning beam traveling screw 241 is provided with a positioning beam traveling motor 24 for driving the positioning beam traveling screw to axially rotate. The positioning beam traveling motor 24 is a servo motor. The positioning beam walking motor 24 can accurately control the rotation of the positioning beam walking screw 241, thereby achieving the purpose of accurately controlling the position of the movable support cylinder 22.

Meanwhile, the flipper 31 includes a flange plate transfer roller 311 that is parallel to the transfer roller 11 and is axially rotatable. One end of the flange plate transfer roller 311 is connected to the mounting beam 3 through a hinge 32. The lower portion of the flange plate transfer roller 311 is provided with a jack-up cylinder 312. By lifting up the cylinder 312, the flange plate transfer roller 311 can be turned toward the web side, thereby achieving the purpose of turning the flange plate. In the whole overturning process, the flange plate can be stably placed on the flange plate conveying roller 311, the splicing accuracy is guaranteed, and the product production quality is further guaranteed.

The frame 1 is provided with a mounting beam walking screw 331 which is connected with the mounting beam 3 in a thread fit way and is parallel to the conveying roller 11. Through the rotation of installation roof beam walking screw 331, can accurate adjustment installation roof beam 3's position, and then accurate adjustment turns over the relative position of board ware 31, makes the flange board can be with the accurate concatenation combination of web.

In this embodiment, one end of the mounting beam traveling screw 331 is provided with a mounting beam traveling motor 33 for driving the mounting beam traveling screw to axially rotate. The mounting beam traveling motor 33 is a servo motor. The rotation of the positioning mounting beam walking screw 331 can be accurately controlled by the mounting beam walking motor 33, and the purpose of accurately controlling the position of the plate turnover 31 is achieved.

In addition, the vertical pressing mechanism 41 includes a pressing cylinder 411. The pressing cylinder 411 is arranged at the upper part of the machine head frame 4, and vertically penetrates through the machine head frame 4 downwards to be connected with a mounting seat. The lower part of the pressing cylinder 411 is connected with two guide wheels 412 rotating along the conveying direction, and the two guide wheels 412 are oppositely arranged at the lower part of the mounting seat. One side of the guide wheel 412 is provided with a driving motor 413 for driving the guide wheel to rotate. In this embodiment, the guide wheel 412 can cooperate with the support cylinder to fix the web plate, so as to prevent the support cylinder from moving freely. At the same time, the rotation of the guide wheel 412 can also guide the H-beam to leave from the output end of the assembling machine.

The horizontal guide mechanism 42 includes a slide rail 422 parallel to the conveying roller 11 and clamp blocks 421 provided at both ends of the slide rail 422 and movable on the slide rail 422. The slide rails 422 in this embodiment are two, and are arranged in order along the direction in which the conveyor roller 11 is disposed. Meanwhile, in order to drive the clamping seats 421, the lower parts of the two clamping seats 421 are further provided with telescopic oil cylinders 423, two ends of which are respectively connected with the two clamping seats 421. Through the telescopic movement of the telescopic cylinder 423, the clamping seat 421 can fix the clamping flange plate to prevent the clamping flange plate from moving freely.

It should be noted that:

the opposite surfaces of the two clamping bases 421 are provided with guide rollers 424 which are vertically arranged and can axially rotate. The rotation of the guide roller 424 can guide the H-section steel away from the output end of the erection machine. The upper end of the guide roller 424 is provided with a driven wheel 425 rotating in synchronization therewith. The grip seat 421 is further provided with a guide motor 426. The power output end of the guiding motor 426 is in transmission connection with the driven wheel 425 and is used for driving the driven wheel 425 to rotate so as to drive the guiding roller 424 to rotate.

In this embodiment, the guide motor 426 is vertically disposed on the opposite surfaces of the two clamping seats 421. The output end of the upper end is provided with a driving wheel 427. Meanwhile, the upper surface of the clamping seat 421 is also provided with a transmission wheel 428. The guide roller 424 is rotated by the guide motor 426 through the driving cooperation of the driving pulley 427, the driving pulley 428, and the driven pulley 425.

The present invention has been described in connection with the preferred embodiments, but the present invention is not limited to the embodiments disclosed above, and is intended to cover various modifications, equivalent combinations, which are made in accordance with the spirit of the present invention.

Claims

1. An H-shaped steel assembling machine comprises a rack (1), wherein a plurality of mutually parallel conveying rollers (11) are sequentially arranged on the rack (1), one ends of the conveying rollers (11) are provided with transmission chains (12), and the H-shaped steel assembling machine is characterized in that web supporting beams (2) parallel to the conveying rollers are arranged between every two adjacent conveying rollers (11), and a fixed supporting oil cylinder (21) for jacking a web is arranged in the middle of each web supporting beam (2); the lower parts of two sides of the conveying rollers (11) are also provided with mounting beams (3) along the conveying direction, and a plurality of plate turnover devices (31) which are positioned between adjacent conveying rollers (11) and can be turned over towards the middle parts of the conveying rollers (11) are sequentially hinged on the mounting beams (3); the discharge end of the frame (1) is provided with a machine head frame (4), and the machine head frame (4) is provided with a vertical pressing mechanism (41) for pressing a web plate and a horizontal guide mechanism (42) for propping the flange plates at two sides.

2. An H-beam assembling machine according to claim 1, characterized in that the web support beam (2) is provided with a movable support cylinder (22) in the middle, which can move along the web support beam (2).

3. The H-shaped steel assembling machine according to claim 2, characterized in that a web positioning beam (23) sequentially connected with each movable supporting oil cylinder (22) is further arranged below the conveying roller (11) along the conveying direction, and a positioning beam walking screw (241) which is in threaded fit connection with the web positioning beam (23) and is parallel to the conveying roller (11) is arranged on the machine frame (1).

4. The H-shaped steel assembling machine according to claim 3, wherein one end of the positioning beam walking screw (241) is provided with a positioning beam walking motor (24) for driving the positioning beam walking screw to rotate axially.

5. The H-shaped steel assembling machine according to claim 1, characterized in that the plate turnover device (31) comprises a flange plate transmission roller (311) which is parallel to the conveying roller (11) and can rotate axially, one end of the flange plate transmission roller (311) is connected with the mounting beam (3) through a hinge part (32), and the lower part of the flange plate transmission roller (311) is provided with a jacking cylinder (312).

6. The H-shaped steel assembling machine according to claim 5, characterized in that a mounting beam walking screw (331) which is connected with the mounting beam (3) in a threaded fit manner and is parallel to the conveying roller (11) is arranged on the frame (1).

7. The H-beam assembling machine of claim 6, wherein one end of the mounting beam traveling screw (331) is provided with a mounting beam traveling motor (33) for driving the mounting beam traveling screw to rotate axially.

8. The H-shaped steel assembling machine as claimed in claim 1, wherein the vertical pressing mechanism (41) comprises a pressing oil cylinder (411), a guide wheel (412) rotating along the conveying direction is connected below the pressing oil cylinder (411), and a driving motor (413) for driving the guide wheel (412) to rotate is arranged on one side of the guide wheel.

9. The H-shaped steel assembling machine according to claim 1 or 8, characterized in that the horizontal guide mechanism (42) comprises a sliding rail (422) parallel to the conveying roller (11) and clamping seats (421) which are arranged at two ends of the sliding rail (422) and can move on the sliding rail (422), and telescopic oil cylinders (423) with two ends respectively connected with the two clamping seats (421) are arranged at the lower parts of the two clamping seats (421).

10. The H-shaped steel assembling machine as claimed in claim 9, characterized in that the opposite surfaces of the two clamping bases (421) are provided with guide rollers (424) which are vertically arranged and can axially rotate, and the upper ends of the guide rollers (424) are provided with driven wheels (425) which synchronously rotate with the guide rollers; the clamping seat (421) is also provided with a guide motor (426), and the power output end of the guide motor (426) is in transmission connection with a driven wheel (425).