CN220392582U

CN220392582U - Profile steel feeding device

Info

Publication number: CN220392582U
Application number: CN202321823357.0U
Authority: CN
Inventors: 金锋; 杨永国; 杨成涵
Original assignee: Zhejiang Tengyang Machinery Technology Co ltd
Current assignee: Zhejiang Tengyang Machinery Technology Co ltd
Priority date: 2023-07-12
Filing date: 2023-07-12
Publication date: 2024-01-26
Anticipated expiration: 2033-07-12

Abstract

The utility model discloses a section steel feeding device which comprises a storage and discharging frame and a processing frame, wherein the storage and discharging frame is positioned at one side of the processing frame; the two feeding frames are positioned at the storage and discharging frames and the processing frame, the bottom surfaces of the moving blocks fixed on the transverse conveying mechanisms at the tops of the two feeding frames are fixedly provided with lower supporting frames, telescopic cylinders are fixed on the top surfaces of the bottom plates of the lower supporting frames, the bottom ends of push rods of the telescopic cylinders extend out of the bottom surfaces of the bottom plates of the lower supporting frames and are fixedly provided with lifting plates, the bottom surfaces of the lifting plates are fixedly provided with electromagnet blocks, and the two electromagnet blocks correspond to the section steel to be welded, which is placed on the storage and discharging frames. It can place two section steel of spot welding that need process on the storage blowing frame, and it can snatch the processing frame department of carrying welding equipment with the section steel on the storage blowing frame voluntarily, and its degree of automation is high, and is effectual, greatly reduced manual work volume.

Description

Profile steel feeding device

Technical field:

the utility model relates to the technical field of profile steel welding, in particular to a profile steel feeding device.

The background technology is as follows:

the existing long section steel such as channel steel is required to be welded after an upper channel steel and a lower channel steel are spliced, the existing mode is that spot welding is performed on the end faces, pressed against each other, of the side plates of the two channel steels manually, then continuous welding is performed on the end faces manually, and the effect is poor and the efficiency is low;

therefore, some of the prior art places two spot-welded channel steel on a rack, and the two spot-welded channel steel is welded by moving a gantry movable frame type automatic welding machine on the rack, and the two spot-welded channel steel is lifted and placed on the rack by manpower, so that the two spot-welded channel steel is heavy in weight and inconvenient to carry, and the two spot-welded channel steel is inconvenient to carry, and is very large in labor capacity, and if lifted by a crane, the two spot-welded channel steel is easy to interfere with surrounding equipment in the process of lifting and carrying due to the long length of the channel steel, so that the operation difficulty is very large, and the effect is not ideal.

The utility model comprises the following steps:

the utility model aims to overcome the defects of the prior art, and provides a section steel feeding device which can place two section steels subjected to spot welding to be processed on a storage and discharge rack, can automatically grab and convey the section steels on the storage and discharge rack to a processing rack of welding equipment, has high automation degree and good effect, and greatly reduces the manual labor.

The scheme for solving the technical problems is as follows:

the section steel feeding device comprises a storage and discharging frame and a processing frame, wherein the storage and discharging frame is positioned at one side of the processing frame;

the two feeding frames are positioned at the storage and discharging frames and the processing frame, the bottom surfaces of the moving blocks fixed on the transverse conveying mechanisms at the tops of the two feeding frames are fixedly provided with lower supporting frames, telescopic cylinders are fixed on the top surfaces of the bottom plates of the lower supporting frames, the bottom ends of push rods of the telescopic cylinders extend out of the bottom surfaces of the bottom plates of the lower supporting frames and are fixedly provided with lifting plates, the bottom surfaces of the lifting plates are fixedly provided with electromagnet blocks, and the two electromagnet blocks correspond to the section steel to be welded, which is placed on the storage and discharging frames.

The storage and discharging frame is positioned at the front part of the processing frame;

the feeding frame comprises a plurality of supporting legs fixed in front of the storage and discharging frame and behind the processing frame, the upper frame is fixed at the tops of all the supporting legs, and the upper frame is provided with a transverse conveying mechanism.

The transverse conveying mechanism comprises supporting frames fixed on the front and rear top surfaces of the left and right side beams of the upper frame, two ends of the transmission shaft are movably connected to the two supporting frames through bearings, a transmission chain wheel is fixed in the middle of the transmission shaft, a conveying chain is tensioned on the two transmission chain wheels, a conveying motor is fixed on the outer side wall of one supporting frame, the conveying motor drives the corresponding transmission chain wheel to rotate, and a moving block is fixed on the lower chain body of the conveying chain.

The middle parts of the left side beams and the right side beams of the upper frame are respectively provided with a middle through groove which extends forwards and backwards, the middle parts of the middle through grooves are formed with middle through grooves which extend forwards and backwards, the two vertical plates are pressed against the top surfaces of the corresponding middle through grooves, the middle bottom surfaces of the vertical plates are formed with screw sleeve bodies which are inserted into the middle through grooves, the screw parts of the fixing bolts are inserted into the middle through grooves and are screwed into the middle screw holes of the screw sleeve bodies, the bottom surfaces of the vertical plates are pressed against the top surfaces of the corresponding middle through grooves, and the rotating parts of the bottom parts of the fixing bolts are pressed against the bottom surfaces of the corresponding middle through grooves;

the two vertical plates are respectively fixed with an infrared emitter and an infrared receiver, the infrared emitter irradiates infrared rays to the receiving end of the infrared receiver, and the moving block corresponds to the infrared emitter and the infrared receiver.

The bottom surfaces of the left side beam and the right side beam of the upper frame are respectively fixed with a guide rail extending back and forth, the left part and the right part of the top surface of the lower support frame are respectively fixed with a sliding guide block, and the guide rails are inserted and sleeved in sliding grooves formed in the top surfaces of the sliding guide blocks.

The lower part plug bush of the push rod of the telescopic cylinder is provided with a buffer spring, the top end of the buffer spring is applied to the bottom surface of the bottom plate of the lower support frame, and the bottom end of the buffer spring is applied to the top surface of the lifting plate.

And a middle connecting plate is arranged between the two lifting plates, and the left end and the right end of the middle connecting plate are movably connected with the two lifting plates through a hinge shaft.

The utility model has the outstanding effects that:

it can place two section steel of spot welding that need process on the storage blowing frame, and it can snatch the processing frame department of carrying welding equipment with the section steel on the storage blowing frame voluntarily, and its degree of automation is high, and is effectual, greatly reduced manual work volume.

Description of the drawings:

FIG. 1 is a schematic view of a partial structure of the present utility model;

FIG. 2 is a partial cross-sectional view of the present utility model;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is an enlarged partial view of another portion of FIG. 2;

fig. 5 is a partial enlarged view of fig. 4.

The specific embodiment is as follows:

as shown in fig. 1 to 5, the section steel feeding device comprises a storage and discharge rack 20 and a processing rack 10, wherein the storage and discharge rack 20 is positioned at the front part of the processing rack 10, and the storage and discharge rack 20 and the processing rack 10 are arranged in parallel;

the two feeding frames 30 are positioned at the storage and discharging frames 20 and the processing frame 10, the two feeding frames 30 are arranged left and right, the bottom surface of a moving block 41 fixed on a transverse conveying mechanism 40 at the top of the two feeding frames 30 is fixed with a lower supporting frame 50, a telescopic cylinder 51 is fixed on the top surface of a bottom plate of the lower supporting frame 50, the bottom end of a push rod of the telescopic cylinder 51 extends out of the bottom surface of the bottom plate of the lower supporting frame 50 and is fixed with a lifting plate 52, an electromagnet block 53 is fixed on the bottom surface of the lifting plate 52, and the two electromagnet blocks 53 correspond to section steel 100 to be welded, which is placed on the storage and discharging frames 20.

The loading frame 30 includes a plurality of legs 31 fixed at the front of the storage and discharging frame 20 and the rear of the processing frame 10, an upper frame 32 is fixed on the top of all the legs 31, and a transverse conveying mechanism 40 is mounted on the upper frame 32.

The transverse conveying mechanism 40 comprises supporting frames 42 fixed on the front and rear top surfaces of the left and right side beams of the upper frame 32, two ends of a transmission shaft 43 are movably connected to the two supporting frames 42 through bearings, a transmission chain wheel 44 is fixed in the middle of the transmission shaft 43, a conveying chain 45 is tensioned on the two transmission chain wheels 44, a conveying motor 46 is fixed on the outer side wall of one supporting frame 42, an output shaft of the conveying motor 46 is a spline shaft, the spline shaft is inserted into a spline hole formed in one end of the corresponding transmission shaft 43 and drives the corresponding transmission chain wheel 44 to rotate, and a moving block 41 is fixed on a lower chain body of the conveying chain 45.

Further, the inner side walls of the left and right side beams of the upper frame 32 are respectively fixed with an adjusting transverse bar 33, a middle through groove 331 extending front and back is formed in the middle of the adjusting transverse bar 33, two vertical plates 34 are pressed against the top surfaces of the corresponding adjusting transverse bars 33, a screw sleeve body 341 formed on the bottom surface of the middle of the vertical plates 34 is inserted into the middle through groove 331, a screw part of a fixing bolt 35 is inserted into the middle through groove 331 and is screwed into a middle screw hole of the screw sleeve body 341, the bottom surface of the vertical plate 34 is pressed against the top surface of the corresponding adjusting transverse bar 33, and a rotating part at the bottom of the fixing bolt 35 is pressed against the bottom surface of the corresponding adjusting transverse bar 33;

the two vertical plates 34 are respectively fixed with an infrared emitter 1 and an infrared receiver 2, the infrared emitter 1 irradiates infrared rays to the receiving end of the infrared receiver 2, and the moving block 41 corresponds to the infrared emitter 1 and the infrared receiver 2. The vertical plates 34 can be moved back and forth along the top surfaces of the corresponding adjusting transverse bars 33 by unscrewing the fixing bolts 35, the positions of the vertical plates 34 are adjusted, and finally the fixing bolts 35 are screwed down to fix the vertical plates 34, so that the sensing positions of the two vertical plates 34 are adjusted, and when the vertical plates move between the infrared emitter 1 and the infrared receiver 2 through the moving block 41, the infrared rays are blocked from irradiating the infrared receiver 2, and the moving block 41 is indicated to move in place.

Further, the bottom surfaces of the left and right side beams of the upper frame 32 are respectively fixed with a guide rail 3 extending back and forth, the left and right parts of the top surface of the lower support frame 50 are respectively fixed with a sliding guide block 54, and the guide rails 3 are inserted into sliding grooves formed in the top surface of the sliding guide blocks 54.

Further, a buffer spring 4 is inserted into the lower portion of the push rod of the telescopic cylinder 51, the top end of the buffer spring 4 is applied to the bottom surface of the bottom plate of the lower support frame 50, and the bottom end of the buffer spring 4 is applied to the top surface of the lifting plate 52.

Further, a middle connecting plate 55 is disposed between the two lifting plates 52, and the left and right ends of the middle connecting plate 55 are movably connected with the two lifting plates 52 through hinge shafts. Through the intermediate connection plate 55, the synchronism of the two lifting plates 52 is realized, and meanwhile, the problem of clamping is greatly reduced due to the connection of the hinge shafts.

When the embodiment is used, the storage and discharge rack 20 for the profile steel 100 to be processed is firstly placed and pushed to the front part of the processing rack 10, and a plurality of pushing wheels are fixed at the bottom of the storage and discharge rack 20, so that the storage and discharge rack is convenient to carry;

then, through the operation of two conveying motors 46, be in the top of two corresponding spot welding section steel 100 on the top surface of storage blowing frame 20 with two electromagnet blocks 53, push through the push rod of two telescopic cylinder 51, make the bottom surface of electromagnet block 53 press and lean on corresponding section steel 100, electromagnet block 53 opens, realize adsorbing fixedly, then, through the push rod of two telescopic cylinder 51 withdraw, can promote the section steel 100 that await measuring two spot welding, then, through the operation of two conveying motors 46, move two spot welding section steel 100 backward to processing frame 10, when moving to infrared emitter 1 and infrared receiver 2 through movable block 41, it is in place to instruct movable block 41 to remove, it is with the inductive signal transmission control host computer, the control host computer just controls conveying motor 46 and stops the operation, and the position that infrared emitter 1 and infrared receiver 2 correspond is in the middle part of processing frame 10 installs the position department, then, through pushing all telescopic cylinder 51, can carry out processing to the two spot welding section steel 100, can be carried out on the processing frame after all the top surfaces of two, can grasp the electromagnetic block 53, and then, can carry out processing after the processing frame 20, can be finished.

In this embodiment, the conveying motors 46 and the like of the conveying motors are not simply operated and can be controlled to operate by a manual operation controller, and when the moving block 41 is positioned in the infrared emitter 1 and the infrared receiver 2, the moving block is moved to the right position, and at the moment, the control host controls the two conveying motors 46 to stop operating, so that the conveying position of the section steel 100 is accurate, the position of the section steel 100 at the later stage in the processing rack 10 does not need to be manually adjusted, and the processing efficiency is improved;

all the electric devices or components in the embodiment are electrically connected with the control host through connecting wires, which are of conventional structures and will not be described in detail herein.

Claims

1. The utility model provides a section steel loading attachment, includes storage blowing frame (20) and processing frame (10), its characterized in that: the storage and discharging frame (20) is positioned at one side of the processing rack (10);

two material loading frame (30) are in storage blowing frame (20) and processing frame (10) department, the bottom surface of fixed movable block (41) on the transverse conveying mechanism (40) at the top of two material loading frame (30) is fixed with lower carriage (50), be fixed with telescopic cylinder (51) on the bottom plate top surface of lower carriage (50), the bottom surface of the bottom plate of lower carriage (50) is stretched out to the bottom end of the push rod of telescopic cylinder (51) and is fixed with lifter plate (52), the bottom surface of lifter plate (52) is fixed with electromagnet block (53), two electromagnet block (53) are corresponding with section bar steel (100) of waiting to weld of placing on storage blowing frame (20).

2. A section steel loading attachment according to claim 1, characterized in that:

the feeding frame (30) comprises a plurality of supporting legs (31) fixed in front of the storage and discharging frame (20) and behind the processing frame (10), the upper frame (32) is fixed at the tops of all the supporting legs (31), and the upper frame (32) is provided with a transverse conveying mechanism (40).

3. A section steel loading attachment according to claim 2, characterized in that: the transverse conveying mechanism (40) comprises supporting frames (42) fixed on the top surfaces of the front portions and the rear portions of the left side beams and the right side beams of the upper frame type frame (32), two ends of a transmission shaft (43) are movably connected to the two supporting frames (42) through bearings, a transmission chain wheel (44) is fixed in the middle of the transmission shaft (43), a conveying chain (45) is tensioned on the two transmission chain wheels (44), a conveying motor (46) is fixed on the outer side wall of one supporting frame (42), and a moving block (41) is fixed on the lower chain body of the conveying chain (45).

4. A section steel loading attachment according to claim 2, characterized in that: the inner side walls of the left side beam and the right side beam of the upper frame (32) are respectively fixed with an adjusting transverse bar (33), and the adjusting transverse bars (33) are provided with vertical plates (34) which can move along the adjusting transverse bars (33) to change positions;

the two vertical plates (34) are respectively fixed with an infrared emitter (1) and an infrared receiver (2), the infrared emitter (1) irradiates infrared rays to the receiving end of the infrared receiver (2), and the moving block (41) corresponds to the infrared emitter (1) and the infrared receiver (2).

5. A section steel loading attachment according to claim 2, characterized in that: guide rails (3) extending forwards and backwards are fixed on the bottom surfaces of the left side beam and the right side beam of the upper frame (32), sliding guide blocks (54) are fixed on the left part and the right part of the top surface of the lower support frame (50), and the guide rails (3) are inserted into sliding grooves formed in the top surface of the sliding guide blocks (54).

6. A section steel loading attachment according to claim 1, characterized in that: an intermediate connecting plate (55) is arranged between the two lifting plates (52), and the left end and the right end of the intermediate connecting plate (55) are movably connected with the two lifting plates (52) through hinge shafts.