CN210527796U - Conveying device of steel combined production line - Google Patents

Abstract

The utility model discloses a conveying device of a steel combined production line, which comprises a frame, the guide roll is arranged on the frame, perforating machine and angle iron are arranged on one side of the frame, the conveying device also comprises a supporting block, two upper supporting plates and lower supporting plates which are oppositely arranged on the side wall of the perforating machine of the supporting block and clamping blocks which are respectively arranged on the upper supporting plates and the lower supporting plates and are back to the side wall of the supporting block, the side wall of the supporting block is provided with a driving component for driving the upper supporting plates to slide along the height direction of the supporting plate, the top wall of the frame is provided with a sliding groove along the length direction of the top wall of the frame, the sliding groove is internally provided with a sliding component for driving the supporting block to move in the sliding groove and a lifting component for driving the supporting; this conveyor does not need the workman to place the angle bar between two grip blocks, alright carry out the centre gripping to the angle bar to carry the angle bar to in the perforating machine, labour saving and time saving, work efficiency is high.

Description

Conveying device of steel combined production line

Technical Field

The utility model relates to a technical field of angle bar processing, in particular to conveyor of steel joint production line.

Background

Angle iron is commonly called angle iron, and is a long steel bar with two sides perpendicular to each other to form an angle shape, the angle iron can form various stress members according to different requirements of structures, and can also be used as a connecting piece between members.

However, the existing numerical control section steel combined production line has the following use limitations in the section steel processing process: before punching the shaped steel, need aim at the manipulator through the manpower with the shaped steel in the frame, then utilize the manipulator to punch with the shaped steel centre gripping and carry to the drill bit below of puncher, because need punch hundreds of angle bars every day, greatly increased staff's intensity of labour, it is consuming time hard, work efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a steel joint production line's conveyor, its advantage: this conveyor does not need the workman to place the angle bar between two grip blocks, alright carry out the centre gripping to the angle bar to carry the angle bar to the puncher in, labour saving and time saving has improved work efficiency.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a conveying device of a steel combined production line comprises a frame, two guide rollers which are oppositely arranged on the frame and are arranged along the length direction of the frame, a punching machine arranged on one side of the frame, an angle iron, a supporting block, an upper supporting plate, a lower supporting plate and a clamping block, wherein a V-shaped space for the angle iron to slide is formed between opposite side walls of the two guide rollers, the upper supporting plate and the lower supporting plate are oppositely arranged on the supporting block, the upper supporting plate and the lower supporting plate face the side wall of the punching machine, the clamping block is respectively arranged on the upper supporting plate and the lower supporting plate, the side wall of the supporting block is provided with a driving component for driving the upper supporting plate to slide along the height direction of the supporting block, the top wall of the frame is provided with a sliding groove along the length direction of the top wall, the sliding groove is internally provided with a sliding component for driving the supporting block to move in the sliding groove and a lifting component for driving the supporting block to move along the height direction of the sliding groove, and a clamping space for fixing the angle iron is formed between the opposite side walls of the two clamping blocks.

According to the technical scheme, the supporting block is driven by the sliding assembly to slide to a proper position along the length direction of the rack, and then the clamping block on the end wall of the lower supporting plate moves to the position below the angle iron; secondly, the supporting block is driven by the lifting assembly to be adjusted to a proper height up and down, and then the lower supporting plate moves upwards, so that the clamping block fixed on the side wall of the lower supporting plate is attached to the bottom wall of the angle iron at the right angle; then the driving component is used for driving the upper supporting plate to move downwards, so that the two clamping blocks stably clamp the angle irons; finally, the sliding assembly is utilized to drive the supporting block to slide along the direction of the rack, and finally the two clamping blocks are used for conveying the angle iron to the perforating machine for perforating; after the punching is finished, the supporting block is driven to move downwards through the lifting assembly, so that the next angle iron to be processed can be conveniently placed; adopt the conveyor that above-mentioned structure constitutes, through adjusting the grip block to suitable height, alright carry out the centre gripping to the angle bar, need not be at the centre gripping in-process, the workman places the angle bar between two grip blocks, labour saving and time saving has improved machining efficiency.

The utility model discloses further set up to: the driving assembly comprises a screw, a first motor for driving the screw to rotate, a first supporting rod and a second supporting rod which are arranged between opposite side walls of the upper supporting plate and the lower supporting plate in a staggered mode, and a first sliding block and a second sliding block which are arranged at the top end and the bottom end of the first supporting rod and the second supporting rod in a hinged mode respectively, a first sliding groove and a second sliding groove which are used for the first sliding block and the second sliding block to move are formed in the opposite side walls of the upper supporting plate and the lower supporting plate along the length direction of the opposite side walls, the screw is rotatably arranged in the first sliding groove, two ends, located in the first sliding groove, of the screw are provided with reverse threads, the two first sliding blocks are in threaded fit with two ends of the screw respectively, and the middle portions of the.

Through the technical scheme, the first motor is started, the screw rod is driven to rotate, two ends of the screw rod are provided with reverse threads, the first sliding groove has a limiting effect on the two first sliding blocks, the two first sliding blocks are driven to be close to or away from each other along the length direction of the screw rod, and meanwhile the two second sliding blocks slide relatively along the length direction of the second sliding groove; when the two first sliding blocks are close to each other, the upper supporting plate moves upwards along the height direction of the supporting block, and then the two clamping blocks are far away from each other; when the two first sliding blocks are far away from each other, the upper supporting plate moves downwards, and finally the clamping of diagonal iron is realized; this drive mode, convenient operation through the reciprocating of extension board in the adjustment, has finally realized the centre gripping of diagonal angle iron, has improved machining efficiency.

The utility model discloses further set up to: and a first guide rod which is in the same direction with the length direction is arranged in the second sliding groove, and the side walls of the two second sliding blocks are provided with sliding holes matched with the first guide rod.

Through above-mentioned technical scheme, the setting of first guide bar has improved the stability of second slider process of sliding, and then makes the removal that first branch and second branch can be stable to improve the stability of the in-process that slides from top to bottom of last bolster, strengthened the stability of the centre gripping of diagonal iron.

The utility model discloses further set up to: the end wall of the upper supporting plate is provided with a guide block, and the side wall of the supporting block is provided with a guide groove for the guide block to slide along the height direction.

Through above-mentioned technical scheme, the cooperation of guide block and guide way plays limiting displacement to the removal of last bolster, has improved the stability of the in-process that slides from top to bottom of last bolster.

The utility model discloses further set up to: the sliding assembly comprises a screw rod, a sliding block, a second motor and a second guide rod, wherein the screw rod is arranged in the sliding groove and is in the same direction as the length direction of the sliding assembly, the sliding block is in threaded fit with the screw rod, the second motor drives the screw rod to rotate, one side, located on the screw rod, of the sliding block is provided with a through hole for the second guide rod to penetrate through, the sliding block slides along the length direction of the sliding groove, and the supporting block is arranged on the top wall of the sliding block.

According to the technical scheme, the screw rod is driven to rotate by the second motor, the second guide rod has a limiting effect on the sliding of the sliding block, so that the sliding block slides along the length direction of the screw rod and the guide rod, the rolling motion is converted into sliding motion, the supporting block can be moved to a proper position, and finally, the clamped angle iron is conveyed into the punching machine to be punched; this mode of sliding, simple structure, convenient operation has improved machining efficiency.

The utility model discloses further set up to: the lifting assembly comprises two cylinders oppositely arranged on the top wall of the sliding block, a driving rod connected with a piston rod of the cylinders and a lifting block, one ends of the driving rods, far away from the cylinders, are respectively fixed on the bottom wall of the lifting block, the supporting blocks are arranged on the top wall of the lifting block, and the length direction of the piston rod of the cylinders is in the same direction as the height direction of the rack.

According to the technical scheme, the supporting block is driven to move up and down by the air cylinder, so that the clamping block fixed on the end wall of the lower supporting plate is driven to be adjusted to a proper position up and down, and the clamping block fixed on the lower supporting plate can move below the angle iron conveniently; after the angle iron is punched, the supporting block is driven to move downwards by using the air cylinder so as to drive the two clamping blocks to move downwards, and the next angle iron to be punched is conveniently placed on the rack; this mode of going up and down, simple structure, convenient operation has improved machining efficiency, does not need the staff supplementary to place the angle bar between two grip blocks, and labour saving and time saving has improved machining efficiency.

The utility model discloses further set up to: the supporting block is provided with a distance sensor towards the side wall of the perforating machine, and the distance sensor is electrically connected with the first motor, the second motor and the cylinder respectively.

Through above-mentioned technical scheme, through the distance value between distance sensor real-time detection supporting shoe and the angle bar to convey the numerical value that detects to PLC control circuit, when distance value reached the setting value, first motor, second motor and cylinder received signal have finally realized the centre gripping of angle bar, have realized automated work, have improved machining efficiency.

The utility model discloses further set up to: and magnetic sealing strips are arranged on the opposite side walls of the two clamping blocks.

Through above-mentioned technical scheme, the compactness of laminating between grip block and the angle bar lateral wall has been strengthened in the setting of magnetism sealing strip, can be stable to the angle bar centre gripping, and then has improved the stability of carrying the angle bar process.

To sum up, the utility model discloses following beneficial effect has:

1. firstly, a sliding component is utilized to drive a supporting block to slide to a proper position along the length direction of a rack, and then a clamping block on the end wall of a lower supporting plate moves to the position below an angle iron; secondly, the supporting block is driven by the lifting assembly to be adjusted to a proper height up and down, and then the lower supporting plate moves upwards, so that the clamping block fixed on the side wall of the lower supporting plate is attached to the bottom wall of the angle iron at the right angle; then the driving component is used for driving the upper supporting plate to move downwards, so that the two clamping blocks stably clamp the angle irons; finally, the sliding assembly is utilized to drive the supporting block to slide along the direction of the rack, and finally the two clamping blocks are used for conveying the angle iron to the perforating machine for perforating; after the punching is finished, the supporting block is driven to move downwards through the lifting assembly, so that the next angle iron to be processed can be conveniently placed; by adopting the conveying device with the structure, the angle iron can be clamped by adjusting the clamping blocks to the proper height, and workers do not need to place the angle iron between the two clamping blocks in the clamping process, so that time and labor are saved, and the processing efficiency is improved;

2. the first motor is started, the screw rod rotates, the first sliding grooves limit the two first sliding blocks, so that the two first sliding blocks are driven to mutually approach or mutually separate along the length direction of the screw rod, and meanwhile, the two second sliding blocks relatively slide along the length direction of the second sliding grooves; when the two first sliding blocks are close to each other, the upper supporting plate moves upwards along the height direction of the supporting block, and then the two clamping blocks are far away from each other; when the two first sliding blocks are far away from each other, the upper supporting plate moves downwards, and finally the clamping of diagonal iron is realized; the driving mode is convenient to operate, the angle iron is clamped finally by adjusting the upper supporting plate to move up and down, and the machining efficiency is improved;

3. set up the magnetism sealing strip, strengthened the inseparability of laminating between grip block and the angle bar lateral wall, can be stable to the angle bar centre gripping, and then improved the stability of carrying the angle bar process.

Drawings

Fig. 1 is a schematic view of the overall structure of the present embodiment.

Fig. 2 is a schematic structural diagram for showing a positional relationship between the sliding assembly and the frame in the present embodiment.

Fig. 3 is a schematic structural view for embodying the lifting assembly in the present embodiment.

Fig. 4 is a schematic structural view for embodying the driving assembly in the present embodiment.

Reference numerals: 1. a frame; 2. a guide roller; 3. a perforating machine; 4. a V-shaped space; 5. a support block; 6. an upper support plate; 7. a lower support plate; 8. a clamping block; 9. a drive assembly; 91. a screw; 92. a first motor; 93. A first support bar; 94. a second support bar; 95. a first slider; 96. a second slider; 10. a slipping component; 101. a screw rod; 102. a sliding block; 103. a second motor; 104. a second guide bar; 11. a lifting assembly; 111. a cylinder; 112. a drive rod; 113. a lifting block; 12. a clamping space; 13. a first guide bar; 14. a sliding hole; 15. a guide block; 16. a guide groove; 17. a through hole; 18. a distance sensor; 19. a magnetic seal strip; 20. a feeding channel; 21. angle iron; 22. a sliding groove; 23. a first chute; 24. a second runner.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b):

a conveying device of a steel combined production line, referring to fig. 1, comprises a frame 1, an angle iron 21 and a punching machine 3 arranged on one side of the frame 1.

Referring to fig. 1, a plurality of two opposite guide rollers 2 are arranged on a frame 1 at equal intervals along the length direction of the frame, a V-shaped space 4 for sliding an angle iron 21 is formed between opposite side walls of the two guide rollers 2, and a feeding channel 20 is arranged in the middle of the frame 1; the angle iron 21 is placed in the V-shaped space 4 through a forklift (not shown in the figure), and the arrangement of the feeding channel 20 is convenient for the forklift to place the angle iron 21; the angle iron 21 slides in the V-shaped space 4, and finally the angle iron 21 can be conveyed into the punching machine 3, so that the punching of the angle iron 21 is realized.

Referring to fig. 1 and 2, a sliding groove 22 is formed in the upper surface of the frame 1 in a downward extending manner along the length direction of the frame, a supporting block 5 is arranged in the sliding groove 22, the supporting block 5 is rectangular, two horizontal upper supporting plates 6 and two horizontal lower supporting plates 7 are respectively arranged on the upper and lower sides of the supporting block 5 facing the side wall of the hole puncher 3, clamping blocks 8 are respectively arranged on the side walls of the upper supporting plates 6 and the lower supporting plates 7 facing away from the supporting block 5, the two clamping blocks 8 are vertically opposite, a driving assembly 9 for driving the upper supporting plates 6 to slide along the height direction of the supporting block 5 is arranged on the side wall of the supporting block 5, and a sliding assembly 10 for driving the supporting block 5 to move along the length direction and a lifting assembly 11; firstly, the sliding component 10 is used for driving the supporting block 5 to slide to a proper position along the length direction of the rack 1, and then the clamping block 8 on the end wall of the lower supporting plate 7 moves to the position below the angle iron 21; secondly, the lifting component 11 is utilized to drive the supporting block 5 to be adjusted to a proper height up and down, and then the lower supporting plate 7 moves upwards, so that the clamping block 8 fixed on the side wall of the lower supporting plate 7 is attached to the bottom wall of the angle iron 21 at the right angle; then, the driving component 9 is used for driving the upper support plate 6 to move downwards, so that the two clamping blocks 8 stably clamp the angle iron 21; finally, the sliding component 10 is utilized to drive the supporting block 5 to slide along the direction of the rack 1, and finally the two clamping blocks 8 are used for conveying the angle iron 21 to the perforating machine 3 for perforating; after the punching is finished, the supporting block 5 is driven to move downwards through the lifting assembly 11, and the next angle iron 21 to be processed is placed conveniently; adopt the conveyor that above-mentioned structure constitutes, through adjusting grip block 8 to suitable height, alright carry out the centre gripping to angle bar 21, need not be at the centre gripping in-process, the workman places angle bar 21 between two grip blocks 8, labour saving and time saving has improved machining efficiency.

Referring to fig. 2, the sliding assembly 10 includes a screw 101 disposed in the sliding groove 22 and having the same direction as the length direction thereof, a sliding block 102 in threaded fit with the screw 101, a second motor 103 for driving the screw 101 to rotate, and a second guide rod 104 having the same length as the screw 101, wherein the sliding block 102 is provided with a through hole 17 for the second guide rod 104 to pass through on one side of the screw 101, the sliding block 102 slides along the length direction of the sliding groove 22, and the support block 5 is disposed on the sliding block 102; the screw rod 101 is driven to rotate by the second motor 103, and the second guide rod 104 has a limiting effect on the sliding of the sliding block 102, so that the sliding block 102 slides along the length direction of the screw rod 101, the rolling motion is converted into sliding motion, the supporting block 5 can be moved to a proper position, and finally the clamped angle iron 21 is conveyed into the punching machine 3 for punching; this mode of sliding, simple structure, convenient operation has improved machining efficiency.

Referring to fig. 2 and 3, the lifting assembly 11 includes two cylinders 111 oppositely disposed on the top wall of the sliding block 102, driving rods 112 connected to the piston rods of the cylinders 111, and a lifting block 113, wherein one ends of the two driving rods 112, which are far away from the cylinders 111, are respectively fixed on the bottom wall of the lifting block 113, the supporting block 5 is fixed on the top wall of the lifting block 113, the length direction of the supporting block 5 is opposite to the length direction of the lifting block 113, and the length direction of the piston rod of the cylinder 111 is the same as the height direction of the frame 1; the cylinder 111 is used for driving the lifting block 113 to move up and down, so that the supporting block 5 is driven to lift up and down, the clamping block 8 fixed on the end wall of the lower supporting plate 7 is driven to be adjusted to a proper position up and down, and the clamping block 8 fixed on the lower supporting plate 7 can be conveniently moved to the position below the angle iron 21; after the angle iron 21 is punched, the supporting block 5 is driven to move downwards by using the air cylinder 111, so that the two clamping blocks 8 are driven to move downwards, and the angle iron 21 to be punched next is conveniently placed on the rack 1; this mode of going up and down, simple structure, convenient operation has improved machining efficiency, does not need the staff supplementary to place angle bar 21 between two grip blocks 8, and labour saving and time saving has improved machining efficiency.

Referring to fig. 3 and 4, the opposite side walls of the lower support plate 7 and the upper support plate 6 are respectively provided with a first sliding groove 23 and a second sliding groove 24 along the length direction thereof, the driving assembly 9 includes a first motor 92 disposed in the first sliding groove 23, a screw 91 rotatably disposed in the first sliding groove 23, the two first supporting rods 93 and the second supporting rods 94 are arranged between opposite side walls of the upper supporting plate 6 and the lower supporting plate 7 in a staggered mode, and the first sliding blocks 95 and the second sliding blocks 96 are hinged to the top ends and the bottom ends of the first supporting rods 93 and the second supporting rods 94 respectively; the first motor 92 is started to drive the screw 91 to rotate, and because the two ends of the screw 91 are provided with reverse threads, and the first sliding chute 23 has a limiting effect on the two first sliding blocks 95, the two first sliding blocks 95 are driven to mutually approach or separate along the length direction of the screw 91, and meanwhile, the two second sliding blocks 96 relatively slide along the length direction of the second sliding chute 24; when the two first sliders 95 approach each other, the upper support plate 6 moves upward in the height direction of the support block 5, and the two holding blocks 8 move away from each other; when the two first sliding blocks 95 are far away from each other, the upper support plate 6 moves downwards, and finally the clamping of the diagonal iron 21 (fig. 1) is realized; this drive mode, convenient operation through the reciprocating of adjusting upper support board 6, has finally realized the centre gripping of diagonal angle iron 21 (fig. 1), has improved machining efficiency.

Referring to fig. 4, the two magnetic sealing strips 19 are respectively arranged on the opposite side walls of the two clamping blocks 8, and the two magnetic sealing strips 19 are attracted; the magnetic sealing strips 19 are arranged, so that the tightness of the fit between the clamping blocks 8 and the side walls of the angle iron 21 is enhanced, the angle iron 21 can be stably clamped, and the stability of the process of conveying the angle iron 21 is improved.

Referring to fig. 4, the side wall of the upper supporting plate 6 facing the clamping block 8 is provided with a guide block 15, and the side wall of the supporting block 5 is provided with a guide groove 16 along the height direction for the guide block 15 to slide; when the upper supporting plate 6 moves up and down, the guide block 15 goes up and down along the height direction of the guide groove 16, the guide groove 16 and the guide block 15 are matched to limit the lifting of the upper supporting plate 6, and the stability of the upper supporting plate 6 in the sliding process is improved.

Referring to fig. 4, a first guide rod 13 is arranged in the second sliding chute 24 in the same direction as the length direction of the second sliding chute, the side walls of the two second sliding blocks 96 are respectively provided with a sliding hole 14 matched with the first guide rod 13, and the two second sliding blocks 96 slide along the length direction of the first guide rod 13; when the second sliding block 96 slides in the second sliding groove 24, the stability of the sliding process of the second sliding block 96 is improved due to the arrangement of the first guide rod 13.

Referring to fig. 3 and 4, a distance sensor 18 is disposed on a side wall of the supporting block 5 facing the hole, and the distance sensor 18 is electrically connected to the first motor 92 (fig. 2), the second motor 103, and the cylinder 111, respectively; by utilizing the distance sensor 18, the distance value between the supporting block 5 and the angle iron 21 is detected in real time, the detected value is transmitted to the PLC control circuit, and when the distance value reaches a set value, the first motor 92 (shown in figure 2), the second motor 103 and the air cylinder 111 receive signals, so that the angle iron 21 (shown in figure 2) is clamped finally, the automatic work is realized, and the processing efficiency is improved.

The working process is as follows: firstly, two cylinders 111 are used for driving the supporting block 5 to be adjusted to a proper height up and down; secondly, a second motor 103 is used for driving a screw rod 101 to rotate, so that a sliding block 102 is driven to slide to a proper position along the length direction of the rack 1, and at the moment, a clamping block 8 fixed on the side wall of the lower support plate 7 is positioned below the angle steel; then, the supporting block 5 is driven to move upwards by the air cylinder 111, and the top wall of the clamping block 8 below is attached to the right-angled bottom wall of the angle steel; then, the screw 91 is driven to rotate by the first motor 92, and the two first sliding blocks 95 are further away from each other in the first sliding groove 23, so that the upper support plate 6 moves downwards, the bottom wall of the upper clamping block 8 is downward and attached to the right-angle top wall of the angle iron 21, at the moment, the two magnetic sealing strips 19 are attracted, and the clamping of the angle iron 21 is finally realized; finally, the second motor 103 drives the sliding block 102 to slide along the length direction of the sliding groove 22, so that the angle iron 21 can be conveyed into the punching machine 3, and the angle iron 21 can be punched at a fixed length through the punching machine 3.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a conveyor of steel joint production line, includes frame (1), two relative sets up a plurality of guide roll (2) that arrange on frame (1) and along its length direction, set up puncher (3) and angle bar (21) in frame (1) one side, two be formed with between the relative lateral wall of guide roll (2) and supply V type space (4) that angle bar (21) slided, its characterized in that: the punching machine is characterized by further comprising a supporting block (5), an upper supporting plate (6) and a lower supporting plate (7) which are oppositely arranged on the side wall, facing the punching machine (3), of the supporting block (5), and clamping blocks (8) which are respectively arranged on the side wall, facing away from the supporting block (5), of the upper supporting plate (6) and the side wall, of the lower supporting plate (7), wherein the side wall of the supporting block (5) is provided with a driving assembly (9) for driving the upper supporting plate (6) to slide along the height direction of the upper supporting plate, the top wall of the rack (1) is provided with a sliding groove (22) along the length direction of the top wall, a sliding assembly (10) for driving the supporting block (5) to move in the sliding groove (22) and a lifting assembly (11) for driving the supporting block (5) to move along the height direction of the top wall are arranged in the sliding.

2. The conveying device of a steel combined production line according to claim 1, characterized in that: the driving assembly (9) comprises a screw (91), a first motor (92) for driving the screw (91) to rotate, a first support rod (93) and a second support rod (94) which are arranged between opposite side walls of the upper support plate (6) and the lower support plate (7) in a staggered mode, and a first sliding block (95) and a second sliding block (96) which are respectively hinged to the top ends and the bottom ends of the first support rod (93) and the second support rod (94), wherein the opposite side walls of the upper support plate (6) and the lower support plate (7) are provided with a first sliding groove (23) and a second sliding groove (24) along the length direction of the opposite side walls, the first sliding block (95) and the second sliding block (96) can move, the screw (91) is rotatably arranged in the first sliding groove (23), two ends, located in the first sliding groove (23), of the screw (91) are provided with reverse threads, and the two first sliding blocks (95) are respectively matched with the two ends of the screw (91, the middle parts of the first supporting rod (93) and the second supporting rod (94) are rotatably connected.

3. The conveying device of a steel combined production line according to claim 2, characterized in that: and a first guide rod (13) which is in the same direction as the length direction is arranged in the second sliding groove (24), and sliding holes (14) matched with the first guide rod (13) are formed in the side walls of the second sliding blocks (96).

4. The conveying device of a steel combined production line according to claim 2, characterized in that: the end wall of the upper support plate (6) is provided with a guide block (15), and the side wall of the support block (5) is provided with a guide groove (16) for the guide block (15) to slide along the height direction.

5. The conveying device of a steel combined production line according to claim 2, characterized in that: the sliding assembly (10) comprises a screw rod (101) arranged in a sliding groove (22) and in the same direction as the length direction of the sliding assembly, a sliding block (102) in threaded fit with the screw rod (101), a second motor (103) for driving the screw rod (101) to rotate and a second guide rod (104), wherein a through hole (17) for the second guide rod (104) to pass through is formed in one side, located on the screw rod (101), of the sliding block (102), the sliding block (102) slides along the length direction of the sliding groove (22), and the supporting block (5) is arranged on the top wall of the sliding block (102).

6. The conveying device of a steel combined production line according to claim 5, characterized in that: the lifting assembly (11) comprises two cylinders (111) oppositely arranged on the top wall of the sliding block (102), driving rods (112) connected with piston rods of the cylinders (111) and lifting blocks (113), one ends, far away from the cylinders (111), of the two driving rods (112) are respectively fixed on the bottom wall of the lifting blocks (113), the supporting blocks (5) are arranged on the top wall of the lifting blocks (113), and the length direction of the piston rods of the cylinders (111) is the same as the height direction of the rack (1).

7. The conveying device of a steel combined production line according to claim 6, characterized in that: the side wall of the support block (5) facing the perforating machine (3) is provided with a distance sensor (18), and the distance sensor (18) is electrically connected with the first motor (92), the second motor (103) and the air cylinder (111) respectively.

8. The conveying device of a steel combined production line according to claim 1, characterized in that: the opposite side walls of the two clamping blocks (8) are provided with magnetic sealing strips (19).

Images