CN215146675U - Coiled material flying shear stacking device - Google Patents

Abstract

The utility model relates to a coiled material flying shear folds material device, include decoiler, evener, laminating machine, flying shear, fold the material machine that arrange side by side in proper order from a right side to a left side, its characteristics lie in still including stock stop, wherein fold and be equipped with the material chamber on the material machine, stock stop includes locating rack, elastic buffer subassembly, striker plate, the locating rack sets up on folding the material machine, the elastic buffer subassembly sets up on the locating rack to the expansion end that makes the elastic buffer subassembly faces the output of flying shear, the striker plate sets up on the activity of elastic buffer subassembly is served, and makes the striker plate be located and fold the material chamber. The utility model discloses can play fine cushioning effect to the lath to the probability that deformation, damage appear in the lath that can significantly reduce, and then help improving the processingquality of coiled material, and this coiled material flying shear folds the material device and still has advantages such as simple structure, high reliability, stability are good, the suitability is strong.

Description

Coiled material flying shear stacking device

Technical Field

The utility model relates to a coiled material processing equipment field, especially a coiled material flying shear folds material device.

Background

Currently, it is generally necessary to cut the metal coil into strips before it is processed into products. The system for finishing the cutting processing comprises an uncoiler, a leveling machine, a film laminating machine, a flying shear and a material stacking machine which are sequentially arranged side by side, and therefore, the metal coiled material is stacked on the material stacking machine after being sequentially uncoiled, leveled, coated and flying sheared in the processing process of the metal coiled material. Among other things, flying shears typically output staves with greater travel speeds for better stave travel to the stacker. To better confine the slats, a baffle is typically fixedly mounted to the stacker. So that the slats moving at high speed fall onto the stacker by striking the baffle. Due to the structural strength of the battens is weak, the battens are easy to deform and damage under high-speed impact, so that the processing quality of the metal coiled material is easily reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve above-mentioned problem and not enough, provide a coiled material flying shear folds material device, this coiled material flying shear folds material device can play fine cushioning effect to the lath to can the significantly reduced lath appear the probability of deformation, damage, and then help improving the processingquality of coiled material, and this coiled material flying shear folds material device still has advantages such as simple structure, high reliability, stability are good, the suitability is strong.

The technical scheme of the utility model is realized like this:

the utility model provides a coiled material flying shear folds material device, includes decoiler, evener, laminating machine, flying shear, the material folding machine that arranges side by side in proper order from the right side to a left side, its characteristics lie in still including stock stop, wherein fold and be equipped with the material folding chamber on the material folding machine, stock stop includes locating rack, elastic buffer subassembly, striker plate, the locating rack sets up on folding the material machine, the elastic buffer subassembly sets up on the locating rack to the expansion end that makes the elastic buffer subassembly faces the output of flying shear, the striker plate sets up on the activity of elastic buffer subassembly is served, and makes the striker plate be located the material folding chamber.

Preferably, the stacker is provided with a guide rail bar and an adjusting screw rod which are transversely arranged, and the positioning frame is slidably arranged on the guide rail bar and is in threaded connection with the adjusting screw rod.

Preferably, the elastic buffering assembly comprises a transverse shaft, a left spring and a right spring, the middle of the transverse shaft is slidably arranged on the positioning frame, the striker plate is connected with the right end of the transverse shaft, the right spring is arranged between the striker plate and the positioning frame, the two ends of the right spring are respectively elastically pressed on the striker plate and the positioning frame, the left spring is sleeved on the left end of the transverse shaft, the left end of the transverse shaft is provided with a limiting blocking ring, and the two ends of the left spring are respectively elastically pressed on the limiting blocking ring and the positioning frame.

Preferably, the left spring and the transverse shafts are two, the striker plate is connected with the right ends of the two transverse shafts, and the right spring is arranged between the two transverse shafts.

Preferably, a jacking cylinder is arranged on the left surface of the positioning frame, and a piston rod of the jacking cylinder penetrates through the positioning frame and then is arranged on the right side of the positioning frame.

Preferably, a left sleeve ring is arranged on the right surface of the positioning frame, a right sleeve ring is arranged on the left surface of the striker plate, the left end and the right end of the right spring are respectively embedded in the left sleeve ring and the right sleeve ring, and the piston rod penetrates through the right spring.

Preferably, the locating rack comprises a longitudinal plate, a transverse plate and a connecting piece, wherein the transverse plate is arranged on the left surface of the longitudinal plate, the bottom of the connecting piece is respectively connected with the top of the longitudinal plate and the top of the transverse plate, the transverse shaft penetrates through the longitudinal plate, and the connecting piece is connected to the stacker.

Preferably, a limiting sleeve penetrates through the longitudinal plate, and the transverse shaft penetrates through the limiting sleeve in a sliding manner.

Preferably, a soft plate is arranged on the right surface of the striker plate.

Preferably, the stacking machine comprises a frame, a front blocking frame, a rear blocking frame and a lifting material receiving frame, the front blocking frame and the rear blocking frame are arranged on the frame side by side from front to back, a stacking cavity is formed between the front blocking frame and the rear blocking frame, the lifting material receiving frame is arranged below the stacking cavity, and the positioning frame is arranged on the frame.

The utility model has the advantages that: the coiled material flying shear stacking device can automatically perform uncoiling, leveling, film coating, flying shear and stacking, has high automation, and can reduce the labor intensity of workers. Through set up the material stacking cavity on the stacker, this accuracy and stability that help improving the lath and pile up to help improving the quality of piling up. Because stock stop includes locating rack, elastic buffer subassembly, striker plate, through the setting of elastic buffer subassembly, can take place elastic displacement when the striker plate strikes. Because the striker plate sets up in the material stacking cavity, can play limiting displacement to the lath that gets into the material stacking cavity through the striker plate like this to make the lath can accurately fall into the material stacking cavity. And when the lath strikes on the striker plate, the elastic buffer effect on the lath can be well played, so that the probability of deformation and damage of the lath can be greatly reduced, and the processing quality of the coiled material is improved. Simultaneously, this coiled material flying shear folds material device's overall structure still is fairly simple, and it can reliably, stably make the lath pile up, and this coiled material flying shear folds material device has the advantage that the reliability is high, stability is good, and it has very strong suitability.

Drawings

Fig. 1 is a schematic structural diagram of the main viewing direction of the middle coiled material flying shear stacking device of the utility model.

Fig. 2 is the structural schematic diagram of the overlooking direction of the middle coiled material flying shear stacking device of the utility model.

Fig. 3 is a schematic structural view of the material stop mechanism of the present invention.

Fig. 4 is a schematic structural view of the main viewing direction of the stacking machine of the present invention.

Fig. 5 is a schematic structural view of the middle stacking machine in the overlooking direction of the present invention.

Detailed Description

As shown in fig. 1 and fig. 3, the coiled material flying shear stacking device described in the present invention comprises an uncoiler 1, a leveler 2, a film laminating machine 3, a flying shear 4, and a stacking machine 5, which are sequentially arranged side by side from right to left, and for achieving the purpose of the present invention, the present invention further comprises a material blocking mechanism 6, wherein the stacking machine 5 is provided with a stacking cavity 51, the material blocking mechanism 6 comprises a positioning frame 61, an elastic buffer component 62, and a material blocking plate 63, the positioning frame 61 is arranged on the stacking machine 5, the elastic buffer component 62 is arranged on the positioning frame 61, and the movable end of the elastic buffer component 62 faces the output end of the flying shear 4, the material blocking plate 63 is arranged on the movable end of the elastic buffer component 62, and the material blocking plate 63 is located in the stacking cavity 51.

The coiled material flying shear stacking device can automatically perform uncoiling, leveling, film coating, flying shear and stacking, has high automation, and can reduce the labor intensity of workers.

By providing the stacking chamber 51 on the stacker 5, this helps to improve the accuracy and stability of the stacking of the slats, and thus helps to improve the stacking quality.

Because stock stop 6 includes locating rack 61, elastic buffer subassembly 62, striker plate 63, through the setting of elastic buffer subassembly 62, can take place elastic displacement when striker plate 63 strikes.

And because the material baffle 63 is arranged in the material stacking cavity 51, the laths entering the material stacking cavity 51 can be limited by the material baffle 63, so that the laths can accurately fall into the material stacking cavity 51.

And when the laths impact on the material baffle 63, the elastic buffer effect on the laths can be well achieved, so that the probability of deformation and damage of the laths can be greatly reduced, and the processing quality of the coiled material is improved.

Simultaneously, this coiled material flying shear folds material device's overall structure still is fairly simple, and it can reliably, stably make the lath pile up, and this coiled material flying shear folds material device has the advantage that the reliability is high, stability is good, and it has very strong suitability.

As shown in fig. 1 and fig. 2, in an actual manufacturing process, two stackers 5 may be provided, and the two stackers 5 are arranged side by side in the left-right direction, and an input port of the stacker 5 on the left side is higher than a top surface of the stacker 5 on the right side. The right side of the stacker 5 on the right side is provided with a first conveying belt 10 which is transversely arranged, and the output end of the first conveying belt 10 faces the input port of the stacker 5 on the right side. The right side of the stacker 5 on the left side is provided with a second conveying belt 20 which is transversely arranged, the second conveying belt 20 is arranged on the top surface of the stacker 5 on the right side, and the output end of the second conveying belt 20 faces the input port of the stacker 5 on the left side. The right side of the second conveyor belt 20 is provided with a third conveyor belt 30 which is obliquely arranged in a left-high-right direction, and the third conveyor belt 30 is positioned above the first conveyor belt 10. The left side of the output end of the flying shear 4 is provided with a fourth conveying belt 40, the left end of the fourth conveying belt 40 can swing up and down under the driving of a driving cylinder 50, and the left end of the fourth conveying belt 40 can swing to the outer side of the right end of the first conveying belt 10 and the outer side of the right side of the third conveying belt 30 respectively.

This serves the purpose of stacking the strips in batches, so that when one of the stackers 5 is unloaded, the associated processing can be continued without turning off the unwinder 1, the evener 2, the laminator 3, the flying shear 4, which contributes to an increase in the efficiency of the processing.

As shown in fig. 1 and 4, the stacker 5 is provided with a guide rail bar 52 and an adjusting screw 53 which are arranged transversely, and the positioning frame 61 is slidably arranged on the guide rail bar 52 and enables the positioning frame 61 to be screwed with the adjusting screw 53. The guide rail bar 52 is provided to position and guide the positioning frame 61. Through accommodate the lead screw 53's setting, can not only play fine positioning action to locating rack 61, can also play the purpose of adjusting locating rack 61 position. And the adjusting screw 53 enables the positioning frame 61 to do reciprocating motion on the guide rail strip 52 far away from and close to the output end of the flying shear 4, so that the limiting and buffering effects on strips with different lengths can be achieved, and the application range of the coiled material flying shear stacking device can be further widened.

The adjusting screw 53 can be driven by a motor or can be rotated by a hand wheel. Both of these two ways can play a good role in regulation.

As shown in fig. 3, the elastic buffer assembly 62 includes a transverse shaft 621, a left spring 622, and a right spring 623, the middle portion of the transverse shaft 621 is slidably inserted into the positioning frame 61, the striker plate 63 is connected to the right end of the transverse shaft 621, the right spring 623 is disposed between the striker plate 63 and the positioning frame 61, and the two ends of the right spring 623 respectively elastically press against the striker plate 63 and the positioning frame 61, the left spring 622 is sleeved on the left end of the transverse shaft 621, the left end of the transverse shaft 621 is provided with a limit stop ring 624, and the two ends of the left spring 622 respectively press against the limit stop ring 624 and the positioning frame 61. This elasticity buffering subassembly 62's structure is very simple reliable, and this can not only make striker plate 63 realize the spacing effect of elasticity, can also make striker plate 63 play the effect that elasticity resets to can reduce the vibrations of stacker 5, and then help further improving this coiled material flying shear to fold the reliability of expecting the device.

As shown in fig. 3, a connecting portion 625 is provided on a right end of the transverse shaft 621, and the connecting portion 625 is fixed on the striker plate 63 by a set screw 626. Through adopting the screw connection, can conveniently dismantle striker plate 63 to help improving the convenience of maintaining.

As shown in fig. 3, two left springs 622 and two transverse shafts 621 are provided, the middle portions of the two transverse shafts 621 are slidably inserted into the positioning frame 61, the striker plate 63 is connected to the right ends of the two transverse shafts 621, the two left springs 622 are respectively sleeved on the left ends of the two transverse shafts 621, the left ends of the two transverse shafts 621 are respectively provided with a limit stop ring 624, the two limit stop rings 624 are respectively pressed against the corresponding left springs 622, and the right spring 623 is disposed between the two transverse shafts 621. Through the setting of two left springs 622 and two horizontal axles 621, can not only further improve striker plate 63 installation positioning's stability and reliability, can also further improve the accuracy and the stability that striker plate 63 removed to help further improving this coiled material flying shear stack device's reliability.

The stop ring 624 can be connected to the transverse shaft 621 via a locking screw 627, and the specific assembly structure is as follows: as shown in fig. 3, a locking screw 627 is inserted through the middle of the stopper ring 624, and a threaded end of the locking screw 627 is screwed onto the left end surface of the transverse shaft 621. Therefore, the limiting stop ring 624 can be well limited, and the elasticity of the left spring 622 can be adjusted, so that the reliability and the applicability of the coiled material flying shear stacking device can be further improved.

As shown in fig. 3, a jacking cylinder 610 is disposed on the left surface of the positioning frame 61, and a piston rod 601 of the jacking cylinder 610 passes through the positioning frame 61 and is disposed on the right side of the positioning frame 61. Through the setting of roof pressure cylinder 610, can use the piston rod 601 of roof pressure cylinder 610 to top and strike striker plate 63, just so can beat the action of neat to the lath that piles up together through striker plate 63 to help further improving this coiled material flying shear stack device's suitability.

As shown in fig. 3, a left collar 620 is arranged on the right surface of the positioning frame 61, a right collar 630 is arranged on the left surface of the striker plate 63, the left end and the right end of the right spring 623 are respectively embedded in the left collar 620 and the right collar 630, and the piston rod 601 penetrates through the right spring 623. The right spring 623 can be well limited by the left lantern ring 620 and the right lantern ring 630, so that the stability and reliability of installation and positioning of the right spring 623 are improved. By inserting the piston rod 601 into the right spring 623, a more stable and reliable pressing action can be achieved, which helps to further improve the stability and reliability of the movement of the striker plate 63.

As shown in fig. 1 and 3, the positioning frame 61 includes a longitudinal plate 611, a transverse plate 612, and a connecting member 613, the transverse plate 612 is disposed on the left surface of the longitudinal plate 611, the bottom of the connecting member 613 is connected to the top of the longitudinal plate 611 and the top of the transverse plate 612, respectively, the transverse shaft 621 penetrates through the longitudinal plate 611, and the connecting member 613 is connected to the stacker 5. The spacer 61 has a very simple structure, which contributes to an improvement in the convenience of manufacture. The transverse plate 612 can be arranged to reinforce the structural strength of the positioning frame 61.

As shown in fig. 1 and 3, when the guide rail bar 52 and the adjustment screw 53 are used in the stacker 5, the other components are assembled as follows: the connecting piece 613 is slidably engaged with the guide rail bar 52, and the longitudinal plate 611 is threadedly engaged with the adjusting screw 53. This way the need for adjustment can be met well.

As shown in fig. 1 and 3, in order to improve the reliability of screwing the adjustment screw 53 to the longitudinal plate 611, a screwing sleeve 531 is fitted to the longitudinal plate 611, and the screwing sleeve 531 is screwed to the adjustment screw 53.

In an actual manufacturing process, a plurality of transverse plates 612 may be provided. This can serve the purpose of improving the structural strength of the spacer 61.

As shown in fig. 3, a limiting sleeve 614 is disposed on the longitudinal plate 611, and the transverse shaft 621 is slidably disposed in the limiting sleeve 614. Thus, the stability and reliability of the installation and positioning of the transverse shaft 621 can be further improved, and the stability and reliability of the action of the striker plate 63 can be further improved.

As shown in fig. 3, a soft plate 631 is provided on the right surface of the striker plate 63. The soft plate 631 can further reduce damage caused by collision of the strip, thereby further improving the reliability of the coil flying shear stacking device.

The soft plate 631 is made of plastic or rubber. The soft plate 631 is fixed on the striker plate 63 by gluing.

As shown in fig. 1, 2, 4 and 5, the stacker 5 includes a frame 54, a front blocking frame 55, a rear blocking frame 56, and a lifting and receiving frame 57, the front blocking frame 55 and the rear blocking frame 56 are arranged on the frame 54 side by side in the front-rear direction, a stacking chamber 51 is formed between the front blocking frame 55 and the rear blocking frame 56, the lifting and receiving frame 57 is arranged below the stacking chamber 51, and the positioning frame 61 is arranged on the frame 54. The arrangement of the front blocking frame 55 and the rear blocking frame 56 can limit the front and the rear of the batten. Through the setting of lift material receiving frame 57, can conveniently connect the lath to and make the lath pile together better, this can further improve the quality that the lath was piled up, and this stacker 5's structure is very simple reliable.

The lifting material receiving frame 57 is a lifting material receiving structure on the existing material stacking machine. Therefore, the purpose of lifting and receiving materials can be met.

Claims (10)

1. The utility model provides a coiled material flying shear folds material device, includes from right side to left side in proper order and arranges side by side decoiler (1), evener (2), laminating machine (3), flying shear (4), fold material machine (5), its characterized in that: still include stock stop (6), wherein be equipped with on folding material machine (5) and fold material chamber (51), stock stop (6) are including locating rack (61), elastic buffer subassembly (62), striker plate (63), locating rack (61) set up on folding material machine (5), elastic buffer subassembly (62) set up on locating rack (61) to the output of the expansion end orientation flying shear (4) that makes elastic buffer subassembly (62), striker plate (63) set up on the expansion end of elastic buffer subassembly (62), and make striker plate (63) be located and fold material chamber (51).

2. The coil flying shear stacking device as claimed in claim 1, wherein: the stacking machine (5) is respectively provided with a guide rail bar (52) and an adjusting screw rod (53) which are transversely arranged, and the positioning frame (61) is arranged on the guide rail bar (52) in a sliding manner and enables the positioning frame (61) to be in threaded connection with the adjusting screw rod (53).

3. The coil flying shear stacking device as claimed in claim 1, wherein: elastic buffer subassembly (62) include horizontal axle (621), left spring (622), right spring (623), the middle part of horizontal axle (621) slides and wears to arrange in on locating rack (61), striker plate (63) meet with the right-hand member of horizontal axle (621), right spring (623) are arranged between striker plate (63) and locating rack (61) to make the both ends of right spring (623) elasticity roof pressure respectively on striker plate (63), locating rack (61), left side spring (622) suit is on the left end of horizontal axle (621), be equipped with spacing fender ring (624) on the left end of horizontal axle (621), and make the both ends elasticity roof pressure respectively of left spring (622) on spacing fender ring (624), locating rack (61).

4. The coil flying shear stacking device as claimed in claim 3, wherein: the left spring (622) and the transverse shafts (621) are two, the striker plate (63) is connected with the right ends of the two transverse shafts (621), and the right spring (623) is arranged between the two transverse shafts (621).

5. The coil flying shear stacking device as claimed in claim 4, wherein: and a jacking cylinder (610) is arranged on the left surface of the positioning frame (61), and a piston rod (601) of the jacking cylinder (610) penetrates through the positioning frame (61) and then is arranged on the right side of the positioning frame (61).

6. The coil flying shear stacking device as claimed in claim 5, wherein: the right surface of locating rack (61) is equipped with left lantern ring (620), be equipped with right lantern ring (630) on the left surface of striker plate (63), the left and right ends of right spring (623) are inlayed respectively in left lantern ring (620), right lantern ring (630), piston rod (601) are worn to arrange in right spring (623).

7. The coil flying shear stacking device as claimed in claim 4, wherein: the positioning frame (61) comprises a longitudinal plate (611), a transverse plate (612) and a connecting piece (613), wherein the transverse plate (612) is arranged on the left surface of the longitudinal plate (611), the bottom of the connecting piece (613) is respectively connected with the top of the longitudinal plate (611) and the top of the transverse plate (612), the transverse shaft (621) penetrates through the longitudinal plate (611), and the connecting piece (613) is connected to the stacking machine (5).

8. The coil flying shear stacking device as claimed in claim 7, wherein: a limiting sleeve (614) penetrates through the longitudinal plate (611), and the transverse shaft (621) penetrates through the limiting sleeve (614) in a sliding mode.

9. The coil flying shear stacking device as claimed in claim 1, wherein: and a soft plate (631) is arranged on the right surface of the material baffle plate (63).

10. The coil flying shear stacking device as claimed in claim 1, wherein: fold material machine (5) and connect work or material rest (57) including frame (54), preceding fender frame (55), back fender frame (56), go up and down, preceding fender frame (55), back fender frame (56) set up side by side on frame (54) around, keep off in the front and be formed with between frame (55) and back fender frame (56) and fold material chamber (51), go up and down to connect work or material rest (57) to set up in the below of folding material chamber (51), locating rack (61) sets up on frame (54).

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