CN111217154A

CN111217154A - Repositioning device for parting strips

Info

Publication number: CN111217154A
Application number: CN202010141351.XA
Authority: CN
Inventors: 傅昌明; 陈玉山; 齐文龙; 邓孟
Original assignee: Foshan Fabiao Extrusion Machinery Technology Co ltd
Current assignee: Foshan Fabiao Extrusion Machinery Technology Co ltd
Priority date: 2020-03-04
Filing date: 2020-03-04
Publication date: 2020-06-02
Anticipated expiration: 2040-03-04
Also published as: CN111217154B

Abstract

The invention relates to a repositioning device for parting beads, wherein a first pushing mechanism and a second pushing mechanism are arranged on a chassis, support components are arranged on two sides of the chassis, the first pushing mechanism comprises a first pushing rod, a first positioning frame and a first telescopic piece, the first pushing rod is uniformly distributed on two sides of the first positioning frame, the second pushing mechanism comprises a second pushing rod, a second positioning frame and a second telescopic piece, the second pushing rod is uniformly distributed on two sides of the second positioning frame, the first pushing rod and the second pushing rod are both higher than the upper side of the support components, the support components are higher than the upper side of the second positioning frame, the first pushing rod and the second pushing rod are arranged at intervals, the first positioning frame is driven to horizontally move by the first telescopic piece, the second positioning frame is driven to horizontally move by the second telescopic piece, the first positioning frame and the second positioning frame move back to back or opposite to back, and the first pushing rod and the second pushing rod press the parting beads tightly, and a plurality of parting beads are uniformly and neatly arranged.

Description

Repositioning device for parting strips

Technical Field

The invention relates to the field of aluminum processing equipment, in particular to a repositioning device for parting strips.

Background

The prior aluminum bar needs to be supported and stacked into a plurality of layers by means of parting strips and then is carried, each layer of stacked aluminum bars needs to be stacked at intervals, a plurality of equally spaced parting strips are mainly adopted to separate each layer of aluminum bars, the parting strips are firstly placed on a bracket in advance before each layer of aluminum bars are stacked, then the aluminum bars are stacked, the aluminum bars are stacked in front of a furnace and are unstacked after the furnace, so that the conveying efficiency is conveniently improved, the plurality of equally spaced parting strips are uniformly placed by an automatic overhead travelling crane, when the aluminum bars need to be unstacked and are independently conveyed, two conveying belts are arranged, the conveying belts and the parting strips are arranged in parallel and are perpendicular to the aluminum bars, the automatic overhead travelling crane crosses the plurality of equally spaced parting strip conveying belts and then puts down, so that the aluminum bars are placed on the conveying belts and are continuously conveyed, the parting strips are separated from the aluminum bars, but the position deviation is easy to occur after the parting strips are put down, so that the phenomenon, inconvenient it is got again and is taken, and the manual work is difficult to the adjustment, and untidy and inconvenient the stacking of parting bead of slope just can influence the stability of aluminium bar stack, reduction production safety.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a repositioning device for aligning parting strips.

The technical scheme adopted by the invention is as follows:

a repositioning device for a parting stop comprises a chassis, wherein a first pushing mechanism and a second pushing mechanism which are connected with the chassis in a sliding manner are arranged on the chassis, supporting components for supporting the parting stop are arranged on two sides of the chassis, the first pushing mechanism comprises a first pushing rod, a first positioning frame and a first telescopic piece for driving the first positioning frame to move horizontally, and the first pushing rod is uniformly distributed on two sides of the first positioning frame and vertically extends out of the top of the first positioning frame;

the second pushing and pressing mechanism is arranged between the first pushing and pressing rods on the two sides and comprises a second pushing and pressing rod, a second positioning frame and a second telescopic piece driving the second positioning frame to move horizontally, the second pushing and pressing rod is evenly distributed on the two sides of the second positioning frame and vertically stretches out of the top of the second positioning frame, the second positioning frame is arranged above the first positioning frame, the first pushing and pressing rod and the second pushing and pressing rod are both higher than the upper side of the supporting assembly, the supporting assembly is higher than the upper side of the second positioning frame, the first pushing and pressing rod and the second pushing and pressing rod are arranged at intervals, the first positioning frame and the second positioning frame move in a backward or opposite mode, and the first pushing and pressing rod and the second pushing and pressing rod press and position the parting beads in a pressing mode.

Preferably, the underframe comprises a middle frame and side frames symmetrically arranged on two sides of the middle frame, the middle frame and the side frames respectively comprise a lower cross bar, an upper cross bar, longitudinal bars and vertical bars, the two lower cross bars and the two longitudinal bars are sequentially connected with a rectangular frame structure, the vertical bars are vertically arranged at the joints of the lower cross bars and the longitudinal bars, the upper cross bar is arranged right above the lower cross bars and is fixedly connected with the tops of the vertical bars, the support component is arranged on the upper sides of the upper cross bars and comprises backing blocks, the long round bars and fixing seats, the fixing seats are symmetrically arranged at two ends of the long round bars, the backing blocks are uniformly arranged between the fixing seats at the two ends, the tops of the backing blocks are provided with arc notches, the surfaces of the arc notches are attached to the side surfaces of the long round bars, the bottoms of the vertical bars are provided with support leg components, the support leg components comprise fixing cushion blocks, support, the stud penetrates through the supporting block, nuts are arranged on two sides of the supporting block, and the nuts are connected with the stud through threads.

Preferably, the first positioning frame comprises two first moving rods and two first connecting rods for connecting the two first moving rods into a rectangular frame structure, a first roller seat is fixedly arranged on the underframe, a first concave wheel and a first pressing wheel are arranged on the first roller seat, the first concave wheel and the first pressing wheel are both connected with the first roller seat through bearings, the first pressing wheel is arranged above the first concave wheel, a first guide convex rod is arranged at the bottom of the first moving rod and embedded in a notch of the first concave wheel, the first moving rod is arranged between the first pressing wheel and the first concave wheel, and the top of the first moving rod is attached to the lower side of the first pressing wheel;

the second positioning frame comprises two second moving rods and two second connecting rods which connect the two second moving rods into a rectangular frame structure, a second roller seat is fixedly arranged on the underframe, a second concave wheel and a second pressing wheel are arranged on the second roller seat, the second concave wheel and the second pressing wheel are both connected with the second roller seat through bearings, the second pressing wheel is arranged above the second concave wheel, a second guide convex rod is arranged at the bottom of the second moving rod and embedded in a concave opening of the second concave wheel, the second moving rod is arranged between the second pressing wheel and the second concave wheel, the top of the second moving rod is attached to the lower side of the second pressing wheel, and the first roller seat and the second roller seat are both fixed on the longitudinal rod.

Preferably, the first extensible member and the second extensible member are symmetrically arranged on the underframe, the first extensible member comprises a first cylinder, a second cylinder and a first supporting seat fixed on the underframe, the first cylinder is fixed on the first supporting seat, the output end of the second telescopic piece is fixedly connected with the output end of a second cylinder, a first reinforcing rod is connected between two first moving rods, the second cylinder is connected with a lower clamping block, the lower clamping block is connected with the first reinforcing rod, the second telescopic piece comprises a third cylinder, a fourth cylinder and a second supporting seat fixed on the bottom frame, the third cylinder is fixed on the second supporting seat, and the output end of the second telescopic piece is fixedly connected with the output end of a fourth cylinder, a second reinforcing rod is connected between the two second moving rods, an upper clamping block is connected with the fourth cylinder and connected with the second reinforcing rod, and the first telescopic piece and the second telescopic piece are both fixed on the longitudinal rod.

Preferably, the side portion of the lower fixture block is provided with a first notch which is arranged in a 7 shape and welded with the side surface and the top surface of the first reinforcing rod, and the top portion of the upper fixture block is provided with a second notch which is arranged in an L shape and welded with the side surface and the bottom surface of the second reinforcing rod.

Preferably, the fixing seat comprises an upper concave block and a lower concave block, the upper concave block is connected with the lower concave block through a screw, and the long round rod is fixed between the upper concave block and the lower concave block.

Preferably, the top of the first pushing rod is arranged in a truncated cone shape, a first mounting seat is arranged on the outer side of the bottom of the first pushing rod, the first mounting seat is fixedly connected with the first positioning frame, a first screw rod transversely penetrates through the side of the first pushing rod, the first screw rod is connected with the first mounting seat through threads, one end of the first screw rod abuts against the side face of the first pushing rod, the top of the second pushing rod is arranged in a truncated cone shape, a second mounting seat is arranged on the outer side of the bottom of the second pushing rod, the second mounting seat is fixedly connected with the second positioning frame, a second screw rod transversely penetrates through the side of the second pushing rod, the second screw rod is connected with the second mounting seat through threads, and one end of the second screw rod abuts against the side face of the second pushing rod.

The invention has the beneficial effects that:

this a relocation device for parting bead drives first locating frame horizontal migration through first extensible member, drives second locating frame horizontal migration through the second extensible member, makes first locating frame and second locating frame motion dorsad or opposite motion, and then makes first bulldoze the pole and bulldoze the pole with the second and compress tightly the parting bead to make a plurality of parting beads uniform and neatly arrange.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged schematic view of a point a in fig. 1.

Fig. 3 is a schematic structural view of the chassis.

Fig. 4 is a schematic structural view of the first pressing mechanism.

Fig. 5 is a schematic structural view of the second pressing mechanism.

Fig. 6 is a schematic structural view of the division bar mounted on the device.

Fig. 7 is an enlarged schematic view at B in fig. 6.

Fig. 8 is a top view of the division bar mounted on the device.

Fig. 9 is a front view of the division bar mounted on the device.

Fig. 10 is an enlarged schematic view at C in fig. 9.

Fig. 11 is an enlarged schematic view at D in fig. 9.

Fig. 12 is a left side view of the division bar mounted on the device.

Fig. 13 is an enlarged schematic view at E in fig. 12.

Fig. 14 is a schematic structural diagram of the lower fixture block.

Fig. 15 is a schematic structural view of an upper latch.

In the figure: 1. a chassis; 2. a first pressing mechanism; 3. a second pressing mechanism; 4. a support assembly; 5. a first push rod; 6. a first positioning frame; 7. a first telescoping member; 8. a second push rod; 9. a second positioning frame; 10. a second telescoping member; 11. a middle frame; 12. a side frame; 13. a lower cross bar; 14. an upper cross bar; 15. a longitudinal bar; 16. a vertical rod; 17. a pad supporting block; 18. a long round bar; 19. a fixed seat; 20. a leg assembly; 21. fixing the cushion block; 22. a support block; 23. a stud; 24. a nut; 25. a first movable bar; 26. a first connecting rod; 27. a first roller seat; 28. a first concave wheel; 29. a first pinch roller; 30. a first guide protrusion bar; 31. a second movable bar; 32. a second connecting rod; 33. a second roller seat; 34. a second concave wheel; 35. a second pinch roller; 36. a second guide cam; 37. a first cylinder; 38. a second cylinder; 39. a first support base; 40. a first reinforcing bar; 41. a lower clamping block; 42. a third cylinder; 43. a fourth cylinder; 44. a second support seat; 45. a second reinforcing bar; 46. an upper clamping block; 47. a first notch; 48. a second recess; 49. a concave block is arranged; 50. a concave block; 51. a first mounting seat; 52. a first screw; 53. a second mounting seat; 54. a second screw; 55. and (4) a parting strip.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-15, the present invention provides a technical solution: a repositioning device for parting strips, comprising a base frame 1, characterized in that: the chassis 1 is provided with a first pushing mechanism 2 and a second pushing mechanism 3 which are connected with the chassis in a sliding manner, two sides of the chassis are provided with supporting components 4 for supporting the parting strips 55, the first pushing mechanism 2 comprises a first pushing rod 5, a first positioning frame 6 and a first telescopic piece 7 for driving the first positioning frame 6 to move horizontally, and the first pushing rod 5 is uniformly distributed on two sides of the first positioning frame 6 and vertically extends out of the top of the first positioning frame 6;

the second pushing mechanism 3 is arranged between the first pushing rods 5 on the two sides, and comprises a second pushing rod 8, a second positioning frame 9 and a second telescopic piece 10 for driving the second positioning frame 9 to horizontally move, the second pushing rod 8 is uniformly distributed on the two sides of the second positioning frame 9 and vertically extends out of the top of the second positioning frame 9, the second positioning frame 9 is arranged above the first positioning frame 6, the first pushing rod 5 and the second pushing rod 8 are both higher than the upper side of the supporting component 4, the supporting component 4 is higher than the upper side of the second positioning frame 9, the first pushing rod 5 and the second pushing rod 8 are arranged at intervals, the first positioning frame 6 and the second positioning frame 9 move in a backward or opposite direction, and the first pushing rod 5 and the second pushing rod 8 are enabled to compress and position the parting strips 55.

In order to conveniently adjust the length of the underframe 1 and further adapt to the arrangement of the parting beads 55 with different numbers, in the embodiment, preferably, the underframe 1 comprises a middle frame 11 and side frames 12 symmetrically arranged at two sides of the middle frame 11, the assembly of the underframe 1 is facilitated by arranging the parting beads in three sections, the production space is reasonably utilized, and the first pushing mechanism 2 and the second pushing mechanism 3 can be more stably installed, each of the middle frame 11 and the side frames 12 comprises a lower cross bar 13, an upper cross bar 14, longitudinal bars 15 and vertical bars 16, the two lower cross bars 13 and the two longitudinal bars 15 are sequentially connected with a rectangular frame structure, the vertical bars 16 are vertically arranged at the joints of the lower cross bars 13 and the longitudinal bars 15, the upper cross bar 14 is arranged right above the lower cross bar 13 and is fixedly connected to the tops of the vertical bars 16, the supporting component 4 is arranged at the upper side of the upper cross bar 14 and comprises a backing block 17, a long round bar 18 and a fixed seat 19, the fixed, the pad supporting blocks 17 are evenly arranged between the fixing seats 19 at the two ends, arc-shaped notches are formed in the tops of the pad supporting blocks, the surfaces of the arc-shaped notches are attached to the side faces of the long round rods 18, the bottom of each vertical rod 16 is provided with a supporting leg assembly 20, each supporting leg assembly 20 comprises a fixing supporting block 21, a supporting block 22 and a stud 23, the fixing supporting blocks 21 are fixedly connected with the studs 23, the stud 23 penetrates through the supporting blocks 22 and is connected with the ground through screws, nuts 24 are arranged on the two sides of the supporting blocks 22, the nuts 24 are connected with the studs 23 through threads, the purpose is to conveniently adjust the height of the chassis 1, and the.

In order to make the structure more stable, the first positioning frame 6 and the second positioning frame 9 move more stably and prevent the deviation thereof, in this embodiment, preferably, the first positioning frame 6 includes two first moving rods 25 and two first connecting rods 26 connecting the two first moving rods 25 into a rectangular frame structure, a first roller seat 27 is fixedly disposed on the bottom frame 1, a first concave wheel 28 and a first pressing wheel 29 are disposed on the first roller seat 27, the first concave wheel 28 and the first pressing wheel 29 are both connected with the first roller seat 27 through bearings, the first pressing wheel 29 is disposed above the first concave wheel 28, a first guiding convex rod 30 is disposed at the bottom of the first moving rod 25, the first guiding convex rod 30 is embedded in a concave opening of the first concave wheel 28, the first moving rod 25 is disposed between the first pressing wheel 29 and the first concave wheel 28, and the top thereof is attached to the lower side of the first pressing wheel 29, so as to pass through the first concave wheel 28 and the first pressing wheel 29, the first positioning frame 6 is limited to move in the Z-axis direction, the first guiding convex rod 30 is embedded in the notch of the first concave wheel 28, and the first positioning frame 6 is limited to move in the Y-axis direction, so that the first positioning frame 6 can move stably in the X-axis direction;

the second positioning frame 9 comprises two second moving rods 31 and two second connecting rods 32 connecting the two second moving rods 31 into a rectangular frame structure, a second roller seat 33 is fixedly arranged on the underframe 1, a second concave wheel 34 and a second pressure wheel 35 are arranged on the second roller seat 33, the second concave wheel 34 and the second pressure wheel 35 are both connected with the second roller seat 33 through bearings, the second pressure wheel 35 is arranged above the second concave wheel 34, a second guiding convex rod 36 is arranged at the bottom of the second moving rod 31, the second guiding convex rod 36 is embedded in a concave opening of the second concave wheel 34, the second moving rod 31 is arranged between the second pressure wheel 35 and the second concave wheel 34, the top of the second moving rod is attached to the lower side of the second pressure wheel 35, the first roller seat 27 and the second roller seat 33 are both fixed on the longitudinal rod 15, so as to limit the movement of the second positioning frame 9 in the Z-axis direction through the second concave wheel 34 and the second pressure wheel 35, and are embedded in the concave opening of the second guiding convex rod 36, the movement of the second positioning frame 9 in the Y axis direction is restricted, so that the second positioning frame 9 can move smoothly in the X axis direction.

In order to be suitable for the spacers 55 with different sizes, in this embodiment, preferably, the first telescopic element 7 and the second telescopic element 10 are symmetrically disposed on the bottom chassis 1, the first telescopic element 7 includes a first cylinder 37, a second cylinder 38 and a first supporting seat 39 fixed on the bottom chassis 1, the first cylinder 37 is fixed on the first supporting seat 39, and an output end of the first cylinder 37 is fixedly connected with an output end of the second cylinder 38, a first reinforcing rod 40 is connected between the two first moving rods 25, a lower fixture block 41 is connected with the second cylinder 38, the lower fixture block 41 is connected with the first reinforcing rod 40, the second telescopic element 10 includes a third cylinder 42, a fourth cylinder 43 and a second supporting seat 44 fixed on the bottom chassis 1, the third cylinder 42 is fixed on the second supporting seat 44, and an output end of the third cylinder 43 is fixedly connected with an output end of the fourth cylinder 43, a second reinforcing rod 45 is connected between the two second moving rods 31, fourth cylinder 43 is connected and is equipped with fixture block 46, it is connected with second anchor rod 45 to go up fixture block 46, first extensible member 7 and second extensible member 10 are all fixed in on the vertical pole 15, the purpose is through first cylinder 37 and second cylinder 38 realization two segmentation drives, realize two segmentation drives with first extensible member 7 subtend or dorsad through third cylinder 42 and fourth cylinder 43, when parting bead 55 width is great, only need one section drive, and when parting bead 55 width is less, implement the second section drive, conveniently increase the removal stroke that is used for compressing tightly, and then adapt to the parting bead 55 of different widths.

In order to further make the first positioning frame 6 and the second positioning frame 9 move more stably, in this embodiment, it is preferable that a first notch 47 is formed at a side portion of the lower fixture block 41, the first notch 47 is formed in a shape of "7" and is welded to a side surface and a top surface of the first reinforcing rod 40, a second notch 48 is formed at a top portion of the upper fixture block 46, and the second notch 48 is formed in a shape of "L" and is welded to a side surface and a bottom surface of the second reinforcing rod 45, so as to make a connection structure between the first telescopic member 7 and the first reinforcing rod 40 more stable, make a connection structure between the second telescopic member 10 and the second reinforcing rod 45 more stable, and further improve the moving stability.

In order to facilitate replacement of the long round rod 18, in this embodiment, preferably, the fixing seat 19 includes an upper concave block 49 and a lower concave block 50, the upper concave block 49 is connected with the lower concave block 50 through a screw, and the long round rod 18 is fixed between the upper concave block 49 and the lower concave block 50, so that the long round rod 18 can be taken out for replacement through separation of the upper concave block 49 and the lower concave block 50.

In order to facilitate the insertion of the division bar 55 and prevent the first pushing rod 5 from tightly pushing against the bottom of the division bar 55 to form a jam, in this embodiment, preferably, the top of the first pushing rod 5 is disposed in a truncated cone shape, and the bottom outer side of the first pushing rod is provided with a first mounting seat 51, so that the division bar 55 can be conveniently inserted along the inclined plane of the truncated cone when contacting and interfering with the first pushing rod 5, thereby increasing the insertion area and preventing the tight blocking, the first mounting seat 51 is fixedly connected with the first positioning frame 6, and the lateral part of the first mounting seat is transversely provided with a first screw 52 in a penetrating manner, the first screw 52 is connected with the first mounting seat 51 through a screw thread, and one end of the first screw abuts against the lateral surface of the first pushing rod 5, the top of the second pushing rod 8 is disposed in a truncated cone shape, and the bottom outer side of the second mounting seat 53 is disposed, so that the division bar 55 can be conveniently inserted along the inclined plane of the truncated cone when contacting and interfering with the second pushing rod 8, thereby increasing the insertion area and preventing the, and the lateral part of the second push rod 8 is transversely provided with a second screw rod 54 in a penetrating manner, the second screw rod 54 is in threaded connection with the second mounting seat 53, and one end of the second screw rod 54 is tightly pressed against the side surface of the second push rod 8, so that the height of the first push rod 5 can be conveniently adjusted by loosening the first screw rod 52, then the first screw rod 52 is locked, the first push rod 5 can be adapted to the parting strips 55 with different heights, the first push rod 5 can be conveniently replaced, the height of the second push rod 8 can be conveniently adjusted by loosening the second screw rod 54, then the second screw rod 54 is locked, the parting strips 55 with different heights are adapted, and the second push rod 8 can be conveniently replaced.

The working principle and the using process of the invention are as follows: when the piston rods of the first cylinder 37, the second cylinder 38, the third cylinder 42 and the fourth cylinder 43 are all in a contracted state, the automatic crown block supports a plurality of equally spaced parting strips 55 supporting a layer of aluminum bar together, then moves the parting strips above two conveyer belts and slowly descends, the aluminum bar is supported by the conveyer belts after being blocked by the conveyer belts, and the aluminum bar is transported along the horizontal direction, the plurality of equally spaced parting strips 55 cross the conveyer belts and fall onto the long round rod 18 of the positioning device, so as to realize the separation of the parting strips 55 and the aluminum bar, each parting strip 55 respectively falls between the adjacent first pushing rod 5 and the second pushing rod 8, and is staggered in turn, only one parting strip 55 is arranged between the adjacent two first pushing rods 5 along the direction of the first moving rod 25, then the first cylinder 37 and the third cylinder 42 respectively drive the first positioning frame 6 and the second positioning frame 9 to move backwards, when the width of the parting strips 55 is small, the second cylinder 38 and the fourth cylinder 43 further drive the first positioning frame 6 and the second positioning frame 9 to move back and forth respectively, so as to drive the first pushing rod 5 and the second pushing rod 8 to compress the parting strips 55, the first pushing rod 5 compresses two ends of the parting strips 55, the second pushing rod 8 compresses the middle parts of the parting strips 55 reversely, the parting strips are straightened to be parallel, and the parting strips 55 are uniformly arranged.

When the piston rods of the first cylinder 37, the second cylinder 38, the third cylinder 42 and the fourth cylinder 43 are all in an extended state, the automatic crown block supports a plurality of equally spaced parting beads 55 supporting a layer of aluminum bar together, then moves the aluminum bar to the upper part of the two conveyer belts and descends slowly, the aluminum bar is supported by the conveyer belts after being blocked by the conveyer belts, and the aluminum bar is transported along the horizontal direction, the plurality of equally spaced parting beads 55 cross the conveyer belts and fall onto the long round rod 18 of the positioning device, so as to realize the separation of the parting beads 55 and the aluminum bar, each parting bead 55 falls between the adjacent first pushing rod 5 and the second pushing rod 8 on the other side respectively, the parting beads are staggered in sequence, only one parting bead 55 is arranged between the adjacent two first pushing rods 5 along the direction of the first moving rod 25, then the first cylinder 37 and the third cylinder 42 drive the first positioning frame 6 and the second positioning frame 9 to move oppositely, when the width of the division bar 55 is smaller, the second cylinder 38 and the fourth cylinder 43 further drive the first positioning frame 6 and the second positioning frame 9 to move oppositely, so as to drive the first pushing rod 5 and the second pushing rod 8 to compress the division bar 55, the second pushing rod 8 compresses the middle part of the division bar 55, the first pushing rod 5 reversely compresses two ends of the division bar 55, the division bar 55 is enabled to be arranged in a parallel position, and the division bars 55 are enabled to be arranged uniformly.

When the piston rods of the first cylinder 37 and the third cylinder 42 are in a contracted state and the piston rods of the second cylinder 38 and the fourth cylinder 43 are in an extended state, the automatic crown block supports a plurality of equally spaced parting strips 55 supporting a layer of aluminum bar together, then moves the parting strips above the two conveyer belts and slowly descends, the aluminum bar is supported by the conveyer belts after being blocked by the conveyer belts and is transported along the horizontal direction, the plurality of equally spaced parting strips 55 cross the conveyer belts and then fall onto the long round rods 18 of the positioning device, so as to realize the separation of the parting strips 55 and the aluminum bar, each parting strip 55 respectively falls between the adjacent first pushing rod 5 and the second pushing rod 8, the parting strips are staggered in turn, two parting strips 55 are arranged between the adjacent two first pushing rods 5 along the direction of the first moving rod 25, then the first cylinder 37 and the third cylinder 42 respectively drive the first positioning frame 6 and the second positioning frame 9 to move back, and then drive first bulldozing pole 5 and second bulldozing pole 8 and compress tightly parting bead 55 to make a plurality of parting beads 55 arrange regularly, then second cylinder 38 and fourth cylinder 43 drive first locating frame 6 and second locating frame 9 opposite direction motion respectively, and then drive first bulldozing pole 5 and second bulldozing pole 8 and compress tightly the parting bead 55 of adjacent one side, and make a plurality of parting beads 55 and adjacent parting bead 55 arrange regularly.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A repositioning device for parting strips, comprising a base frame (1), characterized in that: the device comprises an underframe (1), a first pushing mechanism (2) and a second pushing mechanism (3) which are connected with the underframe in a sliding mode, wherein supporting components (4) used for supporting parting strips are arranged on two sides of the underframe, the first pushing mechanism (2) comprises a first pushing rod (5), a first positioning frame (6) and a first telescopic piece (7) used for driving the first positioning frame (6) to move horizontally, and the first pushing rod (5) is uniformly distributed on two sides of the first positioning frame (6) and vertically extends out of the top of the first positioning frame (6);

the second pushing and pressing mechanism (3) is arranged between the first pushing and pressing rods (5) at two sides, and comprises a second pushing rod (8), a second positioning frame (9) and a second telescopic piece (10) for driving the second positioning frame (9) to horizontally move, the second push rods (8) are uniformly arranged at two sides of the second positioning frame (9), and vertically extends out of the top of a second positioning frame (9), the second positioning frame (9) is arranged above the first positioning frame (6), the first pushing rod (5) and the second pushing rod (8) are both higher than the upper side of the supporting component (4), the supporting component (4) is higher than the upper side of the second positioning frame (9), the first pushing rod (5) and the second pushing rod (8) are arranged at intervals, the first positioning frame (6) and the second positioning frame (9) move back to back or oppositely, so that the first pushing rod (5) and the second pushing rod (8) compress and position the parting strips.

2. A repositioning device for a division bar according to claim 1, wherein: the chassis (1) comprises a middle frame (11) and lateral frames (12) symmetrically arranged on two sides of the middle frame (11), wherein each of the middle frame (11) and the lateral frames (12) comprises a bottom cross rod (13), an upper cross rod (14), longitudinal rods (15) and vertical rods (16), the two bottom cross rods (13) and the two longitudinal rods (15) are sequentially connected with a rectangular frame structure, the vertical rods (16) are vertically arranged at the joints of the bottom cross rods (13) and the longitudinal rods (15), the upper cross rods (14) are arranged right above the bottom cross rods (13) and are fixedly connected to the tops of the vertical rods (16), the supporting components (4) are arranged on the upper sides of the upper cross rods (14) and comprise pad supporting blocks (17), long round rods (18) and fixing seats (19), the fixing seats (19) are symmetrically arranged at two ends of the long round rods (18), and the pad supporting blocks (17) are uniformly arranged between the fixing seats (19) at two ends, and its top is equipped with the arc recess, the surface of arc recess is laminated with the side of long round bar (18), the bottom of montant (16) is equipped with leg assembly (20), leg assembly (20) are including fixed cushion (21), supporting shoe (22) and double-screw bolt (23), fixed cushion (21) and double-screw bolt (23) fixed connection, and pass through screwed connection with ground, double-screw bolt (23) pass supporting shoe (22), the both sides of supporting shoe (22) are equipped with nut (24), nut (24) pass through threaded connection with double-screw bolt (23).

3. A repositioning device for a division bar according to claim 2, wherein: the first positioning frame (6) comprises two first moving rods (25) and two first connecting rods (26) which connect the two first moving rods (25) into a rectangular frame structure, a first roller seat (27) is fixedly arranged on the underframe (1), a first concave wheel (28) and a first pressing wheel (29) are arranged on the first roller seat (27), the first concave wheel (28) and the first pressure wheel (29) are connected with the first roller seat (27) through bearings, the first pressing wheel (29) is arranged above the first concave wheel (28), the bottom of the first moving rod (25) is provided with a first guide convex rod (30), the first guide convex rod (30) is embedded in the notch of the first concave wheel (28), the first moving rod (25) is arranged between the first pressing wheel (29) and the first concave wheel (28), and the top of the first moving rod is attached to the lower side of the first pressing wheel (29);

the second positioning frame (9) comprises two second moving rods (31) and two second connecting rods (32) connecting the two second moving rods (31) into a rectangular frame structure, a second roller seat (33) is fixedly arranged on the underframe (1), a second concave wheel (34) and a second pressing wheel (35) are arranged on the second roller seat (33), the second concave wheel (34) and the second pressing wheel (35) are both connected with the second roller seat (33) through bearings, the second pressing wheel (35) is arranged above the second concave wheel (34), a second guide convex rod (36) is arranged at the bottom of the second moving rod (31), the second guide convex rod (36) is embedded in a notch of the second concave wheel (34), the second moving rod (31) is arranged between the second pressing wheel (35) and the second concave wheel (34), and the top of the second moving rod is attached to the lower side of the second pressing wheel (35), the first roller seat (27) and the second roller seat (33) are both fixed on the longitudinal rod (15).

4. A repositioning device for a division bar according to claim 2, wherein: the first telescopic part (7) and the second telescopic part (10) are symmetrically arranged on the chassis (1), the first telescopic part (7) comprises a first air cylinder (37), a second air cylinder (38) and a first supporting seat (39) fixed on the chassis (1), the first air cylinder (37) is fixed on the first supporting seat (39), the output end of the first air cylinder is fixedly connected with the output end of the second air cylinder (38), a first reinforcing rod (40) is connected between the two first moving rods (25), a lower clamping block (41) is connected with the second air cylinder (38), the lower clamping block (41) is connected with the first reinforcing rod (40), the second telescopic part (10) comprises a third air cylinder (42), a fourth air cylinder (43) and a second supporting seat (44) fixed on the chassis (1), and the third air cylinder (42) is fixed on the second supporting seat (44), and the output end of the second movable rod is fixedly connected with the output end of a fourth cylinder (43), a second reinforcing rod (45) is connected and arranged between the second movable rods (31), an upper clamping block (46) is connected and arranged on the fourth cylinder (43), the upper clamping block (46) is connected with the second reinforcing rod (45), and the first telescopic part (7) and the second telescopic part (10) are fixed on the longitudinal rod (15).

5. A repositioning device for a division bar according to claim 4, wherein: the side part of the lower clamping block (41) is provided with a first notch (47), the first notch (47) is arranged in a 7 shape and welded with the side surface and the top surface of the first reinforcing rod (40), the top part of the upper clamping block (46) is provided with a second notch (48), and the second notch (48) is arranged in an L shape and welded with the side surface and the bottom surface of the second reinforcing rod (45).

6. A repositioning device for a division bar according to claim 2, wherein: the fixing seat (19) comprises an upper concave block (49) and a lower concave block (50), the upper concave block (49) is connected with the lower concave block (50) through a screw, and the long round rod (18) is fixed between the upper concave block (49) and the lower concave block (50).

7. A repositioning device for a division bar according to claim 1, wherein: the top of the first pushing rod (5) is arranged in a truncated cone shape, a first installation seat (51) is arranged on the outer side of the bottom of the first pushing rod, the first installation seat (51) is fixedly connected with the first positioning frame (6), a first screw rod (52) transversely penetrates through the side portion of the first pushing rod, the first screw rod (52) is connected with the first installation seat (51) through threads, one end of the first installation seat is tightly propped against the side surface of the first pushing rod (5), the top of the second pushing rod (8) is arranged in a truncated cone shape, a second installation seat (53) is arranged on the outer side of the bottom of the second pushing rod, the second installation seat (53) is fixedly connected with the second positioning frame (9), a second screw rod (54) transversely penetrates through the side portion of the second pushing rod, the second screw rod (54) is connected with the second installation seat (53) through threads, and one end of the second screw rod is tightly propped against the side surface of the second pushing rod (.