CN219924700U

CN219924700U - Clamping and feeding shearing machine of slitting machine

Info

Publication number: CN219924700U
Application number: CN202320760488.2U
Authority: CN
Inventors: 黄琦
Original assignee: Foshan Kesheng Machinery Co ltd
Current assignee: Foshan Kesheng Machinery Co ltd
Priority date: 2023-04-10
Filing date: 2023-04-10
Publication date: 2023-10-31
Anticipated expiration: 2033-04-10

Abstract

The utility model discloses a clamping and conveying shearing machine of a slitting machine, and relates to the technical field of machining equipment. The utility model comprises a driving mechanism, a cutting mechanism is arranged right behind the driving mechanism, cutter mechanisms are distributed on the periphery of the cutting mechanism at equal intervals, adjusting mechanisms are symmetrically distributed on the rear side above the driving mechanism in a left-right mode, and the rear side of the lower portion of the adjusting mechanism is connected with the front side of the upper portion of the cutting mechanism. The utility model is convenient for a user to adjust the heights of the blade and the driving roller simultaneously by arranging the driving mechanism, the slitting mechanism and the adjusting mechanism, and is convenient for the user to adjust the blade and the driving roller to the same height, and is convenient for the user to split the blade and replace any damaged blade by arranging the cutter mechanism.

Description

Clamping and feeding shearing machine of slitting machine

Technical Field

The utility model belongs to the technical field of machining equipment, and particularly relates to a clamping and conveying shearing machine of a slitting machine.

Background

The mechanical processing equipment refers to a mechanical device for material processing, the appearance of the mechanical processing equipment gradually replaces manual work to process materials, the processing efficiency of the materials is greatly improved, the strip splitting machine belongs to one of the mechanical processing equipment, the strip splitting machine is used for uncoiling, longitudinally shearing and rolling a metal coiled plate into a coiled strip with a required width, and the strip splitting machine consists of uncoiling, material guiding and positioning, clamping and conveying shearing machines, coiling and the like, wherein the clamping and conveying shearing machines are mainly used for conveying coiled materials and splitting the coiled materials.

Through retrieving, disclose a multi-functional metal slitting machine in patent publication No. CN111570898B, belong to machining equipment technical field, including mounting bracket, blowing subassembly, level and flatten subassembly, slitting subassembly, deckle edge flattening subassembly and two surplus limit garbage collection subassemblies, the blowing subassembly sets up the side at the mounting bracket, level and flatten the subassembly setting at the top of mounting bracket, level and flatten the subassembly and correspond the setting with the blowing subassembly, the slitting subassembly includes dividing condition and slitting adjustment piece, the slitting setting is at the top of mounting bracket, the slitting adjustment piece sets up on dividing condition, deckle edge flattening subassembly sets up at the top of mounting bracket, be equipped with the brace table between slitting subassembly and the deckle edge flattening subassembly. According to the metal sheet splitting machine, the output end of the movable cylinder moves to drive the connecting block to move on the sliding groove during splitting, the connecting block moves to drive the splitting cutters to move on the upper splitting roller, and the splitting cutters move to realize splitting operation of metal sheets with different sizes so as to meet different use requirements.

However, the following drawbacks still exist in practical use:

in the multifunctional metal slitting machine disclosed in the patent publication No. CN111570898B, a metal belt is clamped and conveyed through a flattening and flattening assembly, and the metal belt is slit through a slitting assembly, but the heights of an upper flattening roller and an upper slitting roller cannot be adjusted at the same time, so that the workload of a user in adjustment is increased, and the user cannot adjust the upper flattening roller and the upper slitting roller to the same height conveniently;

the slitting mechanism of the multifunctional metal slitting machine disclosed in the patent document CN111570898B comprises a moving cylinder, a connecting block and a slitting cutter, and is shown in fig. 5 of the specification: the splitting of the slitting cutters is inconvenient for a user, and the user is blocked by the slitting cutters positioned outside when the slitting cutters positioned on the inner side are dismounted.

Therefore, a multifunctional metal slitting machine disclosed in patent publication No. CN111570898B cannot meet the demands in practical use, so there is a strong need for an improved technique in the market to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to provide a clamping and conveying shearing machine of a slitting machine, which solves the problems that an upper flattening roller and an upper slitting roller cannot be adjusted in height at the same time and a slitting blade cannot be conveniently dismounted in a multifunctional metal slitting machine disclosed in patent document No. CN111570898B by arranging a driving mechanism, a slitting mechanism, an adjusting mechanism and a cutter mechanism.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a clamping and conveying shearing machine of a slitting machine, which comprises a driving mechanism, wherein a slitting mechanism is arranged right behind the driving mechanism, cutter mechanisms are distributed on the periphery of the slitting mechanism at equal intervals, adjusting mechanisms are symmetrically distributed on the rear side above the driving mechanism, and the rear side of the lower part of the adjusting mechanism is connected with the front side of the upper part of the slitting mechanism.

Further, the driving mechanism comprises a first middle-shaped block and a driving roller; the left side and the right side of the periphery of the driving roller are rotationally connected with first middle-shaped blocks, the outer side of one first middle-shaped block is connected with a first motor, and the inner side of the first motor is connected with one side of the driving roller.

Further, the slitting mechanism comprises a second middle-shaped block and a square roller; the square roller is located the drive roller directly behind, and square roller periphery left and right sides rotates and is connected with the second and well appears the piece, and the piece outside is connected with the second motor in the second in the shape piece, and the second motor inboard is connected with square roller one side.

Further, the adjusting mechanism comprises a top seat and a hydraulic cylinder; the middle of the lower part of the footstock is connected with a hydraulic cylinder, the front side and the rear side of the lower end of the hydraulic cylinder are respectively connected with the rear side of the upper part of the first middle-shaped block and the front side of the upper part of the second middle-shaped block, the lower side of the periphery of the hydraulic cylinder is connected with an annular seat, the front side and the rear side of the periphery of the annular seat are symmetrically connected with supporting rods, and the lower sides of the two supporting rods are respectively connected with the upper part of the first middle-shaped block and the upper part of the second middle-shaped block.

Further, the cutter mechanism comprises an upper arc-shaped seat and a lower arc-shaped seat; the upper arc seat is positioned on the upper side of the square roller, the lower arc seat is positioned on the lower side of the square roller, blades are connected to the upper side of the periphery of the upper arc seat and the lower side of the periphery of the lower arc seat, the left side and the right side of the upper arc seat are connected with upper U-shaped seats, inserting shafts are connected to the front and the rear sides of the lower side of the upper U-shaped seats symmetrically, lower U-shaped seats are connected to the left side and the right side of the lower arc seat symmetrically, inserting holes are formed in the front and the rear sides of the lower U-shaped seats symmetrically, the inserting shafts are connected with the inserting holes in an inserting mode, and bolts are connected to the upper side of the upper U-shaped seats and the lower side of the lower U-shaped seats at equal intervals in a threaded mode.

Further, the left side and the right side of the driving mechanism are connected with a second supporting mechanism, and the second supporting mechanism comprises a second U-shaped frame and a second U-shaped through groove; the front side and the rear side of the upper part of the second U-shaped frame are respectively provided with a second U-shaped through groove, and the front side and the rear side of the first middle-shaped block are respectively connected with the second U-shaped through grooves in a sliding way.

Further, a guide mechanism is arranged right below the driving mechanism, and comprises a first sliding block and a guide roller; the guide roll is located under the driving roll, and the guide roll periphery is connected with first slider in a left-right rotation mode, and the first slider is fixedly located on the lower side inside the second U-shaped frame.

Further, the left side and the right side of the slitting mechanism are connected with a first supporting mechanism, and the first supporting mechanism comprises a first U-shaped frame and a first U-shaped through groove; the first U-shaped frame is located the positive rear side of second U-shaped frame, and both sides all have seted up first U-shaped through groove around the first U-shaped frame upper portion, and both sides are connected with first U-shaped through groove sliding respectively around the second well shape piece.

Further, a bearing mechanism is arranged right below the slitting mechanism, and comprises a second sliding block and a bearing roller; the bearing roller is located square roller below, and the bearing roller periphery is connected with the second slider in a left-right rotation way, and the second slider is located the inside downside of first U-shaped frame.

The utility model has the following beneficial effects:

according to the utility model, the driving mechanism, the slitting mechanism and the adjusting mechanism are arranged, so that a user can simultaneously adjust the heights of the driving roller and the square roller by controlling the hydraulic cylinder, the distance between the driving roller and the guide roller and the distance between the square roller and the bearing roller are not required to be adjusted step by the user, the step of adjusting the clamping shearing machine of the slitting machine by the user before working is reduced, the workload of the user is reduced, and the lower side of the driving roller and the lower side of the blade are convenient to adjust to the same height by the user.

According to the utility model, by arranging the cutter mechanism, a user can detach the blade from the square roller directly after detaching the cutter mechanism, the blade does not need to be extracted from the square roller, and the user is not blocked by other cutter mechanisms when detaching any mechanism on the square roller, so that the user can detach the blade positioned in the middle of the square roller conveniently.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a pinch shear of a slitting machine;

FIG. 2 is a schematic diagram of the connection of the second support mechanism, the drive mechanism and the guide mechanism;

FIG. 3 is a schematic diagram of the connection of the first support mechanism, the carrying mechanism and the slitting mechanism;

FIG. 4 is a schematic illustration of the connection of the adjustment structure, the first intermediate block and the second intermediate block;

fig. 5 is a schematic structural view of the cutter mechanism.

In the drawings, the list of components represented by the various numbers is as follows:

1. a first support mechanism; 11. a first U-shaped frame; 12. a first U-shaped through groove; 2. a second support mechanism; 21. a second U-shaped frame; 22. a second U-shaped through groove; 3. a guide mechanism; 31. a first slider; 32. a guide roller; 4. a driving mechanism; 41. a first middle block; 42. a driving roller; 43. a first motor; 5. a carrying mechanism; 51. a second slider; 52. a carrying roller; 6. a slitting mechanism; 61. a second middle block; 62. square roller; 63. a second motor; 7. an adjusting mechanism; 71. a top base; 72. a hydraulic cylinder; 73. a support rod; 74. an annular seat; 8. a cutter mechanism; 81. a jack; 82. a lower U-shaped seat; 83. inserting a shaft; 84. an upper U-shaped seat; 85. a blade; 86. a bolt; 87. an upper arc-shaped seat; 88. and a lower arc-shaped seat.

Description of the embodiments

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1 to 5, the present utility model is a clipping and feeding shearing machine of a slitting machine, comprising a driving mechanism 4, a slitting mechanism 6 is arranged right behind the driving mechanism 4, cutter mechanisms 8 are equally spaced on the periphery of the slitting mechanism 6, adjusting mechanisms 7 are symmetrically distributed on the rear side above the driving mechanism 4, and the rear side below the adjusting mechanisms 7 is connected with the front side above the slitting mechanism 6;

the user uses external screw to lock respectively first supporting mechanism 1 and second supporting mechanism 2 and connects on the slitting machine, the user pulls the strap through guiding mechanism 3 for the strap contacts with loading mechanism 5 upside, and the user controls adjustment mechanism 7 and adjusts the height of actuating mechanism 4 and slitting mechanism 6, drives the strap and remove when making actuating mechanism 4 rotate, and slitting mechanism 6 cuts the strap that moves, and the user starts actuating mechanism 4 and slitting mechanism 6, and the strap is through actuating mechanism 4 and guiding mechanism 3's cooperation backward movement, and slitting mechanism 6 and loading mechanism 5 cut the strap that moves.

Wherein, as shown in fig. 1 and 2, the driving mechanism 4 comprises a first middle-shaped block 41 and a driving roller 42; the left side and the right side of the periphery of the driving roller 42 are rotatably connected with first middle-shaped blocks 41, the outer side of one first middle-shaped block 41 is connected with a first motor 43, and the inner side of the first motor 43 is connected with one side of the driving roller 42;

the left side and the right side of the driving mechanism 4 are connected with a second supporting mechanism 2, and the second supporting mechanism 2 comprises a second U-shaped frame 21 and a second U-shaped through groove 22; the front and rear sides of the upper part of the second U-shaped frame 21 are respectively provided with a second U-shaped through groove 22, and the front and rear sides of the first middle-shaped block 41 are respectively connected with the second U-shaped through grooves 22 in a sliding manner;

a guide mechanism 3 is arranged right below the driving mechanism 4, and the guide mechanism 3 comprises a first sliding block 31 and a guide roller 32; the guide roller 32 is positioned right below the driving roller 42, the first sliding block 31 is connected with the periphery of the guide roller 32 in a left-right rotating way, and the first sliding block 31 is fixedly positioned at the lower side of the inner part of the second U-shaped frame 21;

the user places the metal strap between drive roller 42 and guide roll 32, and the user uses external control end to start first motor 43, and drive roller 42 rotates, and the metal strap removes, and guide roll 32 rotates, realizes the clamp send purpose to the metal strap.

Wherein, as shown in fig. 1 and 3, the slitting mechanism 6 comprises a second middle block 61 and a square roller 62; the square roller 62 is positioned right behind the driving roller 42, the left side and the right side of the periphery of the square roller 62 are rotatably connected with second middle-shaped blocks 61, the outer side of one second middle-shaped block 61 is connected with a second motor 63, and the inner side of the second motor 63 is connected with one side of the square roller 62;

the left side and the right side of the slitting mechanism 6 are connected with a first supporting mechanism 1, and the first supporting mechanism 1 comprises a first U-shaped frame 11 and a first U-shaped through groove 12; the first U-shaped frame 11 is positioned on the right rear side of the second U-shaped frame 21, the front side and the rear side of the upper part of the first U-shaped frame 11 are respectively provided with a first U-shaped through groove 12, and the front side and the rear side of the second middle-shaped block 61 are respectively connected with the first U-shaped through groove 12 in a sliding way;

a bearing mechanism 5 is arranged right below the slitting mechanism 6, and the bearing mechanism 5 comprises a second sliding block 51 and a bearing roller 52; the bearing roller 52 is positioned right below the square roller 62, the second sliding block 51 is connected with the periphery of the bearing roller 52 in a left-right rotating way, and the second sliding block 51 is positioned at the lower side of the inner part of the first U-shaped frame 11;

the user uses external control end to start second motor 63, square roller 62 rotates, and blade 85 rotates, and when the strap moves to between square roller 62 and the carrier roller 52, the blade 85 of rotation cuts the strap, and then realizes the branch entry to the strap.

As shown in fig. 1 and 4, the adjusting mechanism 7 includes a top seat 71 and a hydraulic cylinder 72; the middle of the lower part of the top seat 71 is connected with a hydraulic cylinder 72, the front side and the rear side of the lower end of the hydraulic cylinder 72 are respectively connected with the rear side of the upper part of the first middle-shaped block 41 and the front side of the upper part of the second middle-shaped block 61, the lower side of the periphery of the hydraulic cylinder 72 is connected with an annular seat 74, the periphery of the annular seat 74 is symmetrically connected with supporting rods 73 front and back, and the lower sides of the two supporting rods 73 are respectively connected with the upper part of the first middle-shaped block 41 and the upper part of the second middle-shaped block 61;

when the hydraulic cylinder 72 is contracted, the first middle-shaped block 41 and the second middle-shaped block 61 move upwards, the driving roller 42 and the square roller 62 move upwards, the blade 85 moves upwards, the distance between the driving roller 42 and the guide roller 32 is gradually increased, and the distance between the blade 85 and the bearing roller 52 is gradually increased; conversely, the distance between the drive roller 42 and the guide roller 32 is gradually reduced, while the distance between the blade 85 and the carrier roller 52 is gradually reduced.

As shown in fig. 1 and 5, the cutter mechanism 8 comprises an upper arc-shaped seat 87 and a lower arc-shaped seat 88; the upper arc-shaped seat 87 is positioned on the upper side of the square roller 62, the lower arc-shaped seat 88 is positioned on the lower side of the square roller 62, the upper side of the periphery of the upper arc-shaped seat 87 and the lower side of the periphery of the lower arc-shaped seat 88 are both connected with blades 85, the left side and the right side of the upper arc-shaped seat 87 are both connected with upper U-shaped seats 84, the lower side of the upper U-shaped seat 84 is connected with inserting shafts 83 in a front-back symmetrical manner, the left side and the right side of the lower arc-shaped seat 88 are both connected with lower U-shaped seats 82, inserting holes 81 are symmetrically arranged on the lower U-shaped seats 82 in a front-back symmetrical manner, the inserting shafts 83 are inserted into the inserting holes 81, and bolts 86 are connected with the upper side of the upper U-shaped seats 84 and the lower side of the lower U-shaped seats 82 in an equal interval manner;

the user rotates the rotary bolt 86 clockwise, so that the bolt 86 is separated from the square roller 62, the locking connection between the upper U-shaped seat 84 and the square roller 62 is released, the locking connection between the lower U-shaped seat 82 and the square roller 62 is simultaneously released, then the user applies external force to the upper arc-shaped seat 87 and the lower arc-shaped seat 88 in the direction far away from the square roller 62, the inserting shaft 83 is separated from the inserting hole 81, the upper arc-shaped seat 87 and the lower arc-shaped seat 88 are detached from the square roller 62, and the detachment of the blade 85 is realized; instead, blade 85 is attached to square roll 62.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims

1. The utility model provides a clip of slitting machine send shearing machine, includes actuating mechanism (4), its characterized in that: the automatic cutting machine is characterized in that a cutting mechanism (6) is arranged right behind the driving mechanism (4), cutter mechanisms (8) are distributed on the periphery of the cutting mechanism (6) at equal intervals, adjusting mechanisms (7) are symmetrically distributed on the rear side of the upper part of the driving mechanism (4), and the rear side of the lower part of the adjusting mechanism (7) is connected with the front side of the upper part of the cutting mechanism (6).

2. The pinch shear of a slitter of claim 1, wherein: the driving mechanism (4) comprises a first middle-shaped block (41) and a driving roller (42); the left side and the right side of the periphery of the driving roller (42) are rotationally connected with the first middle-shaped blocks (41), one outer side of each first middle-shaped block (41) is connected with a first motor (43), and the inner side of each first motor (43) is connected with one side of the driving roller (42).

3. The pinch shear of a slitter of claim 1, wherein: the slitting mechanism (6) comprises a second middle-shaped block (61) and a square roller (62); the square roller (62) is located right behind the driving roller (42), the left side and the right side of the periphery of the square roller (62) are rotationally connected with the second middle-shaped blocks (61), one outer side of each second middle-shaped block (61) is connected with a second motor (63), and the inner side of each second motor (63) is connected with one side of the square roller (62).

4. The pinch shear of a slitter of claim 1, wherein: the adjusting mechanism (7) comprises a top seat (71) and a hydraulic cylinder (72); the middle of footstock (71) lower part is connected with pneumatic cylinder (72), both sides are connected with first well shape piece (41) upper portion rear side and second well shape piece (61) upper portion front side respectively around pneumatic cylinder (72) lower extreme, pneumatic cylinder (72) periphery downside is connected with annular seat (74), symmetrical connection has branch (73) around annular seat (74) periphery, two branch (73) downside is connected with first well shape piece (41) upper portion and second well shape piece (61) upper portion respectively.

5. The pinch shear of a slitter of claim 1, wherein: the cutter mechanism (8) comprises an upper arc-shaped seat (87) and a lower arc-shaped seat (88); the utility model discloses a square roller, including square roller (62) and lower arc seat (88), arc seat (87) are located square roller (62) upside down, arc seat (87) periphery upside and lower arc seat (88) periphery downside all are connected with blade (85), arc seat (87) left and right sides all are connected with U-shaped seat (84) up, upper U-shaped seat (84) downside front and back symmetry is connected with and inserts axle (83), arc seat (88) left and right sides all are connected with down U-shaped seat (82) down, jack (81) have been seted up to the symmetry about down on U-shaped seat (82), insert axle (83) and jack (81) grafting, upper U-shaped seat (84) upside and lower U-shaped seat (82) downside equidistant threaded connection have bolt (86).

6. The pinch shear of a slitter of claim 2, wherein: the left side and the right side of the driving mechanism (4) are connected with a second supporting mechanism (2), and the second supporting mechanism (2) comprises a second U-shaped frame (21) and a second U-shaped through groove (22); the front side and the rear side of the upper part of the second U-shaped frame (21) are respectively provided with a second U-shaped through groove (22), and the front side and the rear side of the first middle-shaped block (41) are respectively connected with the second U-shaped through grooves (22) in a sliding mode.

7. The pinch shear of a slitter of claim 2, wherein: a guide mechanism (3) is arranged right below the driving mechanism (4), and the guide mechanism (3) comprises a first sliding block (31) and a guide roller (32); the guide roller (32) is located under the driving roller (42), the first sliding block (31) is connected to the periphery of the guide roller (32) in a left-right rotating mode, and the first sliding block (31) is fixedly located on the lower side inside the second U-shaped frame (21).

8. A pinch shear of a slitter according to claim 3, wherein: the left side and the right side of the slitting mechanism (6) are connected with a first supporting mechanism (1), and the first supporting mechanism (1) comprises a first U-shaped frame (11) and a first U-shaped through groove (12); the first U-shaped frame (11) is located at the right rear side of the second U-shaped frame (21), the first U-shaped through grooves (12) are formed in the front side and the rear side of the upper portion of the first U-shaped frame (11), and the front side and the rear side of the second middle-shaped block (61) are respectively connected with the first U-shaped through grooves (12) in a sliding mode.

9. A pinch shear of a slitter according to claim 3, wherein: a bearing mechanism (5) is arranged right below the slitting mechanism (6), and the bearing mechanism (5) comprises a second sliding block (51) and a bearing roller (52); the bearing roller (52) is located under the square roller (62), the second sliding block (51) is connected to the periphery of the bearing roller (52) in a left-right rotating mode, and the second sliding block (51) is located on the lower side inside the first U-shaped frame (11).