CN212800991U - Section of thick bamboo strip equipment of cutting - Google Patents

Abstract

The utility model relates to a tube cutting equipment, which is provided with a first feeding cutting device and a second feeding cutting device on a base, a first feeding mechanism and a first cutting mechanism are arranged on a first mounting seat, a second feeding mechanism and a second cutting mechanism are arranged on a second mounting seat, the first feeding mechanism and the second feeding mechanism are used for matching and conveying the tube to be cut on a worktable to the first cutting mechanism and the second cutting mechanism for cutting along the transverse direction, the first mounting seat and/or the second mounting seat are movably connected with the base, so that the position of the first feeding cutting device and/or the second feeding cutting device in the longitudinal direction can be adjusted, when money changing and code adjusting are needed, the position of the first feeding cutting device and/or the second feeding cutting device in the longitudinal direction can be adjusted, the code adjusting is simple and convenient, the production efficiency can be improved.

Description

Section of thick bamboo strip equipment of cutting

Technical Field

The utility model relates to a weaving equipment technical field especially relates to a slitting equipment.

Background

In the clothing manufacturing process, the tube strip (namely the long cloth strip) needs to be cut to a specific width, and particularly, the materials are distributed on two side parts of the tube strip along the length direction of the tube strip. Adopt traditional slitting equipment, it is inconvenient to change money and transfer sign indicating number, is unfavorable for production efficiency's improvement.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a slitting equipment to solve traditional slitting equipment and trade the inconvenient problem of sign indicating number of transferring, improve production efficiency.

A can slitting apparatus comprising:

the cutting machine comprises a machine base, wherein a workbench for placing a to-be-cut barrel strip is arranged on the machine base;

the first feeding and cutting device is arranged on the base and comprises a first mounting seat, a first feeding mechanism and a first cutting mechanism, and the first feeding mechanism and the first cutting mechanism are arranged on the first mounting seat; and

the second feeding and cutting device is arranged on the base and comprises a second mounting seat, a second feeding mechanism and a second cutting mechanism, and the second feeding mechanism and the second cutting mechanism are arranged on the first mounting seat;

the first feeding mechanism and the second feeding mechanism are used for conveying the to-be-cut bobbin strips placed on the workbench to the first cutting mechanism and the second cutting mechanism along the transverse direction in a matching manner for cutting; the first mounting seat and/or the second mounting seat are/is movably connected with the base, so that the position of the first feeding and cutting device and/or the second feeding and cutting device in the longitudinal direction can be adjusted.

In one embodiment, the first feed cutting device is fixed in position in the longitudinal direction, and the second feed cutting device is adjustable in position in the longitudinal direction.

In one embodiment, the base is provided with a longitudinally extending code adjusting guide, and the second mounting seat is in sliding fit with the code adjusting guide.

In one embodiment, the bobbin cutting device further comprises a code adjusting device, the code adjusting device comprises a code adjusting screw rod, the code adjusting screw rod is connected to the base, a code adjusting hole is formed in the second mounting base, and the code adjusting screw rod is in threaded fit with the code adjusting hole.

In one embodiment, the barrel cutting equipment further comprises a code number indicating device, the code number indicating device comprises a code number ruler and an indicating piece, the code number ruler is arranged on the base, the indicating piece is connected to the second mounting seat and can move along with the second mounting seat, and the indicating piece is close to the code number ruler to indicate the code number on the code number ruler.

In one embodiment, the first feeding mechanism comprises a first upper conveyor belt and a first lower conveyor belt, the first upper conveyor belt is arranged above the first lower conveyor belt, belt surfaces of the first upper conveyor belt and the first lower conveyor belt are abutted, and transmission directions of the first upper conveyor belt and the first lower conveyor belt are opposite;

the second feeding mechanism comprises a second upper side conveying belt and a second lower side conveying belt, the second upper side conveying belt is arranged above the second lower side conveying belt, belt surfaces of the second upper side conveying belt and the second lower side conveying belt are abutted, and transmission directions of the second upper side conveying belt and the second lower side conveying belt are opposite.

In one embodiment, the first feeding mechanism further comprises a first tightness adjuster, the first tightness adjuster is provided with a first adjusting roller, the first adjusting roller is in abutting fit with the upper side belt surface of the first upper side conveyor belt, and the first adjusting roller is connected to the first mounting seat and is adjustable in height.

In one embodiment, the first feeding mechanism further includes a second slack adjuster having a second adjusting roller, the second adjusting roller is in abutting fit with the lower side belt surface of the first lower conveyor belt, and the second adjusting roller is connected to the first mounting seat and is adjustable in height.

In one embodiment, the second feeding mechanism further comprises a third tightness adjuster, the third tightness adjuster is provided with a third adjusting roller, the third adjusting roller is in abutting fit with the upper side belt surface of the second upper side conveyor belt, and the third adjusting roller is connected to the second mounting seat and is adjustable in height.

In one embodiment, the second feeding mechanism further comprises a fourth tightness adjuster, the fourth tightness adjuster is provided with a fourth adjusting roller, the fourth adjusting roller is in abutting fit with the lower side belt surface of the second lower side conveyor belt, and the fourth adjusting roller is connected to the second mounting seat and is adjustable in height.

In one embodiment, the bobbin cutting device further comprises a flattening device, and the flattening device is arranged on the workbench; the flattening device comprises a lifting driving mechanism, a rolling driving mechanism and a flattening pressing wheel, the lifting driving mechanism is connected with the flattening pressing wheel and used for driving the flattening pressing wheel to press down on the to-be-cut bobbin, and the rolling driving mechanism is connected with the flattening pressing wheel and used for driving the flattening pressing wheel to roll so as to press and convey the to-be-cut bobbin to the first feeding mechanism and the second feeding mechanism.

In one embodiment, the bobbin cutting device further comprises a positioning auxiliary device, the positioning auxiliary device is movably arranged on the workbench and can move in the longitudinal direction, and the positioning auxiliary device is provided with an indicating head used for indicating the middle position between the first feeding mechanism and the second feeding mechanism.

In one embodiment, the first cutting mechanism is arranged on one side of the first feeding mechanism far away from the second feeding mechanism, and the second feeding mechanism is arranged on one side of the second conveyor belt far away from the first feeding mechanism.

In one embodiment, the first mounting seat has a first garbage collection tank, and the first garbage collection tank is arranged on one side of the first cutting mechanism far away from the second cutting mechanism; and/or

The second mounting seat is provided with a second waste collecting groove, and the second waste collecting groove is arranged on one side, far away from the first cutting mechanism, of the second cutting mechanism.

A method for cutting a cylindrical bar, which uses the apparatus of any one of the above embodiments, the method comprising the steps of:

and placing the bobbin to be cut on the workbench, so that the bobbin to be cut is conveyed to the first cutting mechanism and the second cutting mechanism for cutting by matching of the first feeding mechanism and the second feeding mechanism.

Compared with the prior art, the tube cutting equipment has the following beneficial effects:

the first feeding cutting device and the second feeding cutting device are arranged on the base, the first feeding mechanism and the first cutting mechanism are arranged on the first mounting seat, the second feeding mechanism and the second cutting mechanism are arranged on the second mounting seat, the first feeding mechanism and the second feeding mechanism are used for being matched with a to-be-cut bobbin placed on the workbench to be transversely conveyed to the first cutting mechanism and the second cutting mechanism to be cut, the first mounting seat and/or the second mounting seat are movably connected with the base, so that the position of the first feeding cutting device and/or the second feeding cutting device in the longitudinal direction can be adjusted, when money and code changing are needed, the position of the first feeding cutting device and/or the position of the second feeding cutting device in the longitudinal direction can be adjusted, the code adjusting is simple and convenient, and the production efficiency can be improved.

Drawings

FIG. 1 is a schematic structural diagram of a slitting apparatus according to an embodiment;

FIG. 2 is a schematic structural view of another perspective of the slitting apparatus of FIG. 1;

FIG. 3 is a schematic structural view of a first feeding mechanism in the can bar cutting apparatus shown in FIG. 1;

FIG. 4 is a top view of the slitting apparatus of FIG. 1;

FIG. 5 is a front view of the slitting apparatus of FIG. 1;

fig. 6 is a side view of the slitting apparatus of fig. 1.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

In the description of the present invention, it is to be understood that the terms "first", "second" and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first," "second," or "third" may explicitly or implicitly include at least one of the feature.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In the present invention, "lateral" and "longitudinal" refer to two directions perpendicular to each other on a horizontal plane, and "lateral" or "longitudinal" does not refer to a specific direction.

Referring to fig. 1 to 3, a can cutting apparatus 100 according to an embodiment of the present invention includes a base 110, a first feeding and cutting device, and a second feeding and cutting device.

Wherein, a workbench 111 for placing the cylinder to be cut is arranged on the machine base 110.

The first feeding cutter is mounted on the base 110. The first feeding and cutting device comprises a first mounting base 120, a first feeding mechanism 140 and a first cutting mechanism 151, wherein the first feeding mechanism 140 and the first cutting mechanism 151 are both arranged on the first mounting base 120.

The second feeding and cutting device is arranged on the base 110. The second feeding and cutting device includes a second mounting base 130, a second feeding mechanism (not shown), and a second cutting mechanism 152, and the second feeding mechanism and the second cutting mechanism 152 are disposed on the first mounting base 120.

The first feeding mechanism 140 and the second feeding mechanism are used for conveying the to-be-cut barrel strip placed on the workbench 111 to the first cutting mechanism 151 and the second cutting mechanism 152 along the transverse direction for cutting.

The first mounting seat 120 and/or the second mounting seat 130 are movably connected with the base 110, so that the longitudinal position of the first feeding and cutting device and/or the second feeding and cutting device is adjustable.

The bobbin cutting device 100 is provided with a first feeding cutting device and a second feeding cutting device on a base 110, a first feeding mechanism 140 and a first cutting mechanism 151 are arranged on a first mounting seat 120, a second feeding mechanism and a second cutting mechanism 152 are arranged on a second mounting seat 130, the first feeding mechanism 140 and the second feeding mechanism are used for being matched with a bobbin to be cut placed on a workbench 111 and conveyed to the first cutting mechanism 151 and the second cutting mechanism 152 along the transverse direction for cutting, the first mounting seat 120 and/or the second mounting seat 130 are movably connected with the base 110, so that the position of the first feeding cutting device and/or the second feeding cutting device in the longitudinal direction can be adjusted, when money change and code adjustment are needed, the position of the first feeding cutting device and/or the second feeding cutting device in the longitudinal direction can be adjusted, the code adjustment is simple and convenient, the production efficiency can be improved.

In one example, the first mounting seat 120 is fixedly connected to the base 110 so that the position of the first feeding and cutting device in the longitudinal direction is fixed, and the second mounting seat 130 is movably connected to the base 110 so that the position of the second feeding and cutting device in the longitudinal direction is adjustable.

In another example, the first and second mounting seats 120, 130 are each movably connected to the base 110 such that the position of each of the first and second feed cutters is adjustable in the longitudinal direction.

As shown in fig. 4 and 5, in one example, the base 110 is provided with a longitudinally extending adjustment guide 112, and the second mounting seat 130 is slidably engaged with the adjustment guide 112, so that the position of the second feeding and cutting device in the longitudinal direction is adjustable.

In the illustrated specific example, the bobbin cutting device 100 further includes a code adjusting device, the code adjusting device includes a code adjusting screw rod 161, the code adjusting screw rod 161 is connected to the base 110, a code adjusting hole is formed in the second mounting base 130, and the code adjusting screw rod 161 is in threaded fit with the code adjusting hole. Further, the one end of transferring yard lead screw 161 is provided with transfers yard handle 162, makes things convenient for operating personnel to transfer the sign indicating number according to the sign indicating number needs manual. In other examples, the code adjusting screw 161 may also be connected to a code adjusting motor, and the code adjusting screw 161 is adjusted by controlling the motion of the code adjusting motor.

As shown in fig. 2 and 5, in one example, the bar cutting apparatus 100 further includes a code number indicating device 170 for indicating the number of cut codes of the bar. The number indicating device 170 includes a number ruler 171 and an indicating member 172, the number ruler 171 is disposed on the base 110, and the number ruler 171 is marked with the number of codes. The indicator 172 is connected to the second mounting base 130 and can move with the second mounting base 130, and the indicator 172 cooperates with the number scale 171 to indicate the number on the number scale 171.

By arranging the code number indicating device 170, when the second mounting seat 130 moves, the indicator 172 can move along with the second mounting seat, so that the code number on the code number ruler 171 is indicated, and the code adjusting operation of an operator is facilitated.

In one example, the first feeding mechanism 140 includes a first upper conveyor belt 141 and a first lower conveyor belt 142, the first upper conveyor belt 141 is disposed above the first lower conveyor belt 142, belt surfaces of the first upper conveyor belt 141 and the first lower conveyor belt 142 are pressed against each other, and transmission directions of the first upper conveyor belt 141 and the first lower conveyor belt 142 are opposite.

The lower side surface of the first upper conveyor belt 141 and the upper side surface of the first lower conveyor belt 142 are arranged in parallel, and the first upper conveyor belt 141 and the first lower conveyor belt 142 rotate in opposite transmission directions, so that the to-be-cut barrel strips are driven to move transversely by friction force between the first upper conveyor belt 141 and the first lower conveyor belt 142.

Similarly, the second feeding mechanism comprises a second upper side conveying belt and a second lower side conveying belt, the second upper side conveying belt is arranged above the second lower side conveying belt, belt surfaces of the second upper side conveying belt and the second lower side conveying belt are abutted, and transmission directions of the second upper side conveying belt and the second lower side conveying belt are opposite. The lower side surface of the second upper side conveyor belt is parallel to the upper side surface of the second lower side conveyor belt, the second upper side conveyor belt and the second lower side conveyor belt rotate in opposite transmission directions, and the to-be-cut bobbin is transversely pressed and conveyed to the first cutting mechanism 151 and the second cutting mechanism 152 for cutting through the matching of the first feeding mechanism 140 and the second feeding mechanism.

The bobbin cutting device 100 of the above example uses a conveyor belt to convey the bobbin to be cut in cooperation, and the length of the bobbin to be cut is not limited, and the code adjustment can be conveniently performed.

It will be appreciated that each conveyor belt is driven by at least two drive wheels 143 in cooperation so that the conveyor belts are rotated in the transverse direction. In one example, each conveyor belt is in meshing transmission with a respective two drive wheels 143. In other examples, each conveyor belt and the corresponding two drive wheels 143 may also be friction drives.

In one example, the first feeding mechanism 140 further includes a first tightness adjuster having a first adjusting roller whose wheel surface presses the upper side belt surface of the first upper side conveyor belt 141, the first adjusting roller being connected to the first mounting base 120 and being adjustable in height.

More specifically, the first slack adjuster further includes a first mounting shaft on which the first adjusting roller is disposed, the first mounting shaft being connected to the first mounting base 120, and the height of the first mounting shaft on the first mounting base 120 being adjustable, for example, by fastening a bolt, so that the height of the first adjusting roller is adjustable.

The bobbin cutting device 100 of the present example is provided with a first tightness adjuster (not shown in the figure), and the first adjusting roller is in abutting fit with the upper side belt surface of the first upper side conveyor belt 141, so that the height of the first adjusting roller is appropriately adjusted to enable the tightness of the first upper side conveyor belt 141 to be appropriate, and accordingly, the pressure between the first upper side conveyor belt 141 and the first lower side conveyor belt 142 to be appropriate, so as to stably convey the bobbin to be cut.

In one example, the first feeding mechanism 140 further includes a second slack adjuster (not shown) having a second adjusting roller, which is in abutting engagement with the lower side surface of the first lower conveyor belt 142, and is connected to the first mounting base 120 and is adjustable in height.

The second feeding mechanism further includes a third tightness adjuster (not shown in the figure) having a third adjusting roller, the third adjusting roller is in abutting fit with the upper side surface of the second upper side conveyor belt, and the third adjusting roller is connected to the second mounting base 130 and is adjustable in height.

The second feeding mechanism further includes a fourth tightness adjuster (not shown in the figure), the fourth tightness adjuster has a fourth adjusting roller, the fourth adjusting roller is in butt fit with the lower side surface of the second lower side conveyor belt, and the fourth adjusting roller is connected to the second mounting base 130 and is adjustable in height.

As shown in fig. 1 and 6, in one example, the can slitting apparatus 100 further includes a flattening device 190, and the flattening device 190 is disposed on the work table 111. The flattening apparatus 190 includes a lift drive 191, a roll drive (not shown), and a flattening roller 192. The lifting driving mechanism 191 is connected with the leveling pressing wheel 192 for driving the leveling pressing wheel 192 to press down on the to-be-cut bobbin bars placed on the workbench 111, and the rolling driving mechanism is connected with the leveling pressing wheel 192 for driving the leveling pressing wheel 192 to roll so as to press and convey the to-be-cut bobbin bars to the first feeding mechanism 140 and the second feeding mechanism.

The slitting machine 100 of the present example facilitates feeding the to-be-slit slivers to the first feeding mechanism 140 and the second feeding mechanism on the one hand and enables the to-be-slit slivers to be smoothly fed to the first feeding mechanism 140 and the second feeding mechanism on the other hand by providing the leveling device 190. When the automatic trimming device works, the lifting driving mechanism 191 lifts the leveling pressing wheel 192, so that one end of a to-be-trimmed bobbin is placed below the leveling pressing wheel 192, the lifting driving mechanism 191 drives the leveling pressing wheel 192 to press down on one end of the to-be-trimmed bobbin, the rolling driving mechanism drives the leveling pressing wheel 192 to roll at the moment, and then the leveling pressing wheel 192 drives the to-be-trimmed bobbin.

In one example, the flattening apparatus 190 includes a mounting frame 193, the lifting driving mechanism 191 is connected to the mounting frame 193, and both ends of the axle of the flattening rollers 192 are connected to the mounting frame 193, respectively.

In one example, the slitting machine 100 further includes a positioning aid (not shown) movably disposed on the table 111, the positioning aid being movable in a longitudinal direction, the positioning aid having an indicating head for indicating an intermediate position between the first feeding mechanism 140 and the second feeding mechanism.

The bobbin cutting device 100 of the present example can move the positioning auxiliary device in the longitudinal direction through the arrangement, and the indication head of the positioning auxiliary device can be adjusted according to the actual positions of the first conveyor belt and the second conveyor belt, and moves to the middle position between the first conveyor belt and the second conveyor belt, so that when the bobbin to be cut is placed on the workbench 111, the central axis of the bobbin to be cut can be aligned or approximately aligned with the indication head of the positioning auxiliary device, and the offset during cutting is avoided.

More specifically, the positioning aid comprises a connecting portion and an indicator head, the connecting portion and the indicator head being arranged vertically, the connecting portion being movably connected to the mounting frame 193 of the flattening device 190. When the lifting driving mechanism 191 drives the leveling pinch roller 192 to press downwards, the indicating head of the positioning auxiliary device presses on the to-be-cut barrel on the workbench 111.

In one example, the first mounting base 120 has a first garbage collection bin 121, and the first garbage collection bin 121 is disposed on a side of the first cutting mechanism 151 away from the second cutting mechanism 152. In one example, the first mounting base 120 has a second catch tank disposed on a side of the second cutting mechanism 152 remote from the first cutting mechanism 151.

In the slitting device 100 of the present example, the neatness of the work place is maintained by providing the first trash collecting chute 121 and the second trash collecting chute near the first cutting mechanism 151 and the second cutting mechanism 152, respectively, for collecting the waste cloth cut out by the sliver.

In one example, the base 110 has a cut-off sliver collection trough (not shown) disposed downstream of the first feed mechanism 140 and the second feed mechanism.

The slitting device 100 of the present example can make the slit slivers fall into the slit sliver collecting tank under the driving of the first feeding mechanism 140 and the second feeding mechanism, and automatically collect the slivers.

Further, in one example, the first mounting base 120 has a downward slope on a side of the first cutting mechanism 151 away from the second cutting mechanism 152. In one example, the second mount 130 has a downward slope on a side of the second cutting mechanism 152 away from the second cutting mechanism 152.

The section of thick bamboo strip cutting device 100 of this example sets up downward slope through cutting mechanism 151 and second and cutting mechanism 152 department in the first, and the useless cloth that the section of thick bamboo strip was cut can fall into first garbage collection groove 121 and second garbage collection groove automatically, need not the staff and clears away, keeps the clean and tidy of workplace.

Traditional slitting machine ware has the big shortcoming of noise, and the noise reaches 97.3dB when test operation, has surpassed environmental requirement highest standard 85dB, wears ear protection articles such as earplug or earmuff when must requiring the staff operation, and the utility model discloses a slitting equipment 100 sound is 78.5-83.3dB when test start operation, within the standard of environmental requirement to reduce this process to healthy influence.

Further, the present invention also provides a method for cutting a can, which uses the can cutting apparatus 100 of any of the above examples, comprising the steps of:

the bobbin to be cut is placed on the workbench 111, and the bobbin to be cut is sent to the first cutting mechanism 151 and the second cutting mechanism 152 for cutting by the cooperation of the first feeding mechanism 140 and the second feeding mechanism.

The can bar cutting method of the can bar cutting apparatus 100 illustrating a specific example is as follows:

the log to be cut is placed on the table 111 with one end of the log to be cut positioned below the flattening rollers 192 of the flattening device 190.

The lifting driving mechanism 191 of the leveling device 190 drives the leveling pressing wheel 192 to press down on the to-be-cut bobbin, and the rolling driving mechanism drives the leveling pressing wheel 192 to roll so as to press and convey the to-be-cut bobbin to the first feeding mechanism 140 and the second feeding mechanism.

The conveyor belts of the first feeding mechanism 140 and the second feeding mechanism respectively press two sides of the bobbin to be cut, and the bobbin to be cut is conveyed along the transverse direction along with the rotation of the conveyor belts.

The first cutting mechanism 151 and the second cutting mechanism 152 cut both sides of the to-be-cut bobbin in the course of being conveyed in the lateral direction, respectively. The waste material obtained by cutting automatically falls into the first waste collection tank 121 and the second waste collection tank.

When the code is required to be adjusted, the second mounting base 130 moves along the code adjusting guide 112 by rotating the code adjusting handle 162, and the adjustment is performed according to the code number on the code number ruler 171 indicated by the indicating piece 172 in the code number indicating device 170.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A can slitting apparatus, comprising:

the cutting machine comprises a machine base, wherein a workbench for placing a to-be-cut barrel strip is arranged on the machine base;

the first feeding and cutting device is arranged on the base and comprises a first mounting seat, a first feeding mechanism and a first cutting mechanism, and the first feeding mechanism and the first cutting mechanism are arranged on the first mounting seat; and

the second feeding and cutting device is arranged on the base and comprises a second mounting seat, a second feeding mechanism and a second cutting mechanism, and the second feeding mechanism and the second cutting mechanism are arranged on the first mounting seat;

the first feeding mechanism and the second feeding mechanism are used for conveying the to-be-cut bobbin strips placed on the workbench to the first cutting mechanism and the second cutting mechanism along the transverse direction in a matching manner for cutting; the first mounting seat and/or the second mounting seat are/is movably connected with the base, so that the position of the first feeding and cutting device and/or the second feeding and cutting device in the longitudinal direction can be adjusted.

2. The apparatus of claim 1 wherein said first feed cutter is fixed in position in the longitudinal direction and said second feed cutter is adjustable in position in the longitudinal direction.

3. The slitting machine as claimed in claim 2, wherein the base has a longitudinally extending indexing guide, the second mounting block being slidably engaged with the indexing guide.

4. The can bar cutting apparatus as claimed in claim 3, further comprising a code adjusting device, wherein the code adjusting device comprises a code adjusting screw rod, the code adjusting screw rod is connected to the base, the second mounting seat is provided with a code adjusting hole, and the code adjusting screw rod is in threaded fit with the code adjusting hole.

5. The can bar cutting apparatus as claimed in claim 2, further comprising a code number indicating device, the code number indicating device comprising a code number ruler and an indicating member, the code number ruler being disposed on the base, the indicating member being connected to the second mounting base and being movable with the second mounting base, the indicating member cooperating with the code number ruler to indicate the number of codes on the code number ruler.

6. The can cutting equipment according to any one of claims 1 to 5, wherein the first feeding mechanism comprises a first upper conveyor belt and a first lower conveyor belt, the first upper conveyor belt is arranged above the first lower conveyor belt, belt surfaces of the first upper conveyor belt and the first lower conveyor belt are pressed against each other, and transmission directions of the first upper conveyor belt and the first lower conveyor belt are opposite;

the second feeding mechanism comprises a second upper side conveying belt and a second lower side conveying belt, the second upper side conveying belt is arranged above the second lower side conveying belt, partial belt surfaces of the second upper side conveying belt and the second lower side conveying belt are in contact fit, and the transmission directions of the second upper side conveying belt and the second lower side conveying belt are opposite.

7. The slitting machine as claimed in claim 6, wherein the first feeding mechanism further comprises a first slack adjuster having a first adjustment roller in abutting engagement with the upper belt face of the first upper conveyor belt, the first adjustment roller being connected to the first mounting base and being adjustable in height; and/or

The first feeding mechanism further comprises a second tightness adjuster, the second tightness adjuster is provided with a second adjusting roller, the second adjusting roller is in butt fit with the lower side belt surface of the first lower side conveyor belt, and the second adjusting roller is connected to the first mounting seat and is adjustable in height; and/or

The second feeding mechanism further comprises a third tightness adjuster, the third tightness adjuster is provided with a third adjusting roller, the third adjusting roller is in butt fit with the upper side belt surface of the second upper side conveyor belt, and the third adjusting roller is connected to the second mounting seat and is adjustable in height; and/or

The second feeding mechanism further comprises a fourth tightness regulator, the fourth tightness regulator is provided with a fourth regulating roller, the fourth regulating roller is in butt fit with the lower side belt surface of the second lower side conveyor belt, and the fourth regulating roller is connected to the second mounting seat and is adjustable in height.

8. The can slitting apparatus as claimed in any one of claims 1 to 5, 7, wherein the can slitting apparatus further comprises a flattening device, the flattening device being provided on the table; the leveling device comprises a lifting driving mechanism, a rolling driving mechanism and a leveling pressing wheel, wherein the lifting driving mechanism is connected with the leveling pressing wheel and used for driving the leveling pressing wheel to press down on the to-be-cut bobbin, and the rolling driving mechanism is connected with the leveling pressing wheel and used for driving the leveling pressing wheel to roll so as to press and convey the to-be-cut bobbin to the first feeding mechanism and the second feeding mechanism.

9. The slitting machine as claimed in any one of claims 1 to 5 and 7, wherein the slitting machine further comprises a positioning assisting device movably disposed on the worktable, the positioning assisting device being capable of moving in a longitudinal direction, the positioning assisting device having an indicating head for indicating an intermediate position between the first feeding mechanism and the second feeding mechanism.

10. The can cutting apparatus according to any one of claims 1 to 5 and 7, wherein the first cutting mechanism is disposed on a side of the first feeding mechanism away from the second feeding mechanism, and the second cutting mechanism is disposed on a side of the second feeding mechanism away from the first feeding mechanism.

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