CN111515446A

CN111515446A - Cutting machine with low residual loss of tailings

Info

Publication number: CN111515446A
Application number: CN202010448718.2A
Authority: CN
Inventors: 李双
Original assignee: Shuangdeyu Precision Machinery Suzhou Co ltd
Current assignee: Shuangdeyu Precision Machinery Suzhou Co ltd
Priority date: 2020-05-25
Filing date: 2020-05-25
Publication date: 2020-08-11

Abstract

The invention discloses a cutting machine with low tailing residual loss, which comprises a rack, and a feeding part, a tailing feeding part and a cutting part which are sequentially arranged on the rack. The feeding part comprises a feeding support, a feeding driving unit for driving the feeding support to move towards or away from the tailing feeding part, a feeding clamping unit for fixing materials to be cut, a feeding track and a liftable carrying plate. The tailing feeding part comprises a tailing conveying plate arranged between the feeding part and the cutting part, a tailing feeding track arranged along the conveying direction of the material and a tailing moving driving unit used for driving the tailing conveying plate to move. The tailing conveying plate can move towards the direction close to or far away from the feeding part and the cutting part respectively. The cutting machine can effectively reduce the generation of residual tailings, does not shake in the cutting process, and has high cutting precision.

Description

Cutting machine with low residual loss of tailings

Technical Field

The invention relates to the technical field of cutting machines, in particular to a cutting machine with low tailing residual loss.

Background

During machining, it is often necessary to cut the sheet or profile. Thus, the cutting machine plays an indispensable role in the production process in each machined product. With the increase of the demand of automatic processing, the existing cutting machine gradually shows the trend of automation. The existing automatic cutting machine mostly comprises a feeding part and a cutting part, wherein materials are automatically conveyed to the cutting part through the feeding part and cut in the cutting part.

However, most of the existing cutting machines have excessive residual tailings (usually reaching 20-30 cm), and the material cannot be cut by the wide residual width, so that the material loss is large.

Disclosure of Invention

In order to overcome the above disadvantages, the present invention provides a cutting machine with low tailing residue loss, which can greatly reduce the tailing residue.

The cutting machine with low tailing residual loss comprises a rack, a feeding part and a cutting part which are sequentially arranged, and is characterized by further comprising a tailing feeding part used for transferring tailing from the feeding part to the cutting part, wherein the tailing feeding part comprises a tailing transferring plate arranged between the feeding part and the cutting part, and the tailing transferring plate can move towards or away from the feeding part and the cutting part respectively. According to the cutting machine, the tailings are conveyed to the cutting part under the action of the tailing conveying plate, the residual tailings can be fully cut, and the amount of the residual tailings is effectively reduced.

Furthermore, the tailing feeding part also comprises a tailing clamping unit used for fixing the tailing, and the tailing clamping unit comprises a first tailing clamping plate capable of clamping the tailing along a first direction. Therefore, the tailings are sufficiently fixed through the first tailing clamping plate, and the influence on cutting precision caused by material shaking in the cutting process is prevented.

Furthermore, the tailing feeding part further comprises a side top plate connected with the tailing conveying plate, the tailing clamping unit feeding part further comprises a second tailing clamping plate capable of clamping tailing along a second direction, the first tailing clamping plate can move towards or away from the tailing conveying plate, and the second tailing clamping plate can move towards or away from the side top plate.

Furthermore, the tailing feeding part also comprises at least one tailing feeding roller which can rotate along the moving direction of the tailing, and the outer surface of the tailing feeding roller can be in contact with the material and rotates along with the movement of the material. Therefore, the material can be prevented from being scratched in the tailing conveying process under the action of the tailing feeding roller.

Furthermore, the material loading portion includes the material loading support, is used for driving the material loading support orientation is close to or is kept away from the material loading drive unit that tails pay-off portion removed and the material loading clamping unit that is used for treating the material of cutting and fixes, material loading drive unit with the material loading leg joint. Therefore, under the action of the feeding driving unit, the feeding part conveys the materials to the tailing feeding part.

Furthermore, the loading part also comprises a liftable loading plate and at least one lifting driving device for driving the loading plate to move towards the bottom plate close to or far away from the loading support.

Furthermore, the bottom plate of the feeding support is also provided with at least one adjusting stud extending out of the loading plate, the height of the adjusting stud can be adjusted, and the adjusting stud can be abutted against the loading plate. Therefore, the object carrying plate can be prevented from shaking due to the fact that the material is too light under the action of the adjusting stud.

Furthermore, the feeding part also comprises at least one feeding roller which can rotate along the conveying direction of the materials, and the outer surface of the feeding roller can be in contact with the materials and rotates along with the movement of the materials.

Thus, the damage to the material can be reduced.

Further, the cutting part comprises a cutter, a cutter driving device for driving the cutter to rotate and a cutter moving unit for driving the cutter to move towards or away from the material to be cut, and the cutting part further comprises a cutting part clamping unit for fixing the material.

Furthermore, the cutting part also comprises at least one cutting part roller which can rotate along the moving direction of the materials, and the outer surface of the cutting part roller can be contacted with the materials and rotates along with the movement of the materials.

Drawings

FIG. 1 is a schematic perspective view of a preferred embodiment of the present invention;

FIG. 2 is a perspective view of a preferred embodiment of the present invention with the housing removed;

FIG. 3 is a schematic perspective view of a loading portion according to a preferred embodiment of the present invention;

FIG. 4 is a schematic perspective view of a tailing feeding part according to a preferred embodiment of the present invention;

FIG. 5 is a schematic perspective view of a cutting portion according to a preferred embodiment of the present invention;

FIG. 6 is a perspective view of a cutting portion according to a preferred embodiment of the present invention;

fig. 7 is a schematic view illustrating a connection relationship between the support baffle, the first translation rail and the second translation rail according to a preferred embodiment of the present invention.

In the figure:

1-feeding part, 11-feeding bracket, 121-feeding motor, 122-feeding screw rod, 123-sliding seat, 131-upper clamping plate, 132-side clamping plate, 133-upper clamping cylinder, 134-side clamping cylinder, 14-feeding rail, 15-carrying plate, 16-lifting cylinder, 161-guide rod, 162-guide sleeve, 163-adjusting stud, 171-first feeding roller, 172-second feeding roller, 173-third feeding roller, 18-fixed rod, 19-rotating handle, 2-tailing feeding part, 21-tailing moving plate, 22-tailing feeding rail, 23-tailing moving driving motor, 24-tailing moving screw rod, 25-side top plate, 261-first tailing clamping plate, 262-second tailing clamping plate, 263-first tailing clamping cylinder, 264-second tailing clamping cylinder, 27-first tailing feeding roller, 28-second tailing feeding roller, 29-connecting plate and 29-tailing clamping cylinder, 3-cutting part, 31-cutting part fixing frame, 32-cutting knife, 33-cutting knife driving motor, 341-cutting knife moving cylinder, 342-cutting knife moving track, 343-sliding plate, 351-cutting part clamping cylinder, 352-cutting part clamping plate, 353-cutting part guide rod, 36-cutting part roller, 37-supporting baffle plate, 371-opening, 372-first translation track, 373-second translation track and 4-control panel.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the invention.

Referring to the attached

drawings

1 and 2, the cutting machine with low tailing residual loss comprises a rack, a shell, and a feeding part 1, a tailing feeding part 2 and a cutting part 3 which are sequentially arranged on the rack. The tailing feeding part 2 is used for transferring tailing from the feeding part 1 to the cutting part 3, so that the tailing generated in the normal cutting process can be fully cut, and the generation of residual tailing is effectively reduced.

Referring to fig. 3, the feeding part 1 of the present invention includes a feeding support 11, a feeding driving unit for driving the feeding support 11 to move toward or away from the tailing feeding part 2, a feeding clamping unit for fixing the material to be cut, a feeding rail 14, and a liftable carrier plate 15. The feeding track 14 is arranged along the conveying direction of materials entering the cutting machine, a sliding block is arranged on the lower surface of a bottom plate of the feeding support 11, connected with the feeding track 14 and capable of moving along the feeding track 14, and the feeding driving unit is connected with the feeding support 11. The feeding driving unit comprises a feeding motor 121, a feeding screw rod 122 coaxially connected with an output shaft of the feeding motor 121, and a sliding seat 123 arranged on a bottom plate of a feeding support 11, wherein the feeding screw rod 122 is arranged in a direction parallel to a feeding rail 14, and an internal thread hole matched with the feeding screw rod 122 is arranged in the middle of the sliding seat 123 in a penetrating manner. Therefore, the feeding bracket 11 can reciprocate along the feeding rail 14 under the driving of the feeding motor 121.

The loading plate 15 is arranged above the bottom plate of the loading support 11, and the loading part 1 further comprises a lifting cylinder 16 for driving the loading plate 15 to move up and down. The lifting cylinders 16 are arranged on the bottom plate of the feeding support 11, push rods of the lifting cylinders can be abutted against the lower surface of the carrying plate 15, and the number of the lifting cylinders 16 is four, and the lifting cylinders are uniformly distributed and correspondingly arranged at four corners of the carrying plate 15. The number of lift cylinders 16 may also be adjusted as desired. In a preferred embodiment of the present invention, two guide rods 161 are further provided on the lower surface of the carrier plate 15, and a guide sleeve 162 is coaxially provided on the upper surface of the bottom plate of the loading frame 11 with the guide rods 161, thereby ensuring a more stable vertical movement of the carrier plate 15. It is apparent that the arrangement position and number of the guide bars 161 of the present invention on the bottom plate of the loading ledge 11 can be adjusted as desired.

Two adjusting studs 163 extending towards the loading plate 15 are further arranged on the bottom plate of the loading bracket 11, the height of the adjusting studs 163 extending from the bottom plate of the loading bracket 11 can be adjusted, and the upper ends of the adjusting studs 163 can be abutted against the lower surface of the loading plate 15. The height of the adjusting stud 163 is adjusted, so that the up-and-down displacement stroke of the carrying plate 15 can be limited as required, and when the material is too heavy, the adjusting stud 163 is lowered, so that the position of the carrying plate 15 capable of moving downwards is lowered; when the material is light, the adjusting screw 163 is heightened, and the position where the carrying plate 15 can move downwards is raised. Therefore, when the material is light, the material carrying plate 15 does not shake obviously due to overlarge descending stroke, and sufficient cutting precision is ensured.

The feeding part 1 further comprises a feeding roller arranged close to one end of the loading plate 15, the feeding roller comprises a first feeding roller 171, a second feeding roller 172 and a third feeding roller 173, the first feeding roller 171 is arranged on the feeding support 11, a central axis is arranged along the edge of the loading plate 15 close to one end of the loading plate, and the first feeding roller 171 is arranged in a direction parallel to the horizontal plane. When the material moves from the feeding portion 1 to the cutting portion 3, the material can contact the first feeding roller 171, and the damage to the material is reduced by the rotation of the first feeding roller 171. The central axis of the second feeding roller 172 is arranged along the direction perpendicular to the horizontal plane and is located at the feeding end close to the feeding part 1. The second feeding roller 172 is arranged on one side of the feeding opening of the feeding part through the fixed rod 18, the fixed rod 18 is fixed through the rotary handle 19, when the second feeding roller 172 is adjusted to a proper position, the rotary handle 19 is rotated to fix the position of the fixed rod 18, otherwise, the rotary handle 19 is opened to adjust the position of the fixed rod 18, and therefore feeding of materials with different widths can be adapted.

The feeding clamping unit comprises an upper clamping plate 131 positioned above the material and a side clamping plate 132 positioned on the side surface of the material, wherein the upper clamping plate 131 and the side clamping plate 132 can move towards the material and clamp the material under the action of an upper clamping cylinder 133 arranged on the top plate of the feeding support 11 and a side clamping cylinder 134 positioned on the side wall of the feeding support 11 respectively. The side clamping cylinder 134 of the present invention is disposed on the left side wall of the feeding support 11, the third feeding roller 173 is disposed on the right side wall of the feeding support 11, the central axis of the third feeding roller 173 is disposed in a direction perpendicular to the horizontal plane, and the third feeding roller 173 can be abutted against the material. Therefore, when the material is conveyed to the cutting unit 3 through the feeding unit 1, the material can be effectively prevented from being scratched by the first feeding roller 171, the second feeding roller 172, and the third feeding roller 173. It is clear that it is also possible to arrange the third loading roller 173 on the left side wall of the loading ledge 11 and correspondingly the side clamping cylinder 134 on the right side wall of the loading ledge 11, as desired.

Referring to fig. 4, the tailing feeding part 2 of the present invention includes a tailing transfer plate 21 disposed between the feeding part 1 and the cutting part 3, a tailing feeding rail 22 disposed along a material conveying direction, and a tailing movement driving unit for driving the tailing transfer plate 21 to move. The tailing moving driving unit comprises a tailing moving driving motor 23 and a tailing moving screw rod 24 coaxially connected with the tailing moving driving motor 23, and the structure of the tailing moving driving unit is similar to that of the feeding driving unit, and is not described again. The tailing conveying plate 21 can reciprocate along the tailing conveying track 22 under the action of a tailing movement driving motor 23, so that the tailing is conveyed from the feeding part 1 to the cutting part 3.

The left side and the right side of the tailing conveying plate 21 are respectively provided with a side top plate 25 which is perpendicular to the left side and the right side, the tailing feeding part 2 further comprises a tailing clamping unit for fixing the tailing, the tailing clamping unit comprises a first tailing clamping plate 261 which can clamp the tailing along a first direction and a second tailing clamping plate 262 which can clamp the tailing along a second direction, the first tailing clamping plate 261 can move towards the direction close to or far away from the tailing conveying plate 21, and the second tailing clamping plate 262 can move towards the direction close to or far away from the side top plate 25 on one side. The first and second

heel clamping plates

261, 262 are driven by first and second

heel clamping cylinders

263, 264, respectively. The first tailing gripping plate 261 of the present invention is movable up and down, and the second tailing gripping plate 262 is disposed adjacent to the left side roof 25 and movable left and right in the horizontal direction. The structure here is similar to that of the aforementioned feeding clamping unit, and is not described again here.

The tailing feeding part 2 also comprises at least one tailing feeding roller which can rotate along the moving direction of the tailing, and the outer surface of the tailing feeding roller can be in contact with the material and rotates along with the movement of the material. The heel feed roller of the present invention comprises a first heel feed roller 27 and a second heel feed roller 28. The central axis of the first tailing feeding roller 27 is arranged along the edge of the tailing conveying plate 21 close to one end of the feeding part 1, and the first tailing feeding roller 27 is arranged in a direction parallel to the horizontal plane. The second tailing feeding roller 28 of the present invention has a central axis arranged in a direction perpendicular to the horizontal plane, and two in number and arranged along the front and rear edges of the side top plate 25 connected to the right end of the tailing transfer plate 21, respectively.

Referring to fig. 5 and 6, the cutting part 3 of the present invention includes a cutting part fixing frame 31 capable of being butted against the tailing transporting plate 21, a cutter 32, a cutter driving motor 33 for driving the cutter 32 to rotate, a cutter moving unit for driving the cutter 32 to move toward or away from the material to be cut, and a cutting part clamping unit for fixing the material.

The cutter moving unit includes a cutter moving cylinder 341 and a cutter moving rail 342, and the cutter moving rail 342 is located at a side of the cutting part fixing frame 31 and is disposed in a direction perpendicular to an output direction of the material. Cutting part 3 is still including the slide 343 that is used for fixed cutter driving motor 33, and slide 343 joint can move along its direction to being close to or keeping away from cutting part mount 31 on cutter removal track 342, and then, after the material got into cutting part 3, drives cutter 32 and is close to and cuts it to the material.

The cutting part clamping unit of the present invention includes a cutting part clamping cylinder 351 disposed on an upper top plate of a cutting part fixing frame 31, a push rod of the cutting part clamping cylinder 351 passes through the upper top plate of the cutting part fixing frame 31, a cutting part clamping plate 352 is disposed at a lower end of the push rod of the cutting part clamping cylinder 351, and a plurality of cutting part guide bars 353 passing through the upper top plate of the cutting part fixing frame 31, the cutting part guide bars 353 and the push rod of the cutting part clamping cylinder 351 being disposed in parallel to each other, thereby ensuring a smooth up-and-down movement process of the cutting part clamping plate 352.

A cutting part roller 36 is further disposed on a side plate of the cutting part fixing frame 31, which is located at a side of the material, and an outer surface of the cutting part roller 36 can contact with the material and rotate along with the movement of the material. The cutting part rollers 36 of the present invention are arranged in a direction perpendicular to the horizontal plane, and one cutting part roller 36 is respectively disposed at the front and rear edges of the side plate of the cutting part holder 31 near the material output and input, so that the material can be less scratched by the cutting part rollers 36 when the material is discharged from the cutting part 3.

Referring to fig. 7, the cutting machine of the present invention further includes a supporting baffle 37, when the cutting operation is not required, the cutting knife 32 and the cutting portion fixing frame 31 are respectively disposed at two sides of the supporting baffle 37, an opening 371 for the cutting knife 32 to pass through is disposed on the supporting baffle 37, and a first translation rail 372, which is connected to the connecting plate 29 perpendicular to the tailing conveying plate 21 and is clamped to each other by a slider, is further disposed on a surface of the supporting baffle 37 near the tailing conveying plate 21. A second translation rail 373 that is in the same line as the first translation rail 372 is also provided on the support fence 37 in a region corresponding to the cutting section fixing frame 31. The side plate of the cutting part fixing frame 31 is clamped with the second translation rail 373 through a sliding block. When cutting, the cutting part fixing frame 31 is not contacted with the tailing conveying plate 21, and a gap between the two is aligned with the opening 371, so that the cutting knife 32 can approach the material from the opening 371 and cut the material.

The cutting machine of the invention further comprises a control panel 4 arranged on the frame, wherein the control panel 4 is respectively and electrically connected with the feeding motor 121, the upper clamping cylinder 133, the side clamping cylinder 134, the lifting cylinder 16, the tailing moving driving motor 23, the first tailing clamping cylinder 263, the second tailing clamping cylinder 264, the cutter driving motor 33, the cutter moving cylinder 341 and the cutting part clamping cylinder 351.

The working mode of the cutting machine is as follows: the material to be cut is put on the object carrying plate 15, the push rod of the lifting cylinder 16 is pushed out to jack the object carrying plate 15, the upper clamping plate 131 and the side clamping plate 132 move towards the material and clamp the material under the action of the upper clamping cylinder 133 and the side clamping cylinder 134 respectively, and then the feeding motor 121 operates and drives the feeding bracket 11 to move towards the direction of the tailing feeding part 2. After the material gets into tails pay-off portion 2, go up die clamping cylinder 133 and side die clamping cylinder 134 and relax, material loading motor 121 reverses to drive material loading support 11 and reset, and meanwhile, lift cylinder 16 also relaxs, therefore, first material loading cylinder 171 can contact with the material, avoids the fish tail to the material when material loading support 11 resets. Meanwhile, the first tailing clamping plate 261 and the second tailing clamping plate 262 of the tailing feeding part 2 move downward and rightward under the action of the first tailing clamping cylinder 263 and the second tailing clamping cylinder 264, respectively, and clamp the tailing, and then the tailing movement driving motor 23 drives the tailing moving plate 21 to move toward the cutting part 3. After the material gets into cutting portion 3, first tails die clamping cylinder 263 and second tails die clamping cylinder 264 all relax, and the tails removes driving motor 23 reversal, and tails transfer board 21 resets, and meanwhile, cutting portion clamping plate 352 of cutting portion 3 presss from both sides the material tightly on cutting portion mount 31 under the effect of cutting portion die clamping cylinder 351, and at this moment, cutter 32 is close to the material under the effect of cutter moving cylinder 341 to the completion is to the cutting of material. The cutting machine can ensure that the width of the residual tailings does not exceed 1 centimeter under the action of the tailing feeding part 2, and has stable work, no shake in the cutting process and high cutting precision.

The above embodiments are merely illustrative of the technical concept and features of the present invention, and the present invention is not limited thereto, and any equivalent changes or modifications made according to the spirit of the present invention should be included in the scope of the present invention.

Claims

1. The utility model provides a cutting machine that residual loss of tailings is low, includes the frame, still includes the material loading portion and the cutting part that set gradually, its characterized in that, still including be used for with the tailings follow the material loading portion to the tailings pay-off portion that the cutting part transferred, tailings pay-off portion including set up in the material loading portion with the tailings transfer plate in the middle of the cutting part, the tailings transfer plate can be respectively to being close to or keeping away from the material loading portion with the direction of cutting part removes.

2. The cutting machine with low tailing residual loss according to claim 1, wherein the tailing feeding part further comprises a tailing clamping unit for fixing the tailing, and the tailing clamping unit comprises a first tailing clamping plate capable of clamping the tailing along a first direction.

3. The cutting machine with low tailing residual loss according to claim 2, wherein the tailing feeding part further comprises a side top plate connected with the tailing conveying plate, the tailing clamping unit feeding part further comprises a second tailing clamping plate capable of clamping tailing along a second direction, the first tailing clamping plate is capable of moving towards or away from the tailing conveying plate, and the second tailing clamping plate is capable of moving towards or away from the side top plate.

4. The cutting machine with low tailing residual loss according to claim 3, wherein the tailing feeding part further comprises at least one tailing feeding roller capable of rotating along the moving direction of the tailing, and the outer surface of the tailing feeding roller can be in contact with the material and rotate along with the movement of the material.

5. The cutting machine with low tailing residual loss according to claim 1, wherein the feeding part comprises a feeding support, a feeding driving unit and a feeding clamping unit, the feeding driving unit is used for driving the feeding support to move towards or away from the tailing feeding part, the feeding clamping unit is used for fixing materials to be cut, and the feeding driving unit is connected with the feeding support.

6. The cutting machine of claim 5, wherein the loading portion further comprises a liftable carrier plate and at least one lifting driving device for driving the carrier plate to move towards or away from the bottom plate of the loading bracket.

7. The cutting machine with low tailing residual loss according to claim 6, characterized in that at least one adjusting stud extending towards the loading plate is further arranged on the bottom plate of the loading support, the height of the adjusting stud is adjustable, and the adjusting stud can abut against the loading plate.

8. The cutting machine with low tailing residual loss according to claim 5, wherein the feeding part further comprises at least one feeding roller capable of rotating along the conveying direction of the materials, and the outer surface of the feeding roller can be in contact with the materials and rotate along with the movement of the materials.

9. The cutting machine with low tailing residual loss according to claim 1, characterized in that the cutting part comprises a cutting knife, a cutting knife driving device for driving the cutting knife to rotate, a cutting knife moving unit for driving the cutting knife to move towards or away from the material to be cut, and a cutting part clamping unit for fixing the material.

10. The cutting machine with low tailing residual loss according to claim 9, characterized in that the cutting part further comprises at least one cutting part roller capable of rotating along the moving direction of the material, and the outer surface of the cutting part roller can contact with the material and rotate along with the movement of the material.