CN216471278U - High accuracy cuts feeder suitable for foil - Google Patents

High accuracy cuts feeder suitable for foil Download PDF

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Publication number
CN216471278U
CN216471278U CN202123176411.0U CN202123176411U CN216471278U CN 216471278 U CN216471278 U CN 216471278U CN 202123176411 U CN202123176411 U CN 202123176411U CN 216471278 U CN216471278 U CN 216471278U
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plate
cutting
guide
assembly
cylinder
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CN202123176411.0U
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Chinese (zh)
Inventor
陈辉
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Shenzhen Areed Technology Co ltd
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Shenzhen Areed Technology Co ltd
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Abstract

The utility model discloses a high accuracy cuts feeder suitable for foil, include: the vertical plate, the discharging assembly arranged on one end of the vertical plate, the material passing plate arranged at the rear end of the discharging assembly, the material pressing assembly arranged on the material passing plate, the material clamping assembly arranged at the rear end of the material passing plate and the cutting assembly arranged at the rear end of the material clamping assembly, and the material passing plate is provided with a supplied material detection module. The utility model discloses an supplied materials detection module detects supplied materials and the mobile state of material, then sends into the material through pressing from both sides the material subassembly and cuts cutting assembly to this satisfies sheet metal material's automatic feed and the demand that cuts, avoids artifical the participation in the working process, with this improvement feed efficiency and cutting accuracy, ensures operating personnel's safety simultaneously.

Description

High accuracy cuts feeder suitable for foil
Technical Field
The utility model relates to an automatic feed technical field of SMT especially relates to a high accuracy cuts feeder suitable for foil.
Background
Label Feeder, Label supply Feeder, and the like. Labelers, stickers, or automated non-standard equipment may pick and apply label material from a label feeder more efficiently and accurately than manual application, with automation achieved by reducing manual operations. Present traditional metal cuts feeder precision ratio is lower, cuts the limit and has deckle edge problem easily, does not form full-automatic cutting feed moreover, needs the manual work to operate, has great potential safety hazard problem.
Accordingly, the prior art is deficient and needs improvement.
SUMMERY OF THE UTILITY MODEL
The utility model aims at overcoming the not enough of prior art, provide a high accuracy cuts feeder suitable for foil.
The technical scheme of the utility model as follows: there is provided a high precision cut feeder suitable for use with sheet metal comprising: the automatic feeding device comprises a vertical plate, a feeding assembly arranged on one end of the vertical plate, a material passing plate arranged at the rear end of the feeding assembly, a material pressing assembly arranged on the material passing plate, a material clamping assembly arranged at the rear end of the material passing plate, and a cutting assembly arranged at the rear end of the material clamping assembly, wherein a supplied material detection module is arranged on the material passing plate.
Further, the cutting assembly includes: the cutting device comprises a cutting base plate, a cutting cylinder arranged on the cutting base plate, a supporting frame arranged on the cutting base plate, a guide seat arranged on the supporting frame, an upper cutting knife arranged on the guide seat and a lower cutting knife arranged on the output end of the cutting cylinder, wherein the cutting knife is driven by the cutting cylinder to perform up-and-down reciprocating motion, the lower cutting knife is attached to the side surface of the guide seat, a guide groove is formed in the guide seat, and an upper cutting knife cover is fitted on the guide groove.
Further, the guide holder corresponds down and cuts the sword and be provided with and cut the guide rail, down cut the sword and set up in cutting between the guide rail.
Further, the material clamping assembly comprises: the automatic material clamping device comprises a motor arranged on the vertical plate, a ball screw connected with the output end of the motor, a cylinder fixing plate arranged on a ball screw rotor, a material clamping cylinder arranged on the cylinder fixing plate, an upper clamping block arranged at the top of the cylinder fixing plate and a lower clamping block arranged on the output end of the material clamping cylinder, wherein the motor drives the cylinder fixing plate to reciprocate left and right through the ball screw, and the material clamping cylinder drives the lower clamping block to reciprocate up and down.
Furthermore, the sides of the two ends of the ball screw are respectively provided with a movable groove type photoelectric sensor, and the cylinder fixing plate is provided with a light barrier corresponding to the groove type photoelectric sensor.
Furthermore, the vertical plate is provided with a plurality of material clamping guide rails corresponding to the air cylinder fixing plate, and the air cylinder fixing plate is erected on the material clamping guide rails.
Furthermore, a fixed limiting plate is arranged on one side, close to the vertical plate, of the material passing plate, an adjustable limiting plate is movably arranged on the other side of the material passing plate, a plurality of holes are formed in the adjustable limiting plate, connecting holes are formed in the material passing plate corresponding to the holes, and screws penetrate through the holes and are locked in the connecting holes to fix the adjustable limiting plate.
Further, the material pressing component comprises: the pressing cylinder is arranged above the material passing plate, and the pressing block is connected with the output end of the pressing cylinder and drives the pressing block to move towards the direction of the material passing plate;
the material subassembly of pressing still includes: the material pressing rod is arranged above the material passing plate, the rubber block is arranged on the material pressing rod, one end of the rubber block is connected with the material pressing rod, and the other end of the rubber block is in contact with the material passing plate.
Further, the side of blowing subassembly is provided with the guide subassembly, the guide subassembly includes: the device comprises a guide rail arranged on the vertical plate, a guide movable block erected on the guide rail, a balancing weight arranged on the guide movable block, and a plurality of guide shafts arranged on the vertical plate and the guide movable block, wherein a guide detection module is arranged beside the guide rail.
Further, a display control module is arranged on the vertical plate.
According to the above technical scheme, the utility model discloses an supplied materials detection module detects supplied materials and the mobile state of material, then sends into the material through pressing from both sides the material subassembly and cuts the cutting assembly to this automatic feed that satisfies sheet metal material and the demand that cuts avoids artifical the participation in the working process, with this improvement feed efficiency and cutting accuracy, ensures operating personnel's safety simultaneously.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic structural diagram of the cutting assembly.
Detailed Description
The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.
Referring to fig. 1, the present invention provides a high precision cutting feeder for thin metal sheets, comprising: the device comprises a vertical plate 1, a feeding component 2 arranged at one end of the vertical plate 1, a material passing plate 3 arranged at the rear end of the feeding component 2, a material pressing component 4 arranged on the material passing plate 3, a material clamping component 5 arranged at the rear end of the material passing plate 3 and a cutting component 6 arranged at the rear end of the material clamping component 5. And the material passing plate 3 is provided with a supplied material detection module 11.
And (3) mounting the metal sheet coil on the discharging component 2, pulling out the front end of the metal sheet, sequentially passing through the material passing plate 3, the material pressing component 4 and the material clamping component 5, and passing out of the cutting component 6 to finish charging. In operation, the clamping assembly 5 is activated to clamp and convey the foil forward so that the foil extends from the cutting assembly 6 and a set length. Then the pressing assembly 4 is started to press the metal sheet on the material passing plate 3, so that the metal sheet is in a tensioning state. The cutting assembly 6 is started, the metal sheet is cut, the cut metal sheet material is taken away by the material taking mechanism of the upper equipment, and the requirement of automatic feeding is met.
Referring to fig. 2, the cutting assembly 6 includes: bottom, 61, set up in cut cylinder 62 on the bottom plate 61, set up in cut the support frame 63 on the bottom plate 61, set up in guide holder 64 on the support frame 63, set up in last cutting sword 65 on the guide holder 64 and set up in cut the lower cutting sword 66 on the output of cylinder 62. The cutting cylinder 62 drives the lower cutting blade 66 to reciprocate up and down. The lower cutting blade 66 is attached to the side surface of the guide holder 64. The guide seat 64 is provided with a guide groove, and the upper cutting knife 65 covers the guide groove. The foil is fed through the guide slot and extends from the guide block 64 toward a side of the lower cutting blade 66. The cutting cylinder 62 is actuated to drive the lower cutting blade 66 upward and into contact with the foil at the exit of the guide slot. The metal sheet is cut by the upper cutting knife 65 and the lower cutting knife 66 from the upper direction and the lower direction respectively, so that the metal sheet falls on the lower cutting knife 66, and a material taking mechanism is convenient to take materials.
The guide holder 64 is provided with cutting guide rails 67 corresponding to the lower cutting knife 66, and the lower cutting knife 66 is arranged between the cutting guide rails 67, so that the stability of the lower cutting knife 66 in the up-and-down reciprocating movement is improved, and the cutting effect of the metal sheet is ensured.
The material clamping assembly 5 comprises: the vertical plate type material clamping device comprises a motor 51 arranged on the vertical plate 1, a ball screw 52 connected with the output end of the motor 51, a cylinder fixing plate 53 arranged on a rotor of the ball screw 52, a material clamping cylinder 54 arranged on the cylinder fixing plate 53, an upper clamping block 55 arranged at the top of the cylinder fixing plate 53, and a lower clamping block 56 arranged on the output end of the material clamping cylinder 54. The motor 51 drives the cylinder fixing plate 53 to reciprocate left and right through the ball screw 52. The material clamping cylinder 54 drives the lower clamping block 56 to reciprocate up and down. When feeding, the material clamping cylinder 54 is started to drive the lower clamping block 56 to move upwards, and the metal sheet is clamped between the upper clamping block 55 and the lower clamping block 56. The motor 51 is then activated to drive the ball screw 52 to rotate, thereby driving the cylinder fixing plate 53 to move towards the cutting assembly 6, so as to pull the metal sheet to feed.
The sides of the two ends of the ball screw 52 are respectively provided with a movable groove type photoelectric sensor 57, and the cylinder fixing plate 53 is provided with a light barrier 58 corresponding to the groove type photoelectric sensor 57. When the groove-shaped photoelectric sensor 57 detects the light barrier 58, the motor 51 is stopped, so that the feeding precision of the clamping assembly 5 is improved. According to the length of the metal sheet to be cut, the setting position of the groove type photoelectric sensor 57 can be adjusted, and the cutting requirements of the metal sheets with different specifications are met.
The vertical plate 1 is provided with a plurality of material clamping guide rails 59 corresponding to the air cylinder fixing plate 53, and the air cylinder fixing plate frame 53 is arranged on the material clamping guide rails 59, so that the stability of the material clamping assembly 5 in the feeding process is improved, and the feeding effect is ensured.
One side of the material passing plate 3 close to the vertical plate 1 is provided with a fixed limiting plate 31, and the other side of the material passing plate 3 is movably provided with an adjustable limiting plate 32. The adjustable limiting plate 32 is provided with a plurality of holes, the material passing plate 3 is provided with connecting holes corresponding to the holes, and the adjustable limiting plate 32 is fixed by penetrating the holes through screws and locking the holes in the connecting holes. The position of the adjustable limiting block 32 is adjusted according to the metal sheet materials with different widths, so that the limiting is provided for the metal sheet, and the metal sheet is prevented from deviating in the feeding process to influence feeding and cutting.
The material pressing component 4 comprises: the pressing device comprises a pressing cylinder 41 arranged above the material passing plate 3 and a pressing block 42 connected with the output end of the pressing cylinder 41. The material pressing cylinder 41 drives the material pressing block 42 to move towards the direction of the material plate 3. When pressing materials, the pressing cylinder 41 is started to push out the pressing block 42, so that the metal sheet is pressed between the pressing block 42 and the material passing plate 3, and the metal sheet is in a tensioning state and convenient to cut.
The material pressing component 4 further comprises: a pressing rod 43 arranged above the material passing plate 3, and a rubber block 44 arranged on the pressing rod 43. One end of the rubber block 44 is connected with the pressing rod 43, and the other end of the rubber block 44 is in contact with the material passing plate 3. In the feeding process, the upper surface direction of the metal sheet is limited through the rubber block 44, so that the metal sheet is prevented from jumping in the feeding process, the metal sheet is stably conveyed and smoother in the feeding process, and the surface of the metal sheet is prevented from being scratched.
The side of blowing subassembly 2 is provided with guide subassembly 21, guide subassembly 21 includes: the vertical plate type feeding device comprises a feeding guide rail 211 arranged on the vertical plate 1, a feeding movable block 212 erected on the feeding guide rail 211, a balancing weight 213 arranged on the feeding movable block 212, and a plurality of feeding shafts 214 arranged on the vertical plate and the feeding movable block 212. And a material guiding detection module 215 is arranged beside the material guiding guide rail 211. During loading, the front end of the metal sheet extends out of the discharging assembly 2, and passes through the material passing plate 3 after sequentially passing around the material guiding shaft 214. When the blowing is carried out, balancing weight 213 moves down under the effect of gravity, and guide detection module 215 detects that guide movable block 213 moves to spacing down, stops the blowing for the material area remains taut state throughout, improves the precision of blowing and pay-off.
The vertical plate 1 is provided with a display control module 12. The operating parameters of the feeder can be set by the display control module 12 to facilitate adjustment of the speed of discharge and the length of cut.
To sum up, the utility model discloses an supplied materials detection module detects supplied materials and the mobile state of material, then sends into the material through pressing from both sides the material subassembly and cuts the cutting assembly to this automatic feed that satisfies sheet metal material and the demand that cuts avoids artifical the participation in the working process, with this improvement feed efficiency and cutting accuracy, ensures operating personnel's safety simultaneously.
The present invention is not limited to the above preferred embodiments, and any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. A high precision cut feeder suitable for use with sheet metal comprising: the automatic feeding device comprises a vertical plate, a feeding assembly arranged on one end of the vertical plate, a material passing plate arranged at the rear end of the feeding assembly, a material pressing assembly arranged on the material passing plate, a material clamping assembly arranged at the rear end of the material passing plate, and a cutting assembly arranged at the rear end of the material clamping assembly, wherein a supplied material detection module is arranged on the material passing plate.
2. A high precision cut feeder for metal sheets as claimed in claim 1 wherein the cutting assembly comprises: the cutting device comprises a cutting base plate, a cutting cylinder arranged on the cutting base plate, a supporting frame arranged on the cutting base plate, a guide seat arranged on the supporting frame, an upper cutting knife arranged on the guide seat and a lower cutting knife arranged on the output end of the cutting cylinder, wherein the cutting knife is driven by the cutting cylinder to perform up-and-down reciprocating motion, the lower cutting knife is attached to the side surface of the guide seat, a guide groove is formed in the guide seat, and an upper cutting knife cover is fitted on the guide groove.
3. A high precision cut feeder for sheet metal as claimed in claim 2 wherein the guide base is provided with cut rails corresponding to the lower cutting blades, the lower cutting blades being provided between the cut rails.
4. A high precision cut feeder for sheet metal as claimed in claim 1 wherein the clip assembly comprises: the automatic material clamping device comprises a motor arranged on the vertical plate, a ball screw connected with the output end of the motor, a cylinder fixing plate arranged on a ball screw rotor, a material clamping cylinder arranged on the cylinder fixing plate, an upper clamping block arranged at the top of the cylinder fixing plate and a lower clamping block arranged on the output end of the material clamping cylinder, wherein the motor drives the cylinder fixing plate to reciprocate left and right through the ball screw, and the material clamping cylinder drives the lower clamping block to reciprocate up and down.
5. The high precision cutting feeder for metal sheets as claimed in claim 4, wherein the ball screw is provided with a movable groove type photo sensor at both ends thereof, and the cylinder fixing plate is provided with a light blocking plate corresponding to the groove type photo sensor.
6. A high accuracy cut-off feeder suitable for sheet metal as claimed in claim 4 wherein said vertical plate is provided with a plurality of gripping rails corresponding to the cylinder fixing plate, said cylinder fixing plate being mounted on the gripping rails.
7. The high-precision cutting feeder suitable for metal sheets as claimed in claim 1, wherein a fixed limiting plate is arranged on one side of the passing plate close to the vertical plate, an adjustable limiting plate is movably arranged on the other side of the passing plate, a plurality of holes are formed in the adjustable limiting plate, a connecting hole is formed in the passing plate corresponding to each hole, and a screw penetrates through each hole and is locked in the connecting hole to fix the adjustable limiting plate.
8. The high precision cut feeder for sheet metal of claim 1 wherein said swaging assembly comprises: the pressing cylinder is arranged above the material passing plate, and the pressing block is connected with the output end of the pressing cylinder and drives the pressing block to move towards the direction of the material passing plate;
the material subassembly of pressing still includes: the material pressing rod is arranged above the material passing plate, the rubber block is arranged on the material pressing rod, one end of the rubber block is connected with the material pressing rod, and the other end of the rubber block is in contact with the material passing plate.
9. The high precision cutting feeder for sheet metal of claim 1, wherein a material guiding assembly is provided beside said discharging assembly, said material guiding assembly comprising: the device comprises a guide rail arranged on the vertical plate, a guide movable block erected on the guide rail, a balancing weight arranged on the guide movable block, and a plurality of guide shafts arranged on the vertical plate and the guide movable block, wherein a guide detection module is arranged beside the guide rail.
10. A high precision cut-off feeder for metal sheets as in claim 1 wherein a display control module is provided on the riser.
CN202123176411.0U 2021-12-16 2021-12-16 High accuracy cuts feeder suitable for foil Active CN216471278U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202123176411.0U CN216471278U (en) 2021-12-16 2021-12-16 High accuracy cuts feeder suitable for foil

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202123176411.0U CN216471278U (en) 2021-12-16 2021-12-16 High accuracy cuts feeder suitable for foil

Publications (1)

Publication Number Publication Date
CN216471278U true CN216471278U (en) 2022-05-10

Family

ID=81424378

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202123176411.0U Active CN216471278U (en) 2021-12-16 2021-12-16 High accuracy cuts feeder suitable for foil

Country Status (1)

Country Link
CN (1) CN216471278U (en)

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