CN215511215U - Cutting mechanism of handbag processing equipment - Google Patents

Abstract

The utility model discloses a cutting mechanism of handbag processing equipment, which comprises a cutting shell, a cutting knife and a cutting driving assembly, wherein the cutting shell is fixed on a processing platform, a channel hole for a handbag to pass through is formed in the bottom of the cutting shell, the cutting knife is movably connected inside the cutting shell through a cutting support and is positioned right above the processing platform and can move in the vertical direction through the movable support, the cutting driving assembly is arranged inside the cutting shell and drives the cutting knife to move in the vertical direction through the cutting support, the cutting processing is carried out on the handbag passing through the channel hole, the automation degree is higher, and the working efficiency can be improved.

Description

Cutting mechanism of handbag processing equipment

Technical Field

The utility model relates to the field of handbag processing equipment, in particular to a cutting mechanism of handbag processing equipment.

Background

The handbag is an essential tool in daily life of people, and can carry articles through the handbag. The handbag is a simple bag made of paper, plastic, non-woven industrial paper board and other materials. Are commonly used by manufacturers to hold products; and gift can be placed when the gift is delivered. The handbag is generally produced in batches in the processing process, and then each handbag needs to be cut off and separated through a cutting process after the processing is finished. The existing process for cutting off the hand strap generally adopts manual cutting off, and a worker cuts off the hand strap by a cutting-off knife, so that the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses a cutting mechanism of handbag processing equipment, which can automatically cut a handbag.

The utility model discloses a cutting mechanism of handbag processing equipment, which is fixed on a processing platform and comprises a cutting shell, a cutting knife and a cutting driving component, wherein,

the cutting shell is fixedly connected with the processing platform, and a channel hole for a hand bag to pass through is formed in the bottom of the cutting shell;

the cutting-off cutter is movably connected inside the cutting-off shell through a cutting-off bracket, is positioned right above the processing platform and can move in the vertical direction through the movable bracket;

the cutting driving assembly is arranged inside the cutting shell, and drives the cutting knife to move in the vertical direction through the cutting support, so that the hand bag passing through the channel hole is cut off and processed.

Furthermore, the side walls at the two ends of the cut-off shell are respectively provided with a lifting groove, the two ends of the cut-off support are respectively provided with a sliding block, the sliding block is connected with the lifting groove in a sliding manner, and the bottom end of the sliding block is connected with the bottom end of the lifting groove through a reset spring.

Further, cut off drive assembly including cutting off motor and pivot, it drives to cut off the motor the pivot is in rotate directly over cutting off the support, be provided with at least one drive wheel in the pivot, be provided with the bellying on the drive wheel, and pass through the bellying drives cut off the support with the cutting off the sword is followed the lift groove removes in vertical direction.

Furthermore, a cutting roller is arranged on the cutting support and is rotatably connected with the cutting support through a bearing, and the driving wheel drives the cutting support to move in the vertical direction through the cutting roller.

Further, the bottom of cutting off the support is provided with the mounting groove, the top of cutting off the sword is provided with the installation arch, the installation arch stretches into in the mounting groove and fix through the screw.

Compared with the prior art, the technical scheme disclosed by the utility model has the beneficial effects that:

the handbag passes through the passage hole, the cutting-off driving assembly drives the cutting-off cutter to move in the vertical direction through the cutting-off support, the handbag passing through the passage hole is cut off, the automation degree is high, and the working efficiency can be improved.

Drawings

FIG. 1 is a schematic structural view of a handbag processing apparatus;

FIG. 2 is an exploded view of the cleaving mechanism;

FIG. 3 is a schematic structural view of a cutting knife and a cutting support;

FIG. 4 is a schematic structural diagram of a linear indentation mechanism;

FIG. 5 is a schematic structural diagram of a linear indentation mechanism;

FIG. 6 is a schematic structural diagram of a platen roller assembly;

description of the figures

100. Processing equipment; 10. a processing platform; 11. air holes; 12. a transmission slot; 13. indenting grooves; 20. a cutting mechanism; 21. cutting off the shell; 211. a passage hole; 212. a lifting groove; 22. a cutting knife; 221. mounting a boss; 23. cutting off the drive assembly; 231. cutting off the motor; 232. a rotating shaft; 233. a drive wheel; 234. a boss portion; 24. cutting off the bracket; 241. a slider; 242. a return spring; 243. cutting off the roller; 244. mounting grooves; 30. a direct mark pressing mechanism; 31. a pneumatic transmission assembly; 311. a transmission motor; 312. a screw rod; 313. a pneumatic suction cup; 32. a feeding assembly; 321. a transfer cylinder; 322. a tensioning cylinder; 323. a pressing cylinder; 324. a slide rail; 325. pressing a plate; 33. pressing a straight mark assembly; 331. a connecting shaft; 332. an indentation cutter wheel; 333. connecting a bracket; 334. a stent body; 335. connecting blocks; 336. a buffer spring; 337. a buffer shaft; 338. and (4) compacting the screw rod.

Detailed Description

When one component is considered to be "connected" to another component, it can be directly connected to the other component, or intervening components may be present. 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. It should also be noted that, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; either mechanically or electrically, and may be internal to both elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

It should be noted that in the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be configured in a specific orientation, and operate, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1, the present invention discloses a cutting mechanism 20 of a handbag processing equipment, which is arranged on a processing equipment 100 and used for cutting a handbag on the processing equipment 100, wherein the processing equipment 100 is also provided with a processing platform 10 and a straightening mark pressing mechanism 30, the cutting mechanism 20 is arranged on the processing platform 10, and the straightening mark pressing mechanism 30 is used for straightening mark processing the cut handbag.

As shown in fig. 2, the cutting mechanism 20 includes a cutting housing 21, a cutting blade 22, and a cutting driving assembly 23, wherein the cutting housing 21 is fixedly connected to the processing platform 10, the cutting blade 22 and the cutting driving assembly 23 are both located inside the cutting housing 21, a channel hole 211 for a hand bag to pass through is provided at the bottom of the cutting housing 21, the cutting blade 22 is disposed directly above the processing platform 10 through a cutting bracket 24 and is movable in a vertical direction through the cutting bracket 24, and the cutting driving assembly 23 can drive the cutting blade 22 to move in the vertical direction through the cutting bracket 24 to cut the hand bag passing through the channel hole 211.

The side walls at the two ends of the cutting shell 21 are respectively provided with a lifting groove 212, the two ends of the cutting support 24 are respectively provided with a slider 241, the slider 241 is positioned in the lifting groove 212 and can slide in the vertical direction along the lifting groove 212, and then the cutting knife 22 can slide in the vertical direction through the cutting support 24. The bottom end of the slider 241 is connected to the bottom end of the lifting groove 212 through a return spring 242, and when the handbag is cut by the cutting knife 22, the return spring 242 can drive the cutting support 24 and the cutting knife 22 to move upwards through the slider 241.

As shown in fig. 3, the cutting support 24 is provided at the bottom thereof with a mounting groove 244, and the cutting blade 22 is provided at the top thereof with a mounting protrusion 221, wherein the mounting protrusion 221 extends into the mounting groove 244 and is fixed by a screw.

As shown in fig. 2 and 3, the cutting drive assembly 23 is located within the cutting housing 21 and directly above the cutting carriage 24. The cutting driving assembly 23 includes a cutting motor 231 and a rotating shaft 232, and the cutting motor 231 is fixedly connected to the cutting housing 21 and can drive the rotating shaft 232 to rotate. The rotating shaft 232 is provided with at least one driving wheel 233, the outer side of the driving wheel 233 is provided with a protruding portion 234, when the cutting motor 231 drives the driving wheel 233 to rotate through the rotating shaft 232, the protruding portion 234 rotates to a certain position to be in contact with the cutting support 24, and when the driving wheel 233 continues to rotate, the cutting support 24 can be driven by the protruding portion 234 to move downwards along the lifting groove 212, so that the cutting knife 22 is driven to move downwards, and the hand bag passing through the channel hole 211 is cut off. When the boss 234 rotates to the corresponding position and is no longer in contact with the cut-off bracket 24, the cut-off bracket 24 moves upward by the return spring 242 to be reset.

Further, a cutting roller 243 is arranged on the cutting support 24, the cutting roller 243 is rotatably connected with the cutting support 24 through a bearing, and the driving wheel 233 drives the cutting support 24 to move in the vertical direction through the cutting roller 243. When the protruding portion 234 comes into contact with the cutting roller 243 and continues to rotate, the cutting roller 243 may rotate relative to the cutting holder 24, reducing the frictional force between the cutting roller 243 and the protruding portion 234.

After the cutting mechanism 20 cuts the hand bag, the cut hand bag needs to be indented by the indentation mechanism 30.

As shown in fig. 4 and 5, the mark pressing mechanism 30 is disposed on the processing platform 10, the mark pressing mechanism 30 includes a mark pressing component 33, a pneumatic transmission component 31 and a feeding component 32, when the mark pressing mechanism works, the cutting mechanism 33 cuts the hand bags, the pneumatic transmission component 31 drives the cut hand bags to leave a cutting station, and moves the hand bags to a position corresponding to the feeding component 32, and then the feeding component 32 can drive the hand bags to move along the processing platform 10, and the mark pressing component 33 performs mark pressing on the hand bags.

The pneumatic transmission assembly 31 is arranged below the processing platform 10, the pneumatic transmission assembly 31 comprises a transmission motor 311, a screw rod 312 and a pneumatic suction cup 313, the screw rod 312 is rotatably arranged below the processing platform 10, the transmission motor 311 can drive the screw rod 312 to rotate relative to the processing platform 10, the pneumatic suction cup 313 is arranged below the processing platform 10 and is in threaded connection with the screw rod 312 through a ball nut, the transmission motor 311 can drive the pneumatic suction cup 313 to move along the screw rod 312 through the screw rod 312, the pneumatic suction cup 313 is connected with an air pump through an air pipe, a plurality of air holes 11 matched with the pneumatic suction cup 313 are arranged on the processing platform 10, when the pneumatic suction cup 313 sucks air, the hand bag can be sucked through the air holes 11, when the pneumatic suction cup 313 moves along the screw rod 312, the carrier bag may be moved along the processing platform 10 to move the carrier bag to the corresponding location.

A conveying groove 12 is formed below the processing platform 10, and the pneumatic suction cup 313 is positioned by the conveying groove 12 and can move along the conveying groove 12. Guide rods parallel to the screw rod 312 are arranged on two sides of the screw rod 312, and the pneumatic suction cup 313 is guided and positioned through the guide rods.

When the pneumatic transmission assembly 31 drives the cut hand bag to move to a preset position, the pneumatic transmission assembly 31 resets, and at the moment, the feeding assembly 32 can compress the hand bag, tension the hand bag and drive the hand bag to move.

In this embodiment, there are two feeding assemblies 32, and the two feeding assemblies 32 are respectively symmetrically disposed on two sides of the processing platform 10, respectively clamp two side edges of the hand bag, and tension the hand bag.

The feeding assembly 32 includes a conveying cylinder 321, a tensioning cylinder 322, and a pressing cylinder 323, wherein the conveying cylinder 321 is fixed below the processing platform 10 and can drive the tensioning cylinder 322 to horizontally move along a slide rail 324 relative to the processing platform 10, in this embodiment, the conveying cylinder 321 is set to drive the tensioning cylinder 322 to move along an X-axis direction, the pressing cylinder 323 is fixedly connected to an output shaft of the tensioning cylinder 322, the pressing cylinder 323 is located at one side of the processing platform 10, the tensioning cylinder 322 can drive the pressing cylinder 323 to horizontally move relative to the processing platform 10, and in this embodiment, the tensioning cylinder 322 is set to drive the pressing cylinder 323 to horizontally move along a Y-axis direction. The X-axis direction and the Y-axis direction are perpendicular to each other. The output shaft of the pressing cylinder 323 is connected with a pressing plate 325, the pressing plate 325 is located right above the processing platform 10, and the pressing cylinder 323 can drive the pressing plate 325 to move along the Z axis in the vertical direction so as to press the hand bag on the processing platform 10.

Further, a non-slip pad is fixedly connected to the bottom surface of the pressing plate 325, so that the hand bag can be tightly pressed on the processing platform 10, and the hand bag is prevented from sliding relative to the pressing plate.

During operation, the pneumatic transmission assembly 31 moves the cut hand bag to a preset position, then the pressing cylinder 323 drives the pressing plate 325 to move downwards, the hand bag is pressed on the processing platform 10, then the two tensioning cylinders 322 respectively drive the two pressing cylinders 323 to move towards the two sides of the processing platform 10, the distance between the two pressing cylinders 323 is increased, the hand bag can be tensioned and flattened at the moment, and wrinkles are prevented from appearing when the hand bag is pressed by the straight mark pressing assembly 33. Then, the two conveying cylinders 321 respectively drive the two pressing cylinders 323 to move along the X-axis direction through the tensioning cylinder 322, so as to drive the hand bag to move along the X-axis direction, and drive the hand bag to pass through the creasing assembly 33, and perform creasing processing through the creasing assembly 33.

In order to make the handbag move conveniently to be attached to the upper surface of the processing platform 10, the upper surface of the processing platform 10 can adopt finish machining to reduce the surface roughness; or a plurality of rollers are arranged on the upper surface of the processing platform and the position matched with the feeding component 32, so that the hand bag can slide conveniently. In this embodiment, the upper surface of the processing platform 10 is a smooth plane.

As shown in fig. 4 and 6, the creasing assembly 33 includes a connecting shaft 331 disposed above the processing platform 10, two ends of the connecting shaft 331 are respectively rotatably connected with a connecting bracket 333, the connecting shaft 331 is provided with at least one creasing roller 332, and the hand bag passes through between the creasing roller 332 and the processing platform 10 and is creased by the creasing roller 332.

Further, the upper surface of the processing platform 10 is provided with an indentation groove 13 which is matched with the indentation cutter wheel 332.

The creasing wheel 332 may be provided with a heating element to raise the temperature of the creasing wheel 332, so as to facilitate the processing of corresponding creases on the carrier bag.

Connecting support 333 includes support main part 334 and connecting block 335, the end of connecting axle 331 with connecting block 335 rotates and connects, be provided with the dashpot on the support main part 334, be provided with buffer spring 336 in the dashpot, the bottom of connecting block 335 is provided with buffering axle 337, the bottom of buffering axle 337 stretches into in the dashpot and presses and hold buffer spring 336, be provided with compression screw 338 on the connecting block 335, compression screw 338 passes connecting block 335 with support main part 334 threaded connection. The buffer spring 336 is arranged to buffer the creasing cutter wheel 332 and prevent the creasing cutter wheel 332 from crushing the hand bag.

The present invention may be embodied in various forms and modifications without departing from the spirit and scope of the utility model, and the embodiments described above are intended to illustrate the utility model, but do not limit the scope of the utility model.

Claims (5)

1. A cutting mechanism of handbag processing equipment is fixed on a processing platform and is characterized in that the cutting mechanism comprises a cutting shell, a cutting knife and a cutting driving component, wherein,

the cutting shell is fixedly connected with the processing platform, and a channel hole for a hand bag to pass through is formed in the bottom of the cutting shell;

the cutting knife is movably connected inside the cutting shell through a cutting support, is positioned right above the processing platform and can move in the vertical direction through the cutting support;

the cutting driving assembly is arranged inside the cutting shell, and drives the cutting knife to move in the vertical direction through the cutting support, so that the hand bag passing through the channel hole is cut off and processed.

2. The cutting mechanism of handbag processing equipment as claimed in claim 1, wherein the side walls of the two ends of said cutting housing are respectively provided with a lifting groove, the two ends of said cutting support are respectively provided with a slider and are slidably connected with said lifting groove through said slider, and the bottom end of said slider is connected with the bottom end of said lifting groove through a return spring.

3. The cutting mechanism of handbag processing equipment as claimed in claim 2, wherein said cutting drive assembly comprises a cutting motor and a rotating shaft, said cutting motor drives said rotating shaft to rotate right above said cutting support, said rotating shaft is provided with at least one driving wheel, said driving wheel is provided with a protruding portion, and said cutting support and said cutting knife are driven by said protruding portion to move in vertical direction along said lifting groove.

4. The cutting mechanism of handbag processing equipment as claimed in claim 3, wherein said cutting support is provided with a cutting roller, said cutting roller is rotatably connected with said cutting support through a bearing, said driving wheel drives said cutting support to move in a vertical direction through said cutting roller.

5. The cutting mechanism of handbag processing equipment as claimed in claim 4, wherein the bottom of said cutting support is provided with a mounting groove, and the top of said cutting knife is provided with a mounting projection, said mounting projection extending into said mounting groove and being fixed by screw.

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