CN215668674U - A cut-parts device for handbag production - Google Patents

Abstract

The utility model relates to the technical field of handbag production, in particular to a cutting device for handbag production. The cloth feeding mechanism is novel in design, the driving mechanism drives the two slider connecting plates to move so as to drive the four sliders to move, the four sliders respectively drive the two pressing plates to move up and down, and the sliding table is driven to move back and forth, so that the cloth can be fed, and meanwhile, the cloth can be pressed and positioned, so that the feeding efficiency is improved, the cloth is prevented from being deviated, the cutting precision is influenced, the structure is simple, the operation is reliable and stable, and the manufacturing cost is low.

Description

A cut-parts device for handbag production

Technical Field

The utility model relates to the technical field of handbag production, in particular to a cutting device for handbag production.

Background

The handbag is a simple bag made of paper, plastics, non-woven industrial paper boards and the like, and the handbag is usually used by manufacturers for containing products; gifts are also placed during gift delivery; the handbag is also used as a bag product by a lot of western people of fashion foredefence, can be matched with other adornments, has various classifications, can be printed by hundreds of different handbag printing types, forms and designs according to the difference of classification thickness, has various functions and appearance contents, and arranges the printing types of the handbag from the perspective of the packaging and printing industry. When the handbag is produced, the cloth raw material of the handbag needs to be cut into pieces, so that the cloth raw material needs to be cut by using a cutting device.

The existing cutting device generally conveys and loads the cloth through a roller, the cloth cannot be compressed and positioned in the loading mode, and the cloth is easy to move when being cut, so that the cutting opening is uneven, and the cutting precision is reduced. Accordingly, a cutting device for handbag production is provided by those skilled in the art to solve the problems set forth in the background art described above.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a cutting device for handbag production, which solves the problems in the prior art.

In order to achieve the purpose, the utility model provides the following technical scheme:

a cutting device for handbag production comprises a device main body, wherein a portal frame is fixed at one end position of the upper side of the device main body, a cutting cylinder is inserted and installed at the central position of the top end of the inner part of the portal frame, a cutting knife is fixed at the telescopic end of the cutting cylinder, a sliding table sliding groove is formed in one end of the upper side of the device main body, a collecting groove is formed in the other end of the upper side of the device main body, the inner side of the sliding table sliding groove is connected with a sliding table in a sliding manner, two sliding block sliding grooves are symmetrically formed in positions of two ends of the sliding table, sliding blocks are arranged on the inner sides of four sliding block sliding grooves, two sliding block guide rods are connected on the inner sides of four sliding blocks in a penetrating and sliding manner, two ends of eight sliding block guide rods are respectively fixed with two ends of the inner sides of the four sliding block sliding grooves, connecting rods are rotatably connected on the upper sides of the four sliding blocks, the device comprises a main body, a sliding block sliding groove, lifting rods, a pressing plate, a sliding block connecting plate, a driving mechanism, a controller and a cutting cylinder, wherein the lifting rods are inserted into the positions, corresponding to the four sliding block sliding grooves, of the upper side of the main body in a sliding mode, the bottom ends of the four lifting rods are connected with one ends of four connecting rods in a rotating mode respectively, the tops of two cutting knives located at one end are fixedly provided with cross beams, the pressing plate is arranged below the cross beams, two sliding blocks located at one side are fixedly provided with the sliding block connecting plate, the driving mechanism is arranged on the two sides of the sliding block connecting plate and the main body in a same structure, four supporting columns which are arranged in a rectangular mode are fixedly arranged at the positions, the bottom end of the main body is located at four corners, the controller is installed on one side of the outer portion of the portal, and the cutting cylinder is electrically connected with the controller.

As a still further scheme of the utility model: the driving mechanism comprises a screw rod sliding block and a motor, wherein the screw rod sliding block is fixed on one side of a sliding block connecting plate and located at the middle section position, the motor is installed on one side of the upper portion of the device body and located at one end position, a screw rod is fixed at the driving end of the motor, the screw rod is rotatably connected with the inner side of the screw rod sliding block through screw teeth, and the two motors are electrically connected with the controller.

As a still further scheme of the utility model: two the upside of pressure strip is located the equal symmetry in both ends position department and is fixed with two pressure strip connecting rods, four the pressure strip connecting rod slides respectively and inserts the inside of locating two crossbeams, four the outside of pressure strip connecting rod all is overlapped and is equipped with the spring that is located the crossbeam downside, and the top of four pressure strip connecting rods all is fixed with the limiting plate.

As a still further scheme of the utility model: the two ends of the slide block guide rod are respectively sleeved with a damping sleeve, and the damping sleeves are sixteen members made of rubber materials.

As a still further scheme of the utility model: the inside both sides of slip table all run through sliding connection and have the slip table guide arm, two the both ends of slip table guide arm are equallyd divide and are do not fixed mutually with the both ends of slip table spout.

As a still further scheme of the utility model: two the one end of slider connecting plate all rotates and is connected with the backup pad, two the lower extreme of backup pad all is fixed mutually with the upside of device main part.

Compared with the prior art, the utility model has the beneficial effects that: the cloth feeding mechanism is novel in design, the driving mechanism drives the two slider connecting plates to move so as to drive the four sliders to move, the four sliders respectively drive the two pressing plates to move up and down, and the sliding table is driven to move back and forth, so that the cloth can be fed, and meanwhile, the cloth can be pressed and positioned, so that the feeding efficiency is improved, the cloth is prevented from being deviated, the cutting precision is influenced, the structure is simple, the operation is reliable and stable, and the manufacturing cost is low.

Drawings

FIG. 1 is a schematic structural diagram of a cutting device for handbag production;

FIG. 2 is a schematic view of a cutting device for handbag production in partial section;

FIG. 3 is an enlarged view of the cutting device used in handbag production, at A in FIG. 1;

FIG. 4 is an enlarged view of the cutting device for handbag production at B in FIG. 2;

fig. 5 is a rear view of a slitting device for handbag production.

In the figure: 1. a device main body; 2. a gantry; 3. cutting the air cylinder; 4. a cutting knife; 5. a controller; 6. a sliding table; 7. a slider guide; 8. a slider; 9. a connecting rod; 10. a lifting rod; 11. a cross beam; 12. a compression plate; 13. a slider connecting plate; 14. a screw rod slide block; 15. a screw rod; 16. a motor; 17. a pressure strip connecting rod; 18. a spring; 19. a limiting plate; 20. a shock-absorbing sleeve; 21. slip table guide arm.

Detailed Description

Referring to fig. 1 to 5, in the embodiment of the utility model, a cutting device for handbag production comprises a device main body 1, a portal frame 2 is fixed at one end position of the upper side of the device main body 1, a cutting cylinder 3 is inserted and installed at the central position of the top end of the inner part of the portal frame 2, a cutting knife 4 is fixed at the telescopic end of the cutting cylinder 3, a sliding table chute is arranged at one end of the upper side of the device main body 1, a collecting tank is arranged at the other end of the upper side of the device main body 1, a sliding table 6 is slidably connected to the inner side of the sliding table chute, two sliding block chutes are symmetrically arranged at two ends of the sliding table 6, sliding blocks 8 are arranged at the inner sides of the four sliding block chutes, two sliding block guide rods 7 are slidably connected to the inner sides of the four sliding blocks 8, two ends of the eight sliding block guide rods 7 are respectively fixed to the inner ends of the four sliding block chutes, connecting rods 9 are rotatably connected to the upper sides of the four sliding blocks 8, the position department that the upside of device main part 1 corresponds four slider chutes all slides and inserts and be equipped with lifter 10, the bottom of four lifter 10 rotates with the one end of four connecting rods 9 respectively and is connected, and the top that is located two cutting knife 4 of one end all is fixed with crossbeam 11, the below of two crossbeam 11 all is provided with pressure strip 12, one side that is located two sliders 8 of one side all is fixed with slider connecting plate 13, two slider connecting plate 13 are provided with the actuating mechanism that the structure is the same respectively with the both sides of device main part 1, the bottom of device main part 1 is located four corners position department and is fixed with four support columns that are the rectangle and arrange, controller 5 is installed to outside one side of portal 2, cutting cylinder 3 and controller 5 electric connection.

In fig. 1 and 4: actuating mechanism is including being fixed in lead screw slider 14 that slider connecting plate 13 one side is located middle section position department and installing in the motor 16 that 1 top one side of device main part is located one end position department, motor 16's drive end is fixed with lead screw 15, lead screw 15 rotates through the inboard of screw tooth with lead screw slider 14 to be connected, two motors 16 all with controller 5 electric connection, actuating mechanism is used for driving four sliders 8 and removes, thereby drive pressure strip 12 and reciprocate, drive slip table 6 round trip movement simultaneously.

In fig. 3: the upside of two pressure strips 12 is located the equal symmetry in both ends position department and is fixed with two pressure strip connecting rods 17, and four pressure strip connecting rods 17 slide respectively and insert the inside of locating two crossbeams 11, and the outside of four pressure strip connecting rods 17 all overlaps and is equipped with the spring 18 that is located the crossbeam 11 downside, and the top of four pressure strip connecting rods 17 all is fixed with limiting plate 19, and pressure strip connecting rod 17 plays the guide effect, and spring 18 plays the cushioning effect, prevents that pressure from being too big with the cloth pressure loss.

In fig. 4: the two ends of the eight sliding block guide rods 7 are respectively sleeved with a damping sleeve 20, and the sixteen damping sleeves 20 are all made of rubber. The shock-absorbing sleeve 20 is used for absorbing shock generated by the impact of the slide block 8 and the end part of the slide block chute.

In fig. 1: all run through sliding connection in the inside both sides of slip table 6 and have slip table guide arm 21, the both ends of two slip table guide arms 21 are equallyd divide and are fixed mutually with the both ends of slip table spout respectively, and slip table guide arm 21 plays the guide effect to slip table 6, improves the slip stability of slip table 6.

In fig. 1: the one end of two slider connecting plates 13 all rotates and is connected with the backup pad, and the lower extreme of two backup pads all is fixed mutually with the upside of device main part 1, and the backup pad is used for supporting lead screw 15.

The working principle of the utility model is as follows: the controller 5 controls the two motors 16 to synchronously rotate, the two motors 16 drive the two lead screws 15 to synchronously rotate, the two lead screws 15 drive the two lead screw sliders 14 to move towards one end of the device main body 1 through screw tooth meshing, the two lead screw sliders 14 respectively drive the two slider connecting plates 13 to move, the two slider connecting plates 13 respectively drive the four sliders 8 to slide towards one ends of the slider chutes, the four sliders 8 respectively drive the four connecting rods 9 to rotate towards the vertical direction, the four connecting rods 9 push the four lifting rods 10 to move upwards, the four lifting rods 10 respectively drive the two cross beams 11 to move upwards, the two cross beams 11 drive the two pressing plates 12 to move upwards, so that the pressing plates 12 can be separated from the upper surface of the sliding table 6, when the four sliders 8 slide to one end of the four slider chutes, the two connecting plates 13 continue to drive the four sliders 8 to move, and the four sliders 8 push the sliding table 6 to integrally move towards one end of the device main body 1, when the sliding table 6 moves to one end part of the device main body 1, the controller 5 controls the two motors 16 to synchronously rotate reversely, the four sliding blocks 8 are driven to move reversely by the principle, the four sliding blocks 8 drive the four connecting rods 9 to rotate horizontally, the four connecting rods 9 drive the four lifting rods 10 to move downwards, the four lifting rods 10 respectively drive the two cross beams 11 to move downwards, the two cross beams 11 drive the two pressing plates 12 to move downwards, the two pressing plates 12 press the cloth raw material on the upper side of the sliding table 6, when the four sliding blocks 8 move to the other end of the sliding chute of the sliding block, the four lifting rods 10 move to the lowest point, at the moment, the two sliding block connecting plates 13 continue to move reversely, the four sliding blocks 8 are driven to move reversely, the four sliding blocks 8 drive the sliding table 6 to move reversely integrally, the sliding table 6 can drive the cloth raw material on the upper side of the sliding table 6 to move towards the lower part of the portal 2, when the sliding table 6 moves to the position right below the portal 2, the flexible end of cutting cylinder 3 stretches out and drives cutting knife 4 and descend, and cutting knife 4 cuts the cloth of 6 upsides of slip table, and the cloth piece that cuts out is collected inboard at the collecting vat of the 1 other end of device main part.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to or changed within the scope of the present invention.

Claims (6)

1. A cutting device for handbag production comprises a device main body (1) and is characterized in that a portal frame (2) is fixed at one end position of the upside of the device main body (1), a cutting cylinder (3) is inserted and installed at the central position of the top end of the inside of the portal frame (2), a cutting knife (4) is fixed at the telescopic end of the cutting cylinder (3), a sliding table chute is arranged at one end of the upside of the device main body (1), a collecting tank is arranged at the other end of the upside of the device main body (1), a sliding table (6) is connected to the inner side of the sliding table chute in a sliding manner, two sliding block chutes are symmetrically arranged at positions of two ends of the two sides of the sliding table (6), four sliding block chutes are arranged at the inner sides of the sliding block chutes, four sliding blocks (8) are connected with two sliding block guide rods (7) in a penetrating and sliding manner, the two ends of the eight sliding block guide rods (7) are respectively fixed with the two ends of the inner side of the four sliding block sliding grooves, the upper sides of the four sliding blocks (8) are respectively connected with a connecting rod (9) in a rotating mode, lifting rods (10) are respectively inserted into the positions, corresponding to the four sliding block sliding grooves, of the upper side of the device main body (1) in a sliding mode, the bottoms of the four lifting rods (10) are respectively connected with one ends of the four connecting rods (9) in a rotating mode, cross beams (11) are respectively fixed to the top ends of two cutting knives (4) located at one end, pressing plates (12) are arranged below the two cross beams (11), sliding block connecting plates (13) are respectively fixed to one sides of the two sliding blocks (8) located at one side, driving mechanisms with the same structure are respectively arranged on the two sides of the two sliding block connecting plates (13) and the two sides of the device main body (1), four supporting columns which are arranged in a rectangular mode are fixed to the positions of the bottom end of the device main body (1), controller (5) are installed to the outside one side of portal (2), cutting cylinder (3) and controller (5) electric connection.

2. The cutting device for handbag production as claimed in claim 1, wherein said driving mechanism comprises a screw rod slider (14) fixed on one side of a slider connecting plate (13) and located at the middle position and a motor (16) mounted on one side above the device body (1) and located at one end position, a screw rod (15) is fixed at the driving end of the motor (16), the screw rod (15) is rotatably connected with the inner side of the screw rod slider (14) through screw teeth, and the two motors (16) are electrically connected with the controller (5).

3. The cutting device for handbag production as recited in claim 1, wherein two upper side of the pressing plate (12) is located at both ends and is symmetrically fixed with two pressing plate connecting rods (17), four pressing plate connecting rods (17) are respectively inserted into the two cross beams (11) in a sliding manner, four outer sides of the pressing plate connecting rods (17) are respectively sleeved with springs (18) located on the lower side of the cross beams (11), and the top ends of the four pressing plate connecting rods (17) are respectively fixed with limiting plates (19).

4. A cut-parts device for handbag production according to claim 1, characterized in that eight the both ends of slider guide arm (7) all are equipped with shock attenuation cover (20), sixteen shock attenuation cover (20) all adopt the component of rubber material.

5. The cutting device for the production of the hand bags according to claim 1, wherein sliding connection is made through sliding connection with sliding table guide rods (21) on both sides of the inside of the sliding table (6), and both ends of the two sliding table guide rods (21) are fixed with both ends of the sliding table sliding groove respectively.

6. A cut-parts device for handbag production as claimed in claim 1, characterized in that, the one end of two slider connecting plates (13) all is rotated and is connected with the backup pad, the lower extreme of two backup pads all is fixed mutually with the upside of device main part (1).

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