CN220334297U - Full-automatic card sorting machine - Google Patents

Abstract

The utility model relates to the technical field of card paper segmentation, in particular to a full-automatic card sorting machine, which comprises a rack a and a rack b; the frame a and the frame b are vertically distributed; a feeding mechanism is arranged at one end of the frame a far away from the frame b; the frame a is provided with a conveying device a; a guide mechanism a and a cutting assembly a are sequentially arranged on the frame a along the conveying direction of the conveying device a; the cutting assembly a is in transmission connection with the conveying device a; the frame b is provided with a conveying device b; a guide mechanism b and a cutting assembly b are sequentially arranged on the frame b along the conveying direction; the discharging part of the conveying device a is connected with the feeding part of the conveying device b. According to the utility model, stacked card papers can be rapidly conveyed to the conveying device a through the feeding mechanism; and then, the guide mechanism a can correct the positions of the paper jams with different sizes before transverse cutting, so that the paper jams are prevented from shifting in the conveying process, and inaccurate cutting is avoided.

Description

Full-automatic card sorting machine

Technical Field

The utility model relates to the technical field of card paper segmentation, in particular to a full-automatic card sorting machine.

Background

Cards are common in life, such as playing cards, cards for young children to learn, and the like. In the process of card production, patterns are generally printed on the whole paper surface first, and then cut by a card sorting machine.

The Chinese patent with the authorized bulletin number of CN215848372U discloses a full-automatic card sorting machine, which comprises an inclined plane conveying roller table, a feeding device, a steering roller table and a slitting mechanism, wherein a first frame body is erected at one end of the top of the inclined plane conveying roller table, the feeding device is fixed at the bottom end of the first frame body, a second frame body is arranged at the central position of the top of the inclined plane conveying roller table, the steering roller table is arranged at one side of the inclined plane conveying roller table, the slitting mechanism is arranged at one end of the steering roller table far away from the inclined plane conveying roller table, cutting slits are uniformly distributed in the slitting mechanism, and a cutting knife is fixed at the bottom end of the lifting mechanism; according to the technical scheme, automatic feeding is facilitated, and time and labor are saved.

However, the technical solutions in the above patent have the following disadvantages: the device that can carry out spacing with not unidimensional raw materials card paper lacks among the prior art, if the size of raw materials card paper changes can not be fine at the skew takes place for raw materials card paper of in-process prevention, can cause raw materials card paper cutting inaccuracy.

Disclosure of Invention

The utility model aims to solve the problems in the background technology and provides a full-automatic card sorting machine.

The technical scheme of the utility model is as follows: a full-automatic card sorting machine comprises a frame a and a frame b;

the frame a and the frame b are vertically distributed; a feeding mechanism is arranged at one end of the frame a far away from the frame b; the frame a is provided with a conveying device a; a guide mechanism a and a cutting assembly a are sequentially arranged on the frame a along the conveying direction of the conveying device a; the cutting assembly a is in transmission connection with the conveying device a;

the frame b is provided with a conveying device b; a guide mechanism b and a cutting assembly b are sequentially arranged on the frame b along the conveying direction; the discharging part of the conveying device a is connected with the feeding part of the conveying device b.

Preferably, the conveying device a and the conveying device b have the same structure; the guide mechanism a and the guide mechanism b have the same structure; the cutting assembly a and the cutting assembly b have the same structure.

Preferably, the conveying device a comprises a conveying roller and a motor a; the conveying rollers are uniformly arranged along the conveying direction of the frame a; two adjacent conveying rollers are in transmission connection, and any conveying roller is in transmission connection with a motor a; the motor a is connected with the frame a.

Preferably, the cutting assembly a comprises a cutting roller a and a fixing mechanism capable of detachably connecting the cutting roller a with the frame a;

the cutting roller a comprises a rotating shaft and a cutting part; the fixing mechanism comprises a rotating part, a clamping block and a bolt; the rotating part is in transmission connection with any one of the conveying rollers; the rotating part is rotationally connected with the frame a; the rotating part is provided with an accommodating groove for accommodating the rotating shaft; the bolts are sequentially in threaded fit with the clamping blocks, the rotating shafts and the rotating parts to form a fixed structure.

Preferably, the feeding mechanism comprises a mounting frame, a lifting mechanism and a vacuumizing device;

the lifting mechanism is connected with the mounting frame; the telescopic end of the lifting mechanism is connected with a placing plate for stacking raw materials; the placing plate is connected with the mounting frame in a sliding way; the vacuumizing device is connected with the mounting frame; an electric push rod a is vertically arranged on the mounting frame; an electric push rod b is horizontally arranged on the mounting frame; sucker parts are arranged on the telescopic rods of the electric push rod a and the electric push rod b; the vacuumizing device is communicated with the sucking disc parts through a plurality of pipelines.

Preferably, the device further comprises an inductor; the sensor is connected with the mounting frame; the distance value of the lower end surface of the sensor from the ground is larger than that of a plane formed by a plurality of conveying rollers on the cutting roller a.

Preferably, the guide mechanism a comprises a guide plate, a guide rod and a screw rod; the screw rod is provided with a thread part a and a thread part b, and the thread directions of the thread part a and the thread part b are opposite and symmetrically distributed; the thread part a and the thread part b are respectively in threaded fit connection with two guide plates; both guide plates are in sliding connection with the guide rod; the two ends of the guide rod are connected with the frame a; the screw rod is rotationally connected with the frame a, and one end of the screw rod extends out of the frame a and is connected with the crank; the crank is sleeved with a handle.

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial technical effects:

according to the utility model, stacked card papers can be rapidly conveyed to the conveying device a through the cooperation of the lifting mechanism, the vacuum device, the sensor, the electric push rod a and the electric push rod b in the feeding mechanism; the guide mechanism a can correct the positions of the paper jams with different sizes before transverse cutting, so that the paper jams are prevented from being deviated in the conveying process, and inaccurate cutting is avoided; the conveying structure b on the frame b, the guiding mechanism b and the frame a are the same, the transversely cut card paper can be longitudinally cut again under the cooperation of the conveying device a and the conveying device b, the card can not be completely separated by the two cuts, and the card paper can be manually separated after the two cuts are completed; the two cutting rollers are both provided with fixing mechanisms, and the cutting roller a or the cutting roller b can be quickly replaced and maintained through the fixing mechanisms; the screw rod is rotated by rotating the crank, the threaded part a and the threaded part b on the screw rod are respectively connected with two guide plates in a threaded fit manner, the directions of the threads on the two threaded parts are opposite, and the two guide plates can move towards the middle by rotating the screw rod until the distance between the two guide plates is proper; the guide plate is inclined outwards towards one end of the feeding mechanism, so that the paper jam is ensured to enter the guide mechanism a smoothly and stably; by the mode, the equipment can adapt to paper jams with different sizes, and deviation of the paper jams on the conveying device is avoided, so that inaccurate cutting is caused.

Drawings

Fig. 1 is a perspective view of an embodiment of the present utility model.

Fig. 2 is a schematic structural diagram of a feeding mechanism according to an embodiment of the present utility model.

Fig. 3 is a schematic structural view of a guiding mechanism according to an embodiment of the present utility model.

Fig. 4 is a schematic structural view of a fixing mechanism according to an embodiment of the present utility model.

Reference numerals: 1. a rack a; 2. a feeding mechanism; 3. a guide mechanism a; 4. a cutting roller a; 5. a frame b; 6. a conveying device a; 7. a conveying device b; 8. a fixing mechanism; 9. a guide mechanism b; 10. a cutting roller b; 11. paper jam; 21. a mounting frame; 22. an electric push rod a; 23. an electric push rod b; 24. a vacuum pumping device; 25. an inductor; 26. a suction cup part; 27. placing a plate; 28. a lifting mechanism; 31. a guide plate; 32. a guide rod; 33. a screw rod; 34. a crank; 35. a grip; 41. a rotating shaft; 81. a rotating part; 82. a clamping block; 83. and (5) a bolt.

Detailed Description

Example 1

As shown in fig. 1-4, the full-automatic card sorting machine provided by the utility model comprises a frame a1 and a frame b5;

the frame a1 and the frame b5 are vertically distributed; one end of the frame a1 far away from the frame b5 is provided with a feeding mechanism 2; the frame a1 is provided with a conveying device a6; a guide mechanism a3 and a cutting assembly a are sequentially arranged on the frame a1 along the conveying direction of the conveying device a6; the cutting assembly a is in transmission connection with the conveying device a6;

the frame b5 is provided with a conveying device b7; a guide mechanism b9 and a cutting assembly b are sequentially arranged on the frame b5 along the conveying direction; the discharging part of the conveying device a6 is connected with the feeding part of the conveying device b7;

the conveying device a6 and the conveying device b7 have the same structure; the guide mechanism a3 and the guide mechanism b9 have the same structure; the cutting assembly a and the cutting assembly b have the same structure;

the conveying device a6 comprises a conveying roller and a motor a; the conveying rollers are uniformly arranged along the conveying direction of the frame a1; two adjacent conveying rollers are in transmission connection, and any conveying roller is in transmission connection with a motor a; the motor a is connected with the frame a1; the motor a drives a plurality of driving conveying rollers to rotate so as to enable the card paper 11 to move on the equipment; the distance value between the conveying rollers of the conveying device a6 and the ground is the same as the distance value between the conveying rollers of the conveying device b10 and the ground, that is, the conveying rollers are on the same plane, when the paper jam 11 is transversely cut by the cutting assembly a on the conveying device a6, the cut paper jam 11 is slowly conveyed from the conveying device a6 to the conveying device b10, and then is longitudinally cut by the cutting assembly b on the conveying device b 10.

The cutting assembly a includes a cutting roller a4 and a fixing mechanism 8 capable of detachably connecting the cutting roller a4 to the frame a 1.

The cutting roller a4 includes a rotation shaft 41 and a cutting portion; the fixing mechanism 8 includes a rotating portion 81, a latch 82, and a bolt 83; the rotating part 81 is connected with any one of the conveying rollers in a transmission way; the rotating part 81 rotates the connecting frame a1; the rotating part 81 is provided with an accommodating groove for accommodating the rotating shaft 41, the rotating shaft 41 can be directly placed in the accommodating groove, and then the clamping block 82, the rotating shaft 41 and the rotating part 81 are sequentially in threaded fit through the bolts 83 to form a fixed structure; the cutting roller a4 can be replaced or maintained conveniently by the fixing method.

The feeding mechanism 2 comprises a mounting frame 21, a lifting mechanism 28, a vacuumizing device 24 and an inductor 25;

the lifting mechanism 28 is connected with the mounting frame 21; the telescopic end of the lifting mechanism 28 is connected with a placing plate 27 for stacking raw materials; the placement plate 27 is slidably connected to the mounting frame 21; the vacuumizing device 24 is connected with the mounting frame 21; the mounting frame 21 is vertically provided with an electric push rod a22; the mounting frame 21 is horizontally provided with an electric push rod b23; the telescopic rods of the electric push rod a22 and the electric push rod b23 are respectively provided with a sucker part 26; the vacuuming means 24 communicates with the plurality of suction cup portions 26 through a plurality of pipes; the sensor 25 is connected with the mounting frame 21; the distance value of the lower end surface of the sensor 25 from the ground is larger than the distance value of the plane formed by a plurality of conveying rollers on the cutting roller a4 from the ground; before use, stacking the paper jam 11 on the placing plate 27, pushing the paper jam 11 on the uppermost layer to the lower end surface of the sensor 25 by the lifting mechanism 28 after the equipment is started, and stopping the lifting mechanism 28 when the sensor 25 senses that the paper jam 11 on the uppermost layer is in place; then the electric push rod a22 descends, and when the sucker part 26 on the electric push rod a22 contacts the paper jam 11, the vacuumizing device 24 vacuumizes the air in the sucker part 26 to form negative pressure, so that the sucker part 26 adsorbs the paper jam 11; after the suction, the suction cup part 26 of the electric push rod a22 rises to the suction cup part 26 of the electric push rod b23, and the vacuumizing device 24 evacuates the air of the suction cup part 26 of the electric push rod b23 and inflates the suction cup part 26 on the electric push rod a22; after the paper jam 11 is transferred to the electric push rod b23, the electric push rod b23 drives the paper jam 11 to move, and the paper jam 11 is conveyed to the conveying device a6 and placed; when the inductor 25 senses that the uppermost layer of paper 11 is not in place, the lifting mechanism 28 works again until the uppermost layer of paper is in place; the mounting frame 21 is detachably divided into a frame body and a mounting plate; the electric push rod a22 and the electric push rod b23 are connected with the lower end surface of the mounting plate; the vacuumizing device 24 is connected with the upper end surface of the mounting plate; the mounting plate is connected with the frame body through bolts.

In the utility model, stacked paper jam can be quickly conveyed to the position of the conveying device a through the cooperation of the lifting mechanism 28, the vacuumizing device 24, the sensor 25, the electric push rod a22 and the electric push rod b23 in the feeding mechanism 2; the guide mechanism a3 can then align the positions of the different-sized paper jams 11 before transverse cutting, so that the paper jams 11 are prevented from being deviated in the conveying process, and inaccurate cutting is avoided. The conveying device b7, the guide mechanism b and the frame a1 on the frame b5 are the same, the transversely cut paper 11 can be longitudinally cut again under the cooperation of the conveying device a6 and the conveying device b7, the paper 11 can not be completely separated by the two cuts, and the paper 11 can be manually separated after the two cuts are completed; both cutting rolls are provided with a fixing mechanism 8, and the cutting roll a4 or the cutting roll b10 can be quickly replaced and maintained through the fixing mechanism 8.

Example two

As shown in fig. 1-4, the present embodiment further includes a guiding mechanism a3 as compared with the first embodiment; the guide mechanism a3 comprises a guide plate 31, a guide rod 32 and a screw 33; the screw rod 33 is provided with a thread part a and a thread part b, and the thread directions of the thread part a and the thread part b are opposite and symmetrically distributed; the thread part a and the thread part b are respectively connected with two guide plates 31 in a threaded fit manner, and the two guide plates 31 can move towards the middle by rotating the screw rod 33 until the position in the middle of the two guide plates 31 is suitable for the width of the card paper 11; both guide plates 31 are slidably connected with guide rods 32; both ends of the guide rod 32 are connected with the frame a1; the guide bar 32 can limit the movement trace of the guide plate 31. The screw rod 33 is rotatably connected with the frame a1, and one end of the screw rod 33 extends out of the frame a1 and is connected with the crank 34; the crank 34 is sleeved with a handle 35.

In this embodiment, the crank 34 is rotated to rotate the screw rod 33, the threaded portion a and the threaded portion b on the screw rod 33 are respectively in threaded fit connection with the two guide plates 31, the threaded directions on the two threaded portions are opposite, and the screw rod 33 is rotated to enable the two guide plates 31 to move towards the middle until the distance between the two guide plates 31 is proper; the guide plate 31 is inclined outwards towards one end of the feeding mechanism 2, so that the paper jam 11 is ensured to enter the guide mechanism a3 smoothly and stably; in this way, the device can adapt to the paper jams 11 with different sizes, and the deviation of the paper jams 11 on the conveying device is avoided, so that inaccurate cutting is caused.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited thereto, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (7)

1. The full-automatic card sorting machine is characterized by comprising a rack a (1) and a rack b (5);

the frame a (1) and the frame b (5) are vertically distributed; one end of the frame a (1) far away from the frame b (5) is provided with a feeding mechanism (2); a conveying device a (6) is arranged on the frame a (1); a guide mechanism a (3) and a cutting assembly a are sequentially arranged on the frame a (1) along the conveying direction of the conveying device a (6); the cutting assembly a is in transmission connection with the conveying device a (6);

the frame b (5) is provided with a conveying device b (7); a guide mechanism b (9) and a cutting assembly b are sequentially arranged on the frame b (5) along the conveying direction; the discharging part of the conveying device a (6) is connected with the feeding part of the conveying device b (7).

2. The fully automatic card dispenser according to claim 1, wherein the conveying means a (6) and the conveying means b (7) are identical in structure; the guide mechanism a (3) and the guide mechanism b (9) have the same structure; the cutting assembly a and the cutting assembly b have the same structure.

3. A fully automatic card dispenser according to claim 2, characterized in that the conveying means a (6) comprises a transfer roller and a motor a; the conveying rollers are uniformly arranged along the conveying direction of the frame a (1); two adjacent conveying rollers are in transmission connection, and any conveying roller is in transmission connection with a motor a; the motor a is connected with the frame a (1).

4. A fully automatic card dispenser according to claim 3, characterized in that the cutting assembly a comprises a cutting roller a (4) and a fixing mechanism (8) for detachably connecting the cutting roller a (4) to the frame a (1);

the cutting roller a (4) comprises a rotating shaft (41) and a cutting part; the fixing mechanism (8) comprises a rotating part (81), a clamping block (82) and a bolt (83); the rotating part (81) is in transmission connection with any one of the conveying rollers; the rotating part (81) is rotationally connected with the frame a (1); the rotating part (81) is provided with a containing groove for containing the rotating shaft (41); the bolt (83) is sequentially in threaded fit with the clamping block (82), the rotating shaft (41) and the rotating part (81) to form a fixed structure.

5. The full-automatic card sorting machine according to claim 1, wherein the feeding mechanism (2) comprises a mounting frame (21), a lifting mechanism (28) and a vacuumizing device (24);

the lifting mechanism (28) is connected with the mounting frame (21); the telescopic end of the lifting mechanism (28) is connected with a placing plate (27) for stacking raw materials; the placement plate (27) is connected with the mounting frame (21) in a sliding way; the vacuumizing device (24) is connected with the mounting frame (21); an electric push rod a (22) is vertically arranged on the mounting frame (21); an electric push rod b (23) is horizontally arranged on the mounting frame (21); the telescopic rods of the electric push rod a (22) and the electric push rod b (23) are respectively provided with a sucker part (26); the vacuum device (24) is communicated with the sucking disc parts (26) through a plurality of pipelines.

6. A fully automatic card dispenser according to claim 5, further comprising an inductor (25); the sensor (25) is connected with the mounting frame (21); the distance value of the lower end surface of the sensor (25) from the ground is larger than the distance value of the plane formed by a plurality of conveying rollers on the cutting roller a (4) from the ground.

7. A fully automatic card dispenser according to claim 2, characterized in that the guiding mechanism a (3) comprises a guiding plate (31), a guiding rod (32) and a screw (33); the screw rod (33) is provided with a thread part a and a thread part b, and the thread directions of the thread part a and the thread part b are opposite and symmetrically distributed; the thread part a and the thread part b are respectively in threaded fit connection with two guide plates (31); both guide plates (31) are in sliding connection with a guide rod (32); two ends of the guide rod (32) are connected with the frame a (1); the screw rod (33) is rotationally connected with the frame a (1), and one end of the screw rod (33) extends out of the frame a (1) and is connected with the crank (34); the crank (34) is sleeved with a handle (35).