CN215704476U

CN215704476U - Automatic get cardboard fluting cornering machine of receipts material

Info

Publication number: CN215704476U
Application number: CN202121439842.9U
Authority: CN
Inventors: 李小平
Original assignee: Dongguan Zhimei Environmental Protection Packaging Technology Co ltd
Current assignee: Dongguan Zhimei Environmental Protection Packaging Technology Co ltd
Priority date: 2021-06-25
Filing date: 2021-06-25
Publication date: 2022-02-01
Anticipated expiration: 2031-06-25

Abstract

The utility model provides a paperboard slotting and corner-cutting machine capable of automatically taking and receiving materials, which comprises a workbench and a slotting and corner-cutting assembly, wherein a support connected with the workbench is arranged on one side of the workbench close to a feeding port, a material taking structure is arranged on the support, and a temporary material storage structure is arranged on one side of the workbench close to the feeding port; get material structure and include sharp slip table, slide, elevator motor, lift axle A, mount pad, connecting rod, sucking disc, rotating electrical machines, interim material storage structure is including taking the interim frame of depositing of supporting legs, lift cylinder, lift axle B, holding and putting the board, deposit the frame temporarily by to the adjacent interim workbin of being provided with in one side of workstation, deposit the frame temporarily with be formed with the clearance between the workstation, the clearance forms the pan feeding mouth of receiving the workbin temporarily. The utility model has the beneficial effects that: the working efficiency of fluting corner cut is promoted.

Description

Automatic get cardboard fluting cornering machine of receipts material

Technical Field

The utility model relates to the technical field of paperboard processing, in particular to a paperboard slotting and corner-cutting machine capable of automatically taking and receiving materials.

Background

The paper box is packaged in the printing and slotting processing of the paper board, slotting, corner cutting and edge cutting processing are needed to be carried out on the printed paper board, and the slotting, corner cutting and edge cutting processing need to be carried out by means of a slotting and corner cutting machine. The grooving machine mainly comprises a press line shaft, a grooving cutter shaft, an upper press line wheel, a lower press line wheel, an upper grooving cutter, a lower grooving cutter, an upper chamfering cutter and the like. The grooving machine has the functions of longitudinally pressing lines, grooving and chamfering, and the three-dimensional forming of the carton blank is completed. In the prior art, the box blanks need to be manually placed on the conveying belt one by one, and after the grooving and corner cutting actions are completed, people unload the box blanks.

SUMMERY OF THE UTILITY MODEL

Based on the above, the utility model aims to provide the paperboard slotting and corner-cutting machine capable of automatically taking and receiving materials, and the working efficiency of slotting and corner-cutting is improved.

The utility model provides a paperboard slotting and corner-cutting machine capable of automatically taking and receiving materials, which comprises a workbench and a slotting and corner-cutting assembly, wherein a support connected with the workbench is arranged on one side of the workbench close to a feeding port, a material taking structure is arranged on the support, and a temporary material storage structure is arranged on one side of the workbench close to the feeding port; get material structure and include sharp slip table, slide, elevator motor, lift axle A, mount pad, connecting rod, sucking disc, rotating electrical machines, sharp slip table is installed on the support and span temporary stock structure with between the fluting corner cut subassembly, the slide with sharp slip table sliding connection, elevator motor installs the slide bottom, lift axle A's one end with elevator motor's power take off end is connected, lift axle A's the other end with the mount pad is connected, the one end of connecting rod with the mount pad rotates to be connected, the other end of connecting rod with the sucking disc is connected, the sucking disc passes through the pipeline and is connected with vacuum generator, rotating electrical machines installs one side of mount pad and its power take off end with the connecting rod rotates to be connected.

Temporary stock structure is including taking the temporary storage frame of supporting legs, lift cylinder, lift axle B, holding to put the board, the temporary storage frame sets up the workstation is by the one side to the pan feeding mouth, the bottom of temporarily storing the frame is provided with the confession the through-hole that lift axle B stretched into, the lift cylinder sets up the lower part of temporarily storing the frame and the position with the through-hole corresponds, it sets up to hold the board temporarily to deposit in the frame, lift axle B's one end with the power take off end of lift cylinder is connected, lift axle B's the other end runs through the through-hole and extend into temporarily store in the frame with the bottom of holding the board is connected.

The temporary storage frame is close to and is provided with the temporary material receiving box adjacent to one side of the workbench, a gap is formed between the temporary storage frame and the workbench, and the gap forms a material inlet of the temporary material receiving box.

As a preferred scheme, a negative pressure fan is arranged on one side of the workbench, which is far away from the feeding port, and at a position close to the grooving and chamfering assembly.

As the preferred scheme, be provided with the safety cover outside the fluting corner cut subassembly, the top of safety cover is provided with the mounting panel by the one side to the pan feeding mouth, the lower surface mounting of mounting panel has electric telescopic handle, electric telescopic handle's power take off end installs the clamp plate.

As the preferred scheme, the front end of the grooving and chamfering component on the workbench is provided with a conveying belt, and the two opposite sides of the conveying belt are provided with positioning plates.

Preferably, push-pull motors are arranged at positions, corresponding to the position adjusting plates on the two sides, of the workbench, power output ends of the push-pull motors are connected with push-pull rods, and free ends of the push-pull rods are connected with the position adjusting plates.

The utility model has the beneficial effects that: the box blank is taken from the temporary storage structure by the taking structure and is placed at the position of the grooving and corner cutting assembly to perform grooving and corner cutting actions, the box blank is taken away and moved to the position of the gap by the taking structure after the grooving and corner cutting actions are completed, the rotating motor drives the sucking disc to rotate for 90 degrees by the connecting rod to enable the box blank to be in a vertical state, the sucking disc puts the box blank down, the box blank falls into the temporary receiving box from the gap, manual taking and receiving of the box blank are not needed, therefore, the working efficiency is improved, and the operation risk of workers is also reduced.

Drawings

Fig. 1 is a front view of the first embodiment.

FIG. 2 is a schematic diagram showing a relative structure relationship between the mounting base, the connecting rod, the suction cup and the rotating motor.

Fig. 3 is a front view of the second embodiment.

Fig. 4 is a plan view of a table in a third embodiment.

The reference signs are: the device comprises a linear sliding table 10, a sliding base 11, a lifting motor 12, a lifting shaft A13, a mounting seat 14, a suction cup 15, a lifting cylinder 18, a lifting shaft B17, a bearing plate 16, supporting legs 19, a rotating motor 20, a workbench 23, a slotting and corner-cutting assembly 21, a support 22, a temporary material receiving box 24, a push-pull rod 25, a box blank 26, a temporary storage frame 27, an adjusting plate 28, a material taking structure 29, a conveying belt 30, a temporary material storing structure 31, an electric telescopic rod 32, a mounting plate 33, a negative pressure fan 34, a pressing plate 35, a connecting rod 36, a gap 37, a through hole 38 and a push-pull motor 39.

Detailed Description

For a better understanding of the features and technical solutions of the present invention, together with the specific objects and functions attained by the utility model, reference is made to the following detailed description and accompanying drawings that form a part hereof.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The first embodiment, please refer to fig. 1-2, the utility model provides a paperboard slotting and corner-cutting machine capable of automatically taking and receiving materials, which comprises a workbench 23 and a slotting and corner-cutting assembly 21, wherein a bracket 22 connected with the workbench 23 is arranged on one side of the workbench 23 close to a feeding port, a material taking structure 29 is arranged on the bracket 22, and a temporary material storage structure 31 is arranged on one side of the workbench 23 close to the feeding port; the material taking structure 29 comprises a linear sliding table 10, a sliding base 11, a lifting motor 12, a lifting shaft A13, a mounting seat 14, a connecting rod 36, a suction cup 15 and a rotating motor 20, wherein the linear sliding table 10 is installed on a support 22 and spans between a temporary material storage structure 31 and a slotted corner cutting assembly 21, the sliding base 11 is connected with the linear sliding table 10 in a sliding manner, the lifting motor 12 is installed at the bottom of the sliding base 11, one end of the lifting shaft A13 is connected with a power output end of the lifting motor 12, the other end of the lifting shaft A13 is connected with the mounting seat 14, one end of the connecting rod 36 is connected with the mounting seat 14 in a rotating manner, the other end of the connecting rod 36 is connected with the suction cup 15, the suction cup 15 is connected with a vacuum generator through a pipeline, and the rotating motor 20 is installed at one side of the mounting seat 14 and is connected with the connecting rod 36 in a rotating manner. In actual operation, the linear sliding table 10 drives the lifting motor 12, the lifting shaft a13, the mounting seat 14, the connecting rod 36, the suction cup 15, and the rotating motor 20 to move back and forth along the length direction of the linear sliding table 10 through the sliding seat 11. When materials need to be taken, the lifting motor 12 drives the connecting rod 36, the sucking disc 15, the rotating motor 20 and the mounting seat 14 to move downwards to the position of the temporary storage frame 27 through the lifting shaft A13, the vacuum generator enables the sucking disc 15 to generate negative pressure to adsorb the box blank, the linear sliding table 10 drives the lifting motor 12, the lifting shaft A13, the mounting seat 14, the connecting rod 36, the sucking disc 15, the rotating motor 20 and the box blank 26 to move towards the direction of the paperboard slotting and corner cutting component 21 through the sliding seat 11, and the sucking disc 15 puts down the box blank 26 to start the slotting and corner cutting component 21 to operate.

The temporary storage structure 31 comprises a temporary storage frame 27 with supporting legs 19, a lifting cylinder 18, a lifting shaft B17 and a bearing plate 16, the temporary storage frame 27 is arranged on one side of the workbench 23 close to the feeding port, a through hole 38 for the lifting shaft B17 to extend into is arranged at the bottom of the temporary storage frame 27, the lifting cylinder 18 is arranged at the lower part of the temporary storage frame 27 and corresponds to the through hole 38 in position, the bearing plate 16 is arranged in the temporary storage frame 27, one end of the lifting shaft B17 is connected with a power output end of the lifting cylinder 18, and the other end of the lifting shaft B17 penetrates through the through hole 38 and extends into the temporary storage frame 27 to be connected with the bottom of the bearing plate 16. A temporary material receiving box is adjacently arranged on one side, close to the workbench 23, of the temporary storage frame 27, a gap 37 is formed between the temporary storage frame 27 and the workbench 23, and the gap 37 forms a material inlet of the temporary material receiving box 24. In operation, the box blanks 26 are stacked in sequence in the temporary storage frame 27, and the lifting cylinder 18 drives the carrying plate 16 to lift a predetermined height for a predetermined time through the lifting shaft B17, so as to ensure that the box blanks 26 to be grooved are kept at the top of the temporary storage frame 27 for the material taking structure 29 to take materials.

In the embodiment, the box blanks are taken from the temporary storage structure through the taking structure and are placed at the position of the grooving and corner cutting assembly to perform grooving and corner cutting actions, the box blanks are taken away and moved to the position of the gap through the taking structure after the grooving and corner cutting actions are completed, the rotating motor drives the suction disc to rotate for 90 degrees through the connecting rod to enable the box blanks to be in a vertical state, the suction disc puts the box blanks down, the box blanks fall into the temporary receiving box from the gap, and after the temporary receiving box finishes the collection quantity of the box blanks with the set quantity, the temporary receiving box is manually replaced. The box blanks do not need to be taken and collected manually, so that the working efficiency is improved, and the operation risk of workers is reduced.

Referring to fig. 3, in the second embodiment, on the basis of the first embodiment, a negative pressure fan 34 is installed on the side of the worktable 23 away from the material inlet and near the grooving and chamfering assembly 21. A protective cover is arranged outside the slotting and corner cutting assembly 21, a mounting plate 33 is arranged on one side, close to the feeding port, above the protective cover, an electric telescopic rod 32 is arranged on the lower surface of the mounting plate 33, and a pressing plate 35 is arranged at the power output end of the electric telescopic rod 32. The front end of the grooving and chamfering component 21 on the workbench 23 is provided with a conveying belt 30, and two opposite sides of the conveying belt 30 are provided with positioning plates 28. In actual operation, after the box blank 26 is taken out from the temporary storage structure by the taking structure and is placed at the position of the grooving and corner cutting assembly, the electric telescopic rod 32 enables the pressing plate 35 to tightly press the box blank 26, so that the grooving process is prevented from shaking, the grooving quality is ensured, and in the grooving process, dust generated in the grooving process is sucked away by the negative pressure fan 34, and the cleanness of air in a workshop is ensured. Besides, the grooving accuracy is ensured, the box blank 26 is taken out from the temporary storage structure by the material taking structure and is firstly placed on the conveying belt 30, the box blank 26 is moved to the front of the grooving and corner-cutting component 21 through the conveying belt 30, the position of the box blank 26 is adjusted through the positioning plates 28 on the two sides in the moving process of the box blank 26, and then the box blank 26 is taken up by the material taking structure and is moved to the processing position of the grooving and corner-cutting component 21 to start grooving and corner-cutting operation.

In the third embodiment, referring to fig. 4, push-pull motors 39 are respectively disposed on the working platform 23 at positions corresponding to the two side positioning plates 28, the push-pull motors 39 are respectively connected to power output ends of the push-pull motors 39, and free ends of the push-pull rods 25 are respectively connected to the positioning plates 28. By arranging the matching structure of the push-pull motor 39 and the push-pull rod 25, the position adjusting plate 28 can realize automatic position adjustment, thereby adapting to box blanks 26 with different sizes and improving the applicability of the utility model. When the relative distance between the two positioning plates 28 needs to be adjusted, the push-pull motor 39 drives the positioning plates 28 to realize displacement through the push-pull rod 25, and the operation is simple and convenient.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides an automatic get cardboard fluting cornering machine of receiving material, includes workstation (23), fluting chamfer subassembly (21), its characterized in that: a support (22) connected with the workbench (23) is arranged on one side, close to the feeding port, of the workbench (23), a material taking structure (29) is arranged on the support (22), and a temporary material storing structure (31) is arranged on one side, close to the feeding port, of the workbench (23); get material structure (29) and include sharp slip table (10), slide (11), elevator motor (12), lift axle A (13), mount pad (14), connecting rod (36), sucking disc (15), rotating electrical machines (20), sharp slip table (10) is installed on support (22) and span temporary stock structure (31) with between fluting corner cut subassembly (21), slide (11) with sharp slip table (10) sliding connection, elevator motor (12) are installed slide (11) bottom, the one end of lift axle A (13) with the power take off end of elevator motor (12) is connected, the other end of lift axle A (13) with mount pad (14) are connected, the one end of connecting rod (36) with mount pad (14) rotate to be connected, the other end of connecting rod (36) with sucking disc (15) are connected, the sucker (15) is connected with a vacuum generator through a pipeline, the rotating motor (20) is installed on one side of the installation seat (14) and the power output end of the rotating motor is rotationally connected with the connecting rod (36);

the temporary storage structure (31) comprises a temporary storage frame (27) with supporting legs (19), a lifting cylinder (18), a lifting shaft B (17) and a bearing plate (16), the temporary storage frame (27) is arranged on one side of the workbench (23) close to the feeding port, the bottom of the temporary storage frame (27) is provided with a through hole (38) for the lifting shaft B (17) to extend into, the lifting cylinder (18) is arranged at the lower part of the temporary storage frame (27) and corresponds to the through hole (38), the bearing plate (16) is arranged in the temporary storage frame (27), one end of the lifting shaft B (17) is connected with the power output end of the lifting cylinder (18), the other end of the lifting shaft B (17) penetrates through the through hole (38) and extends into the temporary storage frame (27) to be connected with the bottom of the bearing plate (16);

deposit frame (27) temporarily by to one side of workstation (23) is adjacent to be provided with temporarily receives the workbin, deposit frame (27) temporarily with be formed with clearance (37) between workstation (23), clearance (37) form the pan feeding mouth of receiving workbin (24) temporarily.

2. The automatic get cardboard fluting cornering machine of receiving material of claim 1 which characterized in that: and a negative pressure fan (34) is arranged on one side of the workbench (23) far away from the feeding port and close to the grooving and chamfering assembly (21).

3. The automatic get cardboard fluting cornering machine of receiving material of claim 1 which characterized in that: the slotting corner cut subassembly (21) is provided with the safety cover outward, the top of safety cover is provided with mounting panel (33) by one side to the pan feeding mouth, the lower surface mounting of mounting panel (33) has electric telescopic handle (32), clamp plate (35) are installed to electric telescopic handle's (32) power take off end.

4. The automatic get cardboard fluting cornering machine of receiving material of claim 1 which characterized in that: the front end of the grooving and chamfering component (21) on the workbench (23) is provided with a conveying belt (30), and the two opposite sides of the conveying belt (30) are provided with positioning plates (28).

5. The automatic get cardboard fluting cornering machine of receiving material of claim 4 which characterized in that: push-pull motors (39) are arranged at positions, corresponding to the position adjusting plates (28) on the two sides, of the workbench (23), power output ends of the push-pull motors (39) are connected with push-pull rods (25), and free ends of the push-pull rods (25) are connected with the position adjusting plates (28).