CN220429426U - Magnetic type paperboard slotting cutter mechanism - Google Patents

Abstract

The utility model relates to a magnetic paper board slotting cutter mechanism with a more reasonable structure. The magnetic paperboard slotting cutter mechanism comprises a cutter, a cutter beam, a cutter rest slide seat and an adjusting power source, wherein the cutter is arranged on the cutter rest slide seat, and the cutter rest slide seat is slidably arranged on the cutter beam, and is characterized in that: the bottom of the tool rest sliding seat is provided with a groove, a ferromagnetic column capable of moving up and down is arranged in the groove, an electromagnet is arranged on the tool beam, and the electromagnet can attract the ferromagnetic column when being electrified. The magnetic paperboard slotting cutter mechanism locks the cutter in a magnetic manner, so that the structure is simpler, and the production cost is obviously reduced.

Description

Magnetic type paperboard slotting cutter mechanism

Technical Field

The utility model relates to a paperboard grooving machine, in particular to a paperboard grooving cutter mechanism of the paperboard grooving machine.

Background

Generally, paper packaging containers such as cartons and cartons are formed by folding a paperboard with grooves along the grooves, and a paperboard grooving machine is a device for grooving the paperboard. The general cardboard groover is including cardboard conveying mechanism, cardboard rectifying mechanism and cardboard slotting mechanism, slotting mechanism is including slotting cutter, big roller, belt and a plurality of guide roll, the belt winds on a plurality of guide rolls, belt part is pressed on the slotting roller under the effect of a plurality of guide rolls, the cardboard is carried over on cardboard conveying mechanism, then enter into between belt and the big roller, the cardboard just bends laminating on big roller under the effect of belt like this, big roller rotates under the drive of power supply, drive cardboard and belt rotate together, and slotting cutter is located big roller one side, along with the removal of cardboard, slotting cutter just opens the groove on the cardboard.

However, the boards have different specifications, and when the boards of different specifications need to be processed, the position of the slotting cutter needs to be adjusted. The existing slotting cutter adjustment is as follows (see patent application filed before the applicant, publication number CN116572584 a): the slotting cutter is arranged on the cutter slide seat, the cutter slide seat is arranged on the cutter guide rail in a sliding manner, then a cutter adjusting guide rail parallel to the cutter guide rail is further arranged on one side of the cutter guide rail, a cutter adjusting mechanism is arranged on the cutter adjusting guide rail, and the cutter adjusting mechanism drives the cutter slide seat to move on the cutter guide rail, so that the position of the slotting cutter is adjusted. When the slotting cutter is well adjusted in position, the cutter power source drives the cutter bar seat to move, and the cutter bar seat drives the positioning column to move downwards through the action inclined plane of the cutter bar seat, so that the positioning column acts on the guide rail seat below, the cutter slide seat is locked, and the slotting cutter cannot move left and right. In the existing cutter structure, as a plurality of slotting cutters are arranged on one cutter guide rail, each slotting cutter is provided with one cutter power source, the manufacturing cost is high, and the circuit of the cutter power source (the cutter power source is a motor) or the air pipe (the cutter power source is an air pipe) can be quite messy.

Disclosure of Invention

In view of the defects in the prior art, the utility model innovatively provides the magnetic type paperboard slotting cutter mechanism with a more reasonable structure.

This kind of magnetism is inhaled cardboard fluting cutter mechanism is including cutter, knife rest slide and regulation power supply, the cutter is installed on the knife rest slide, the knife rest slide slides and establishes on the knife rest, its characterized in that: the bottom of the tool rest sliding seat is provided with a groove, a ferromagnetic column capable of moving up and down is arranged in the groove, an electromagnet is arranged on the tool beam, and the electromagnet can attract the ferromagnetic column when being electrified.

The cutter is arranged on a cutter slider which is arranged on the cutter rest sliding seat in a sliding way, the cutter slider moves forwards under the action of an elastic piece, and the cutter slider is connected with a stress piece; the cutter beam is provided with an adjusting seat in a sliding manner, the adjusting power source is in transmission connection with the adjusting seat, the adjusting seat is provided with a power source, the power source is in transmission connection with a clamping piece and an acting piece, the cutter rest sliding seat is provided with a clamping groove, the clamping piece can be clamped into the clamping groove, and the acting piece can act on the stressed piece and enable the cutter sliding block to move backwards.

The cutter is connected to the fine adjustment slide seat, and the fine adjustment slide seat is arranged on the cutter slide block in a manner of being capable of sliding back and forth.

The cutter slider is provided with a rotatable adjusting screw, and the adjusting screw is in threaded connection with the fine adjustment sliding seat.

The fine adjustment sliding seat is provided with a long hole extending in the front-back direction, a fixing bolt is arranged in the long hole, and the fixing bolt is in threaded connection with the cutter sliding block.

The cutter slider is provided with a dovetail guide rail part, and the fine adjustment sliding seat is arranged on the dovetail guide rail part in a sliding manner.

The tool rest slide seat is provided with a roller linear guide rail, and the tool slide block is arranged on the roller linear guide rail in a sliding way.

The knife rest slide seat is arranged on the side guide rail in a sliding way through a sliding block.

The knife beam is provided with a rotatable adjusting screw rod, the adjusting power source is in transmission connection with the adjusting screw rod, the adjusting seat is provided with a nut, and the nut is in threaded connection with the adjusting screw rod.

More than two knife rest sliding seats are arranged on the knife beam, and a knife is arranged on each knife rest sliding seat.

According to the magnetic paperboard slotting cutter mechanism provided by the utility model, the cutter is locked in a magnetic attraction mode, so that the structure is simpler, and the production cost is obviously reduced.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model 1;

FIG. 2 is a schematic diagram of the structure of the present utility model 2;

FIG. 3 is a cross-sectional view of the present utility model;

FIG. 4 is a partial schematic view of the present utility model 1;

fig. 5 is a partial schematic view of the present utility model, fig. 2.

Detailed Description

As shown in fig. 1 and 2, the magnetic paper board slotting cutter mechanism comprises a cutter 4 (a cutter 4 is provided with a blade 40), a cutter beam 1, a cutter rest slide seat 5 and an adjusting power source 2, wherein the cutter 4 is arranged on the cutter rest slide seat 5, the cutter rest slide seat 5 is arranged on the cutter beam 1 in a sliding manner, and the position of the cutter 4 can be adjusted by moving the cutter rest slide seat 5 left and right. When the position of the cutter 4 is determined, the cutter 4 needs to be fixed, so that the cutter 4 is prevented from moving left and right when cutting the paper board. For this purpose, as shown in fig. 3, a groove is provided at the bottom of the carriage slide 5, a ferromagnetic column 9 (made of a magnetically attractive material) is provided in the groove, and an electromagnet 3 is mounted on the carriage 1, and the electromagnet 3 can attract the ferromagnetic column 9 when energized. When the position of the tool rest slide 5 is determined, the electromagnet 3 is electrified to generate magnetic force, so that the ferromagnetic column 9 in the groove at the bottom of the tool rest slide 5 is attracted, the ferromagnetic column 9 generates acting force with the electromagnet 3, the tool rest slide 5 cannot displace due to the limitation of the ferromagnetic column 9, and the position of the tool rest slide 5 is fixed. The structure does not need to additionally arrange a locking power source, and if a plurality of tool rest sliding seats 5 (more than two tool rest sliding seats 5 are arranged on each tool rest sliding seat 5) are arranged on the tool beam 1, the structure of the tool mechanism is simple, and the cost is greatly reduced.

As shown in fig. 1 and 2, the cutter 4 is connected to the cutter slider 6, the cutter slider 6 is slidably disposed on the cutter saddle 5, an elastic member (including a spring, a hydraulic damper, and other articles capable of providing elasticity) for driving the cutter slider 6 to move forward is disposed at the rear end of the cutter slider 6, and as shown in fig. 3 and 4, a stress member 60 is connected to the cutter slider 6; in addition, as shown in fig. 1 and 3, the blade beam 1 is slidably provided with an adjusting seat 7, the adjusting power source 2 is in transmission connection with the adjusting seat 7, the adjusting seat 7 is driven by the adjusting power source 2 to move on the blade beam 1, in addition, a power source 8 is installed on the adjusting seat 7, the power source 8 is in transmission connection with a clamping piece 80 and an acting piece 81 (i.e. the power source 8 can drive the clamping piece 80 and the acting piece 81 to act simultaneously), the clamping piece 80 and the acting piece 81 can be located at two ends of the power source 8 or at one end of the power source 8), a clamping groove 50 is formed on the carriage slide 5, the clamping piece 80 can be clamped into the clamping groove 50, and the acting piece 81 can act on the force receiving piece 60 and enable the tool slide 6 to move backwards.

The adjustment principle of the cutter mechanism is as follows: in general, a plurality of cutters 4 are installed on a cutter beam 1, when the position of one cutter 4 needs to be adjusted, an adjusting power source 2 drives an adjusting seat 7 to move on the cutter beam 1, the adjusting seat 7 is made to arrive at the position of the cutter 4, then one end of a power source 8 drives a clamping piece 80 (the power source 8 is an air cylinder, the air cylinder is provided with two driving ends), the clamping piece 80 can be clamped into a clamping groove 50 of a cutter rest slide seat 5 (the clamping piece 80 can be driven to move when moving), the other end of the power source 8 drives an acting piece 81, the acting piece 81 acts on a stress piece 60, and a cutter slide block 6 can be driven to move backwards (when moving, the cutter 4 can avoid a paper pressing belt 13), so that when the adjusting power source 2 drives the adjusting seat 7 to move on the cutter beam 1, the cutter rest slide seat 5 can be driven to move, and therefore the position adjusting function on the cutter 4 is achieved. When the adjustment is completed, the carriage slide 5 is positioned, the acting element 81 no longer acts on the force-bearing element 60, and the tool slide 6 is returned by the elastic element, so that the tool 4 moves forward and returns to the grooving position again.

The cutter mechanism with the structure only needs one cutter beam 1, so that the installation space in the equipment is saved, and the cost is lower; in addition, each cutter 4 does not need to be provided with a cutter power source, so that the manufacturing cost is lower, and the condition of disordered wiring is avoided.

In order to be able to fine-tune the front-rear position of the tool 4 (for adjusting the grooving depth of the cardboard or adapting to cardboard of different thickness), the utility model is shown in fig. 4 and 5, in which the tool 4 is connected to a fine-tuning slide 61, and the fine-tuning slide 61 is arranged on the tool slide 6 in a sliding manner. When the front and rear positions of the cutter 4 need to be adjusted, only the fine adjustment slide seat 61 needs to be moved, which is very convenient.

In order to be able to move the trimming carriage 61 in a simple manner, the utility model provides that a rotatable adjusting screw 63 is mounted on the tool slide 6, which adjusting screw 63 is screwed to the trimming carriage 61. When the fine adjustment slide seat 61 needs to be moved, the adjustment screw 63 can drive the fine adjustment slide seat 61 to move back and forth only by rotating the adjustment screw 63, so that the operation is very convenient.

In order to fix the fine adjustment slider 61, the fine adjustment slider 61 is prevented from moving slightly (the fine movement also affects the slotting of the cardboard sheet), the fine adjustment slider 61 has a long hole 62 extending in the front-rear direction, and a fixing bolt is provided in the long hole 62 and is screwed to the tool slide 6. After the fine adjustment slider 61 is adjusted in position, the fixing bolt is tightened so that the position of the fine adjustment slider 61 is fixed.

In order to move the tool slide 6 more smoothly, as shown in fig. 4, a roller linear guide 64 is provided on the carriage slide 5, and the tool slide 6 is slidably provided on the roller linear guide 64. The linear roller guide 64 has a small friction coefficient, and the elastic member can easily push the cutter slider 6 to move.

As shown in fig. 4, the tool slide 6 has a dovetail rail portion, and the fine adjustment slider 61 is slidably provided on the dovetail rail portion. The dovetail rail portion has a large friction coefficient and is suitable for guiding the fine adjustment slider 61 for fine adjustment.

In order to enable the carriage slide 5 to slide smoothly on the blade beam 1, a side rail 10 is connected to the blade beam 1, and the carriage slide 5 is slidably mounted on the side rail 10 via a slider.

Finally, it should be noted that, in order to precisely drive the adjusting seat 7 to move, the utility model installs a rotatable adjusting screw 20 on the knife beam 1, as shown in fig. 3, the adjusting power source 2 is connected with the adjusting screw 20 in a driving way, and a nut 21 is arranged on the adjusting seat 7, and the nut 21 is connected with the adjusting screw 20 in a threaded way. By driving the adjusting power source 2, the adjusting screw rod 20 rotates, so that the adjusting seat 7 is driven to move.

Claims (10)

1. The utility model provides a magnetic attraction type cardboard slotting cutter mechanism, is including cutter (4), knife beam (1), knife rest slide (5) and regulation power supply (2), cutter (4) are installed on knife rest slide (5), knife rest slide (5) slip is established on knife beam (1), its characterized in that: the bottom of knife rest slide (5) is equipped with the recess, be equipped with ferromagnetic post (9) that can reciprocate in the recess, install electro-magnet (3) on knife rest (1), ferromagnetic post (9) can be sucked when electro-magnet (3) are circular telegram.

2. A magnetically attractable paperboard slotting cutter mechanism of claim 1 wherein: the cutter (4) is arranged on the cutter slider (6), the cutter slider (6) is arranged on the cutter rest sliding seat (5) in a sliding manner, the cutter slider (6) moves forwards under the action of an elastic piece, and the cutter slider (6) is connected with a stress piece (60); the utility model provides a knife rest slide (5) is equipped with on knife beam (1) and adjusts seat (7), adjust power supply (2) and adjust seat (7) transmission and be connected, install power supply (8) on adjusting seat (7), power supply (8) are connected with screens piece (80) and action piece (81) transmission, draw-in groove (50) have on knife rest slide (5), screens piece (80) can block draw-in groove (50), action piece (81) can act on atress piece (60) and make cutter slider (6) backward movement.

3. A magnetically attractable paperboard slotting cutter mechanism as recited in claim 2, wherein: the cutter (4) is connected to a fine adjustment slide (61), and the fine adjustment slide (61) is arranged on the cutter slider (6) in a manner of sliding back and forth.

4. A magnetically attractable paperboard slotting cutter mechanism according to claim 3, wherein: the cutter slider (6) is provided with a rotatable adjusting screw (63), and the adjusting screw (63) is in threaded connection with the fine adjustment sliding seat (61).

5. A magnetically attractable paperboard slotting cutter mechanism according to claim 3, wherein: the fine adjustment sliding seat (61) is provided with a long hole (62) extending in the front-back direction, a fixing bolt is arranged in the long hole (62), and the fixing bolt is in threaded connection with the cutter sliding block (6).

6. A magnetically attractable paperboard slotting cutter mechanism according to claim 3, wherein: the cutter slider (6) is provided with a dovetail guide rail part, and the fine adjustment sliding seat (61) is arranged on the dovetail guide rail part in a sliding manner.

7. A magnetically attractable paperboard slotting cutter mechanism as recited in claim 2, wherein: the tool rest slide (5) is provided with a roller linear guide rail (64), and the tool slide block (6) is arranged on the roller linear guide rail (64) in a sliding way.

8. A magnetically attractable paperboard slotting cutter mechanism as recited in claim 2, wherein: the cutter beam (1) is connected with a side guide rail (10), and the cutter rest slide seat (5) is arranged on the side guide rail (10) in a sliding way through a sliding block.

9. A magnetically attractable paperboard slotting cutter mechanism as recited in claim 2, wherein: the adjustable cutter beam is characterized in that a rotatable adjusting screw rod (20) is arranged on the cutter beam (1), the adjusting power source (2) is in transmission connection with the adjusting screw rod (20), a nut (21) is arranged on the adjusting seat (7), and the nut (21) is in threaded connection with the adjusting screw rod (20).

10. A magnetically attractable paperboard slotting cutter mechanism as recited in claim 2, wherein: more than two tool rest sliding seats (5) are arranged on the tool beam (1), and a tool (4) is arranged on each tool rest sliding seat (5).