CN213860920U

CN213860920U - Paperboard double-cutting-line machine

Info

Publication number: CN213860920U
Application number: CN202022241099.8U
Authority: CN
Inventors: 刘鑫; 陈坚; 郑荣雀
Original assignee: Zhejiang Saili Machinery Co ltd
Current assignee: Zhejiang Saili Machinery Co ltd
Priority date: 2020-10-10
Filing date: 2020-10-10
Publication date: 2021-08-03
Anticipated expiration: 2030-10-10

Abstract

The utility model relates to a can accomplish two secant machines of cardboard of two-way secant automatically. The paperboard double-line cutting machine comprises a transverse line cutting device and a longitudinal line cutting device, and is characterized in that: the output end of the transverse thread cutting device is positioned above the input end of the longitudinal thread cutting device, and the conveying direction of the transverse thread cutting device is intersected with the conveying direction of the longitudinal thread cutting device; the transverse thread cutting device comprises a transverse conveying mechanism and a transverse thread cutting mechanism; the longitudinal thread cutting device comprises a longitudinal conveying mechanism and a longitudinal thread cutting mechanism. The transverse wire cutting device and the longitudinal wire cutting device are conveyed and connected by the paperboard double-wire cutting machine, so that bidirectional wire cutting of paperboards can be completed at one time, production efficiency is greatly improved, and labor cost is reduced.

Description

Paperboard double-cutting-line machine

Technical Field

The utility model relates to a cardboard processing machinery, concretely relates to secant machine of secant carries out the cardboard.

Background

Some of the cardboard needs to be removed at the four corners so that the cardboard can be folded to form a box or a lid, and the cardboard needs to be grooved when folded. As shown in fig. 3, in the conventional paperboard process, a partial cutting line (shown as a dotted line in fig. 3) is firstly performed on one surface of a paperboard by a paperboard cutting machine, and then a groove is formed on the other surface of the paperboard along the cutting line by a paperboard grooving machine, so that four corners of the paperboard fall down due to the superposition of the cutting line and the grooving line, and the formed paperboard can be folded into a box or a cover. However, the existing line cutting machine can only realize line cutting in one direction at one time, and then manually place the cut paperboard on the line cutting machine again to perform line cutting in another direction, which is efficient and requires high labor cost.

Disclosure of Invention

In view of the deficiencies in the prior art, the utility model discloses the innovation provides a two dividing line machines of cardboard that can accomplish two-way dividing line automatically.

The paperboard double-line cutting machine comprises a transverse line cutting device and a longitudinal line cutting device, and is characterized in that: the output end of the transverse thread cutting device is positioned above the input end of the longitudinal thread cutting device, and the conveying direction of the transverse thread cutting device is intersected with the conveying direction of the longitudinal thread cutting device; the transverse cutting device comprises a transverse conveying mechanism and a transverse cutting mechanism, the transverse cutting mechanism comprises a transverse cutting knife and a transverse cutting press roller, and the transverse cutting knife is in transmission connection with a first power source for driving the transverse cutting knife to move to the transverse cutting press roller; the longitudinal thread cutting device comprises a longitudinal conveying mechanism and a longitudinal thread cutting mechanism, the longitudinal thread cutting mechanism comprises a longitudinal thread cutting knife and a longitudinal thread cutting press roller, and the longitudinal thread cutting knife is in transmission connection with a second power source driving the longitudinal thread cutting knife to move towards the longitudinal thread cutting press roller.

The vertical cutting line device is characterized in that a right baffle is arranged above a vertical conveying belt of the vertical cutting line device, a left baffle is arranged below an output end of the horizontal cutting line device, a space for accommodating paperboards is arranged between the left baffle and the right baffle, a front barrier strip is arranged above the vertical conveying mechanism, and a gap for allowing one paperboard to pass through is formed between the front barrier strip and the vertical conveying mechanism.

And a rear baffle is also arranged between the left baffle and the right baffle, and the front baffle surface of the rear baffle is an inclined surface.

The transverse thread cutting device comprises a transverse conveying deviation rectifying mechanism, and the transverse conveying deviation rectifying mechanism comprises a row of transverse deviation rectifying wheels which are transversely arranged.

The longitudinal thread cutting device comprises a longitudinal conveying deviation correcting mechanism, and the longitudinal conveying deviation correcting mechanism comprises a row of longitudinal deviation correcting wheels which are longitudinally arranged.

According to the utility model provides a pair of two secant machines of cardboard carries horizontal secant device and vertical secant device to link up to can once only accomplish the two-way secant of cardboard, improve production efficiency greatly, reduce the cost of labor.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a transverse thread cutting mechanism;

FIG. 3 is a schematic structural view of a left baffle, a right baffle, a rear baffle and a front barrier strip;

FIG. 4 is a flow chart of paperboard slitting and grooving.

Detailed Description

As shown in figure 1, the paperboard double-line cutting machine comprises a transverse line cutting device 1 and a longitudinal line cutting device 2, wherein the output end of the transverse line cutting device 1 is positioned above the input end of the longitudinal line cutting device 2, and the conveying direction of the transverse line cutting device 1 is crossed with the conveying direction of the longitudinal line cutting device 2. The paperboard is firstly transversely cut by the transverse cutting device 1, then comes out from the output end of the transverse cutting device 1 and falls on the input end of the longitudinal cutting device 2, and then is longitudinally cut by the longitudinal cutting device 2, so that the bidirectional paperboard cutting is completed.

As shown in fig. 1, the transverse cutting line device 1 includes a transverse conveying mechanism 10 and a transverse cutting line mechanism, the transverse conveying mechanism 10 includes a transverse conveying belt (which may be a conveying roller) that conveys the paper boards transversely; as shown in fig. 2, the transverse thread cutting mechanism comprises a transverse thread cutting knife 12 and a transverse thread cutting press roller 11, the transverse thread cutting knife 12 is in transmission connection with a first power source 13 which drives the transverse thread cutting knife 12 to move towards the transverse thread cutting press roller 11, and the transverse thread cutting knife 12 moves up and down under the driving of the first power source 13. When the paperboard is conveyed by the transverse conveying belt, the first power source 13 drives the transverse cutting knife 12 to move upwards, so that the transverse cutting knife 12 is matched with the transverse cutting press roller 11 to press the paperboard, the transverse cutting knife 12 cuts a line on the bottom surface of the paperboard, then the first power source 13 drives the transverse cutting knife 12 to move downwards, and the transverse cutting knife 12 does not cut the paperboard any more. In this way, a partial cut line is cut in the paperboard as shown in fig. 4.

After the transverse line cutting device 1 finishes transverse line cutting, the paper board comes out from the output end of the transverse line cutting device 1 and falls to the input end of the longitudinal line cutting device 2, and then the paper board enters the longitudinal line cutting device 2 to be subjected to longitudinal line cutting.

As shown in fig. 1, the longitudinal thread cutting device 2 includes a longitudinal conveying mechanism 20 and a longitudinal thread cutting mechanism, the longitudinal conveying mechanism 20 includes a longitudinal conveying belt (which may be a conveying roller) that conveys the paper boards longitudinally; the longitudinal thread cutting mechanism comprises a longitudinal thread cutting knife 22 and a longitudinal thread cutting press roller 21, and the longitudinal thread cutting knife 22 is in transmission connection with a second power source which drives the longitudinal thread cutting knife 22 to move towards the longitudinal thread cutting press roller 21. The working principle of the longitudinal thread cutting mechanism is the same as that of the transverse thread cutting mechanism, and the description is omitted here. Through the linkage secant of horizontal secant device 1 and vertical secant device 2, two-way secant can once only be accomplished to the cardboard, has improved production efficiency greatly, has reduced the cost of labor.

In order to let the cardboard steadily fall on vertical secant device 2, as shown in fig. 1 and 3, the utility model discloses be equipped with right baffle 4 above vertical conveyer belt of vertical secant device 2, and the output below of horizontal secant device 1 is equipped with left baffle 3, have the space that holds the cardboard between left baffle 3 and the right baffle 4, the cardboard comes out the back from the output of horizontal secant device 1, just fall on vertical conveyer belt of vertical secant device 2 to be in the space between left baffle 3 and the right baffle 4, the cardboard can be piled up in this space, and be equipped with preceding blend stop 6 above vertical conveyer belt, have the clearance that lets a cardboard pass through between this preceding blend stop 6 and the vertical conveyer belt. The front bars 6 block the stacked sheets and allow only the lowermost sheet to pass through.

In order to let the cardboard can move forward more smoothly, the utility model discloses still be equipped with backplate 5 between left baffle 3 and right baffle 4, the preceding fender face of this backplate 5 is the inclined plane, and the cardboard that piles up is placed on the preceding fender face of this backplate 5, because backplate 5's preceding fender face is the inclined plane, and the beneath cardboard is just slowly moved forward under the gravity of top cardboard to a clearance between 6 and the longitudinal transport belt of fender before through.

Finally worth mentioning, in order to guarantee the precision of secant, as shown in fig. 1, the utility model discloses a transverse secant device 1 is including transverse transport mechanism 14 of rectifying, and this transverse transport mechanism 14 of rectifying is including transversely rectifying a deviation wheel along one row of transverse arrangement, transversely rectifying a deviation wheel and enabling the cardboard to lean on the limit in transportation process, just so can guarantee cardboard transverse transport's precision. Similarly, the longitudinal thread cutting device 2 also comprises a longitudinal conveying deviation correcting mechanism 23, and the longitudinal conveying deviation correcting mechanism 23 comprises a row of longitudinal deviation correcting wheels which are arranged along the longitudinal direction. The longitudinal deviation rectifying wheel can enable the paper boards to lean against the edge in the conveying process, so that the precision of the longitudinal conveying of the paper boards can be guaranteed.

Claims

1. Cardboard two secant machine, including horizontal secant device (1) and vertical secant device (2), its characterized in that: the output end of the transverse thread cutting device (1) is positioned above the input end of the longitudinal thread cutting device (2), and the conveying direction of the transverse thread cutting device (1) is intersected with the conveying direction of the longitudinal thread cutting device (2); the transverse cutting device (1) comprises a transverse conveying mechanism (10) and a transverse cutting mechanism, the transverse cutting mechanism comprises a transverse cutting knife (12) and a transverse cutting press roller (11), and the transverse cutting knife (12) is in transmission connection with a first power source (13) which drives the transverse cutting knife (12) to move to the transverse cutting press roller (11); the longitudinal thread cutting device (2) comprises a longitudinal conveying mechanism (20) and a longitudinal thread cutting mechanism, the longitudinal thread cutting mechanism comprises a longitudinal thread cutting knife (22) and a longitudinal thread cutting press roller (21), and the longitudinal thread cutting knife (22) is in transmission connection with a second power source which drives the longitudinal thread cutting knife (22) to move to the longitudinal thread cutting press roller (21).

2. A cardboard double slitting machine according to claim 1, characterized in that: vertical conveyer belt top of vertical secant device (2) is equipped with right baffle (4), the output below of horizontal secant device (1) is equipped with left baffle (3), the space that holds the cardboard has between left baffle (3) and right baffle (4), vertical conveying mechanism top is equipped with preceding blend stop (6), preceding blend stop (6) and vertical conveying mechanism between have the clearance that lets a cardboard pass through.

3. A cardboard double slitting machine according to claim 2, characterized in that: a rear baffle (5) is further arranged between the left baffle (3) and the right baffle (4), and the front baffle surface of the rear baffle (5) is an inclined surface.

4. A cardboard double slitting machine according to claim 1, characterized in that: the transverse thread cutting device (1) comprises a transverse conveying deviation rectifying mechanism (14), and the transverse conveying deviation rectifying mechanism (14) comprises a row of transverse deviation rectifying wheels which are transversely arranged.

5. A cardboard double slitting machine according to claim 1, characterized in that: the longitudinal thread cutting device (2) comprises a longitudinal conveying deviation rectifying mechanism (23), and the longitudinal conveying deviation rectifying mechanism (23) comprises a row of longitudinal deviation rectifying wheels which are longitudinally arranged.