CN112478905B - Continuous paperboard stacking machine and continuous paperboard line - Google Patents

Abstract

The invention relates to a continuous paperboard stacking machine, in particular to a continuous paperboard stacking machine and a continuous paperboard line, and provides a continuous paperboard stacking machine and a continuous paperboard line of a paper folding mechanism which is pre-folded at the corner of a paperboard and linked with a transverse press and a swinging stacking mechanism, wherein the continuous paperboard stacking machine comprises a transverse press and the swinging stacking mechanism, the corner between the transverse press and the swinging stacking mechanism is provided with a frame structure pre-folding mechanism, and the transverse press is linked with the frame structure pre-folding mechanism and the swinging stacking mechanism, and the continuous paperboard line has the beneficial effects that: the transverse press and the swing stacking mechanism of the stacking machine are provided with the frame structure pre-folding mechanism, the three machines are linked, the crease effect is more obvious, the stacking effect and efficiency are effectively improved, and the paper folding machine can be widely used on a paper board line.

Description

Continuous paperboard stacking machine and continuous paperboard line

Technical Field

The invention relates to a continuous paperboard stacking machine, in particular to a continuous paperboard stacking machine and a continuous paperboard line.

Background

Continuous paperboard in the prior art typically includes a cross press and an oscillating stacker, and paperboard produced in a paperboard line is transported after being stacked for transport to other processing plants or other facilities. In the prior art, the paperboard is indented by a transverse press, then is conveyed to a swinging stacking mechanism from a horizontal state through an arc-shaped conveying mechanism at one corner, and the swinging stacking mechanism swings left and right to stack the paperboard on a paper stacking mechanism and then is conveyed away. Therefore, in the stacking process, only one indentation is carried out by the transverse press, so that the indentation is not folded in advance, the structure of the original corrugated board is not completely damaged at the transverse indentation position and still has high physical strength, the speed of the corrugated board is greatly limited in swinging before stacking or folding in other modes, the corrugated board is disordered after careless stacking, the corrugated board can be normally stacked after finishing, and the stacking efficiency and effect are poor.

Disclosure of Invention

The invention aims to provide a continuous paperboard stacking machine and a continuous paperboard line of a paper folding mechanism which is used for carrying out pre-folding at the corners of paperboards and is linked with a transverse press and a swing stacking mechanism.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a continuous paperboard stacking machine comprises a transverse press and a swinging stacking mechanism, wherein a frame structure pre-folding mechanism is arranged at a corner between the transverse press and the swinging stacking mechanism, and the transverse press, the frame structure pre-folding mechanism and the swinging stacking mechanism are linked.

Preferably, the frame structure pre-folding mechanism is arranged to be a polygonal prism structure with a straight line or a polygon section, and the number of prisms is more than two.

Preferably, the frame structure pre-folding mechanism comprises a folding roller, and the folding roller comprises: the driving shaft is arranged in the center of the roller; the wall plates are arranged into flat plates or polygons, at least two wall plates are arranged, and the wall plates are arranged at the positions, close to the end heads, of the two outer sides of the driving shaft in parallel; the gusset plates are linear or polygonal long prisms, the number of the gusset plates corresponds to the number of the vertexes of the wall plates, two ends of each gusset plate are respectively fixed on the ends or the corners of the wall plates, and one edge of each prism is parallel to the vertex connecting line of the wall plates at the two ends.

Preferably, the support plate is arranged between the gusset plates, and a plurality of gusset plates are arranged between every two gusset plates.

Preferably, at least one end of each gusset is secured to the gusset.

Preferably, one end of each gusset plate is fixed on each gusset plate, the gusset plates are uniformly arranged on both sides of each gusset plate, and the gusset plates on the adjacent gusset plates are intersected with each other.

Preferably, lightening holes are formed in the supporting plate and are uniformly arranged.

Preferably, the two sides of the driving shaft are provided with supporting seats, and the supporting seats are provided with an upper adjusting mechanism and a lower adjusting mechanism.

Preferably, the cross section of the paper folding roller is arranged to be a straight line or a triangle or a quadrangle or a pentagon.

A continuous paperboard line comprising the continuous paperboard stacking machine of any one of claims 1-9.

This technical scheme's continuous cardboard stacking machine, it includes violently press and swing stacking mechanism, sets up frame construction paper folding mechanism in advance in the corner between violently press and swing stacking mechanism, and violently press and frame construction paper folding mechanism in advance and swing stacking mechanism linkage. Like this the cardboard is at the in-process of marcing, earlier by the indentation of being pressed by the cross press, then reach frame pre-folding paper mechanism, the prism of frame pre-folding paper mechanism carries out the paper folding to the indentation, the indentation will be folded more easily, then reach swing stacking mechanism, swing stacking mechanism swings, make the cardboard pile up along the indentation, indentation + pre-folding + paper folding messenger pile up more easily, and because cross press and frame construction pre-folding paper mechanism and swing stacking mechanism link, frame construction pre-folding paper mechanism also possesses power, realize pre-folding paper and a decurrent power of paper feeding board simultaneously at the rotation in-process, the speed of piling has been improved, piling efficiency has improved 50% than the pile efficiency of the stacker that does not have frame construction pre-folding paper mechanism.

This technical scheme frame construction paper folding mechanism in advance sets up to the cross-section for sharp or polygonal polygon prism structure, and the prism sets up to more than two. The prism of the paper folding mechanism in advance of this design just folds paper to the indentation on the way in the whereabouts of cardboard, is favorable to piling up of cardboard more.

This technical scheme's frame construction paper folding mechanism in advance it includes the paper folding gyro wheel, and the paper folding gyro wheel includes: the driving shaft is arranged in the center of the roller; the wall plates are arranged into flat plates or polygons, at least two wall plates are arranged, and the wall plates are arranged at the positions, close to the end heads, of the two outer sides of the driving shaft in parallel; the gusset plates are linear or polygonal long prisms, the number of the gusset plates corresponds to the number of the vertexes of the wall plates, two ends of each gusset plate are respectively fixed on the end points or the angles of the wall plates, and one edge of each prism is parallel to the connecting line of the vertexes of the wall plates at the two ends. The drive shaft, the wallboard, the gusset plate forms a fixed paper folding gyro wheel that can revolve around the drive shaft, this kind of paper folding gyro wheel sets up the corner that piles up at the cardboard from the vertical state that falls down, can utilize prismatic shape characteristics at the flagging position of cardboard, carry out the preflex with the indentation on the cardboard, thereby be favorable to piling up of cardboard, because prismatic shape decision paper folding effect is better, and adjust the rotational speed of frame construction preflex paper folding mechanism can with the cross press and follow the linkage of its back swing paper folding mechanism, make the piling up effect of cardboard better, thereby improve the speed of piling up.

It still includes the fagging, and the fagging setting sets up a plurality of between per two gussets between the gusset, and the fagging can play the supporting role, prevents that the cardboard that thickness is low from appearing collapsing between the paper folding gyro wheel.

According to the technical scheme, the support plates are provided with the lightening holes which are uniformly arranged, and in order to avoid overweight of the whole roller, the support plates are provided with the lightening holes, so that the weight of the whole roller can be reduced.

This technical scheme fagging setting is in the both sides of gusset plate, and the fagging intercrossing on the adjacent gusset plate, and the fagging can strengthen the intensity of roller.

The both sides of this technical scheme drive shaft set up the supporting seat, and guiding mechanism about the supporting seat sets up. The supporting seat is fixed on the paper folding line, and then the height of the frame structure pre-paper folding mechanism is adjusted up and down according to the requirement. If the frame structure pre-folding mechanism with other sizes needs to be replaced, the height of the supporting seat can be adjusted according to the needs.

The invention has the beneficial effects that: the transverse press and the swing stacking mechanism of the stacking machine are provided with the frame structure pre-folding mechanism, the three machines are linked, the crease effect is more obvious, the stacking effect and efficiency are effectively improved, and the paper folding machine can be widely used on a paper board line.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic structural diagram of a continuous paperboard stacking machine according to the present invention;

FIG. 2 is a schematic structural diagram of the continuous paperboard stacking machine according to the present embodiment;

FIG. 3 is a schematic structural diagram of the paper folding roller of the present embodiment being a triangular roller;

FIG. 4 is a schematic structural view of a triangular roller gusset of the present technology;

fig. 5 is a side view of a triangular roller of the present solution.

In the above figures, 1, a support seat; 2. wall plates; 3. a drive shaft; 4. a gusset plate; 5. a supporting plate; 6. lightening holes; 7. a sliding seat; 8. a chute; 9. a screw hole; 10. a fixing plate; 11. a swing stacking mechanism; 12. a frame structure pre-folding mechanism; 13. a transverse press; 14. stacking paper; 15. a paperboard.

Detailed Description

The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

Example 1:

a continuous paperboard stacking machine comprises a transverse press 13 and a swinging stacking mechanism 11, wherein a frame structure pre-folding mechanism 12 is arranged at a corner between the transverse press 13 and the swinging stacking mechanism 11, and the transverse press 13, the frame structure pre-folding mechanism 12 and the swinging stacking mechanism 11 are linked.

Preferably, the frame structure pre-folding mechanism 12 is configured as a polygonal prism structure with a straight line or a polygon section, and the prisms are configured as more than two prisms.

Preferably, the frame structure pre-folding mechanism 12 includes a folding roller, and the folding roller includes: the driving shaft 3, the driving shaft 3 is set up in the centre of the gyro wheel; the wall plates 2 are flat plates or polygons, and at least two wall plates 2 are arranged and are arranged at positions close to the end heads on the two outer sides of the driving shaft 3 in parallel; the gusset plates 4 are arranged into linear or polygonal elongated prisms, the number of the gusset plates 4 corresponds to the number of the vertexes of the wall plates 2, two ends of each gusset plate are respectively fixed on the end points or the angles of the wall plates 2, and one edge of each prism is parallel to the connecting line of the vertexes of the wall plates 2 at two ends.

Preferably, it further comprises gussets 5, the gussets 5 being arranged between the gussets 4, several between each two gussets 4.

Preferably, at least one end of each gusset 5 is secured to the gusset 4.

Preferably, the gusset 5 is fixed at one end to the gusset 4, the gusset 5 is uniformly provided on both sides of the gusset 4, and the gussets 5 of adjacent gusset 4 intersect with each other.

Preferably, lightening holes 6 are arranged on the supporting plate 5, and the lightening holes 6 are uniformly arranged.

Preferably, the support seats 1 are arranged on two sides of the driving shaft 2, and the support seats 1 are provided with an up-down adjusting mechanism.

Preferably, the cross section of the paper folding roller is arranged to be a straight line or a triangle or a quadrangle or a pentagon.

Fig. 2, 3 and 5 of the present application are schematic structural diagrams of paper folding rollers with triangular cross sections, the spacing between the paper folding rollers shown in fig. 3, 4 and 5 is adjustable, the wall plates 2 are triangular, at least two wall plates 2 are arranged, and are arranged in parallel at positions close to the ends of two outer sides of the driving shaft 3, and a fixing plate 10 is arranged at each corner of the wall plates 2; the gusset plates 4 are arranged into three long triangular prisms with triangular sections, two ends of each long triangular prism are respectively fixed on three corners of the wall plate 2, and one edge of each triangular prism is parallel to a connecting line of vertexes of the wall plates 2 at two ends; the gusset plate fixing device further comprises a sliding seat 7, wherein the sliding seat 7 is arranged at the position below the gusset plate 4 and corresponding to a fixing plate 10 on the wall plate 2, a sliding groove 8 is formed in the sliding seat 7, and a screw hole 9 is formed in the sliding groove 8. The distance between the rollers is adjusted by adjusting the relative positions of the sliding seat 7 and the fixed plate 10.

Example 2:

a continuous paperboard line comprises a continuous paperboard stacking machine, the continuous paperboard stacking machine comprises a transverse press 13 and a swinging stacking mechanism 11, a frame structure pre-folding mechanism 12 is arranged at a corner between the transverse press 13 and the swinging stacking mechanism 11, and the transverse press 13, the frame structure pre-folding mechanism 12 and the swinging stacking mechanism 11 are linked.

Preferably, the frame structure pre-folding mechanism 12 is configured as a polygonal prism structure with a straight line or a polygon section, and the prisms are configured as more than two prisms.

Preferably, the frame structure pre-folding mechanism 12 includes a folding roller, and the folding roller includes: the driving shaft 3 is arranged in the center of the roller; the wall plates 2 are flat plates or polygons, and at least two wall plates 2 are arranged and are arranged at positions close to the end heads on the two outer sides of the driving shaft 3 in parallel; the gusset plates 4 are arranged into linear or polygonal elongated prisms, the number of the gusset plates 4 corresponds to the number of the vertexes of the wall plates 2, two ends of each gusset plate are respectively fixed on the end points or the angles of the wall plates 2, and one edge of each prism is parallel to the connecting line of the vertexes of the wall plates 2 at two ends.

Preferably, it further comprises gusset plates 5, the gusset plates 5 being arranged between the gusset plates 4, several gusset plates 4 being arranged between each other.

Preferably, at least one end of each gusset 5 is secured to the gusset 4.

Preferably, the gusset 5 is fixed at one end to the gusset 4, the gusset 5 is uniformly provided on both sides of the gusset 4, and the gussets 5 of adjacent gusset 4 intersect with each other.

Preferably, lightening holes 6 are arranged on the supporting plate 5, and the lightening holes 6 are uniformly arranged.

Preferably, the support seats 1 are arranged on two sides of the driving shaft 2, and the support seats 1 are provided with an up-down adjusting mechanism.

Preferably, the cross section of the paper folding roller is arranged to be a straight line or a triangle or a quadrangle or a pentagon.

Fig. 2, 3 and 5 of the present application are schematic structural diagrams of paper folding rollers with triangular cross sections, the spacing between the paper folding rollers shown in fig. 3, 4 and 5 is adjustable, the wall plates 2 are triangular, at least two wall plates 2 are arranged, and are arranged in parallel at positions close to the ends of two outer sides of the driving shaft 3, and a fixing plate 10 is arranged at each corner of the wall plates 2; the gusset plates 4 are arranged into three long triangular prisms with triangular sections, two ends of each long triangular prism are respectively fixed on three corners of the wall plate 2, and one edge of each triangular prism is parallel to a connecting line of vertexes of the wall plates 2 at two ends; the gusset plate fixing device further comprises a sliding seat 7, wherein the sliding seat 7 is arranged at the position below the gusset plate 4 and corresponding to a fixing plate 10 on the wall plate 2, a sliding groove 8 is formed in the sliding seat 7, and a screw hole 9 is formed in the sliding groove 8. The distance between the rollers is adjusted by adjusting the relative positions of the sliding seat 7 and the fixed plate 10.

It should be understood that the above embodiments are only for illustrating the technical solutions of the present invention, and not for limiting the same, and it is obvious for those skilled in the art that the technical solutions described in the above embodiments can be modified or some technical features can be replaced equivalently as long as no structural conflict exists; and all such modifications and alterations are intended to fall within the scope of the appended claims.

Claims (9)

1. The utility model provides a continuous cardboard stacking machine, its includes horizontal press and swing stacking mechanism, its characterized in that sets up frame construction in advance at the corner between horizontal press and the swing stacking mechanism and rolls over paper mechanism, and horizontal press and frame construction are rolled over paper mechanism and swing stacking mechanism linkage in advance, and frame construction is rolled over paper mechanism in advance and is included the paper folding gyro wheel, and the paper folding gyro wheel includes: the driving shaft is arranged in the center of the roller; the wall plates are arranged into flat plates or polygons, at least two wall plates are arranged, and the wall plates are arranged at the positions, close to the end heads, of the two outer sides of the driving shaft in parallel; the gusset plates are linear or polygonal long prisms, the number of the gusset plates corresponds to the number of the vertexes of the wall plates, two ends of each gusset plate are respectively fixed on the end points or the angles of the wall plates, and one edge of each prism is parallel to the connecting line of the vertexes of the wall plates at the two ends.

2. A continuous board stacking machine according to claim 1, wherein the frame structure pre-folding mechanism is configured as a polygonal prism structure with a straight or polygonal cross-section, and the prisms are configured as more than two.

3. A continuous web stacker according to claim 1 further comprising gussets disposed between the gussets, a plurality of gussets disposed between each two gussets.

4. A continuous web stacker according to claim 1 wherein each gusset has at least one end secured to a gusset.

5. A continuous web stacking machine according to claim 1, wherein the gussets are secured at one end to the gussets, the gussets being disposed evenly on either side of the gussets, the gussets of adjacent gussets intersecting one another.

6. A continuous board stacking machine according to claim 1, wherein the bracing plates are provided with lightening holes, and the lightening holes are uniformly arranged.

7. A continuous web stacking machine according to claim 1, wherein the drive shaft is provided with supports on both sides thereof, the supports being provided with up-and-down adjustment mechanisms.

8. A continuous web stacking machine according to claim 1, wherein the folding rollers are arranged in a straight line or a triangle or a quadrilateral or a pentagon in cross-section.

9. A continuous paperboard line comprising the triangular paper folding mechanism of any one of claims 1 to 8.

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