CN210652055U - Two-way fluting all-in-one of cardboard - Google Patents

Abstract

The utility model relates to a fluting all is from last two-way fluting all-in-one of cardboard of down carrying fluting twice. This kind of two-way fluting all-in-one of cardboard is including feed mechanism, once fluting mechanism and secondary fluting mechanism, its characterized in that: the feeding end of the primary grooving mechanism is located at the upper end, the discharging end of the primary grooving mechanism is located at the lower end, the feeding mechanism is connected with the feeding end of the primary grooving mechanism in a conveying mode, the discharging end of the primary grooving mechanism is connected with the overturning feeding mechanism in a conveying mode, the feeding end of the overturning feeding mechanism is located at the lower end, and the primary grooving and the secondary grooving of the paperboard bidirectional grooving all-in-one machine are both in a grooving mode of conveying the grooving from top to bottom, so that the grooving cutter is durable.

Description

Two-way fluting all-in-one of cardboard

Technical Field

The utility model relates to a cardboard groover, concretely relates to can carry out twice grooved two-way cardboard groover to the cardboard.

Background

Generally, paper packaging containers such as cartons and paper boxes are formed by folding a paperboard with grooves along the grooves, and a paperboard grooving machine is a device for grooving the paperboard. General cardboard groover has realized the secondary fluting on the existing market, however because the reason of structural configuration, the fluting is carried from last down to once of current two-way cardboard groover, and the secondary fluting can only be followed and carried the fluting from up, follows from up to carry the fluting mode make the wastepaper drop to the fluting cutter easily on, influence fluting cutter normal work.

Disclosure of Invention

In view of the deficiencies in the prior art, the utility model discloses the innovation provides a two-way fluting all is from last two-way fluting all-in-one of cardboard of down carrying the fluting.

This kind of two-way fluting all-in-one of cardboard is including feed mechanism, once fluting mechanism and secondary fluting mechanism, its characterized in that: the feed end of once slotting mechanism is located the upper end, the discharge end of once slotting mechanism is located the lower extreme, feed mechanism carries with the feed end of once slotting mechanism and links up, the discharge end of once slotting mechanism carries with upset feeding mechanism and links up, upset feeding mechanism's feed end is located the lower extreme, upset feeding mechanism's discharge end is located the upper end, upset feeding mechanism's discharge end carries with last feeding mechanism and links up, it intersects with upset feeding mechanism's direction of delivery, it carries with the conveying mechanism that rectifies to go up feeding mechanism and links up, the conveying mechanism that rectifies carries with the feed end of secondary slotting mechanism and links up, the feed end of secondary slotting mechanism is located the upper end, the discharge end of secondary slotting mechanism is located the lower extreme.

The upper part of the upper feeding mechanism is provided with a material baffle facing the discharging direction of the turnover feeding mechanism, and the upper feeding mechanism is composed of a plurality of deviation rectifying guide rollers obliquely arranged on the horizontal plane.

The turnover feeding mechanism comprises a turnover roller, a lower turnover belt and an upper turnover belt, wherein the lower turnover belt and the upper turnover belt act on the turnover roller through guide rollers, a turnover feeding hole and a turnover discharging hole are formed between the lower turnover belt and the upper turnover belt, the turnover feeding hole is connected with a discharging end of the primary grooving mechanism in a conveying mode, and the turnover discharging hole is connected with the upper feeding mechanism in a conveying mode.

According to the utility model provides a two-way fluting all-in-one of cardboard, once fluting and secondary fluting all are from last fluting mode down carrying the fluting, guarantee fluting cutter durable from this.

Drawings

FIG. 1 is a perspective view of the whole machine of the present invention 1;

FIG. 2 is a perspective view of the whole machine of the present invention 2;

3 FIG. 3 3 3 is 3 a 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 A 3- 3 A 3 of 3 FIG. 31 3; 3

Fig. 4 is a schematic diagram of paperboard slotting.

Detailed Description

As shown in fig. 1-3, the integrated machine for bi-directional slotting of paper boards comprises a feeding mechanism 1, a primary slotting mechanism 2 and a secondary slotting mechanism 6, wherein the primary slotting mechanism 2 comprises a slotting roller, a slotting cutter and a belt, the belt acts on the slotting roller, the paper boards are conveyed between the slotting roller and the slotting cutter, and the slotting cutter transversely slots the paper boards; the secondary grooving mechanism 6 is also of the same structure and principle, only because the positions are different, the secondary grooving mechanism 6 performs longitudinal grooving on the paperboard, and the 'bidirectional' in the bidirectional paperboard grooving machine means transverse grooving and longitudinal grooving. The specific structure of both is prior art and will not be described in detail here.

The utility model discloses a feed end of once slotting mechanism 2 is located the upper end, and the discharge end of once slotting mechanism 2 is located the lower extreme, and feed mechanism 1 links up with the feed end of once slotting mechanism 2 is carried, and the cardboard just enters into once slotting mechanism 2 through feed mechanism 1, and feed mechanism 1 also is prior art (including flying to form advanced or the conveyer belt structure form advanced), does not describe its concrete structure here yet. The discharge end of the primary grooving mechanism 2 is connected with the overturning feeding mechanism 3 in a conveying way; similarly, the feed end of the turnover feeding mechanism 3 is located at the lower end, the discharge end of the turnover feeding mechanism 3 is located at the upper end, the discharge end of the turnover feeding mechanism 3 is connected with the upper feeding mechanism 4 in a conveying mode, the conveying direction of the upper feeding mechanism 4 is intersected with the discharge direction of the turnover feeding mechanism 3, the upper feeding mechanism 4 is connected with the deviation-correcting conveying mechanism 5 in a conveying mode, the deviation-correcting conveying mechanism 5 is connected with the feed end of the secondary grooving mechanism 6 in a conveying mode, the feed end of the secondary grooving mechanism 6 is located at the upper end, and the discharge end of the secondary grooving mechanism 6 is located at the lower end.

The working principle of the utility model is as follows: as shown in fig. 4, the paperboard firstly enters the primary grooving mechanism 2 through the feeding mechanism 1, the primary grooving mechanism 2 performs primary grooving on the paperboard (a transverse groove is formed on one surface), and the primary grooving mechanism 2 can realize a grooving mode of conveying from top to bottom because the feeding end of the primary grooving mechanism 2 is at the upper end; after the paperboard is discharged from the lower discharge end of the primary grooving mechanism 2, the paperboard enters the turnover feeding mechanism 3, the turnover feeding mechanism 3 turns the paperboard 180 degrees from bottom to top and then feeds the paperboard into the upper feeding mechanism 4, and because the conveying direction of the upper feeding mechanism 4 is intersected with the discharging direction of the turnover feeding mechanism 3, the upper feeding mechanism 4 longitudinally conveys the paperboard and feeds the paperboard into the deviation-correcting conveying mechanism 5, the paperboard is corrected on the deviation-correcting conveying mechanism 5, and the deviation-correcting conveying mechanism 5 can be set to be long enough for realizing complete deviation correction; the paperboard enters the secondary grooving mechanism 6 after the deviation rectification is finished, secondary grooving is finished on the secondary grooving mechanism 6 (longitudinal grooves are formed in the same surface of the paperboard), and the secondary grooving mechanism 6 can also realize a grooving mode of conveying from top to bottom due to the fact that the feeding end of the secondary grooving mechanism 6 is arranged at the upper end.

Through the structure, the primary slotting mechanism 2 and the secondary slotting mechanism 6 can obtain reasonable position layout on the whole machine, enough travel is provided between the two mechanisms for completing deviation correction, and meanwhile, the primary slotting and the secondary slotting are both slotting modes of conveying from top to bottom, so that the slotting cutter is ensured not to be influenced by paper collecting scraps.

After the cardboard upset, just entering into feeding mechanism 4, in order to make the cardboard can neatly put at feeding mechanism 4, can enter into the conveying mechanism 5 that rectifies with neatly arranging simultaneously, as shown in fig. 2, the utility model discloses it is equipped with striker plate 41 to face the direction of the 3 ejection of compact of upset feeding mechanism in 4 tops of last feeding mechanism, and goes up feeding mechanism 4 and comprises the deflector roll that rectifies that a plurality of slant set up on the horizontal plane. The paper boards can collide against the material baffle plate 41 after coming out of the turnover feeding mechanism 3 and then fall on the conveying surface of the upper feeding mechanism 4, and the upper feeding mechanism 4 consists of a plurality of deviation-correcting guide rollers which are obliquely arranged on the horizontal plane, so that the paper boards can move forwards by being attached to the material baffle plate 41 when being conveyed on the upper feeding mechanism 4 when the deviation-correcting guide rollers rotate, and the paper boards can enter the deviation-correcting conveying mechanism 5 in a relatively regular arrangement. The paperboard is firstly subjected to primary deviation correction on the upper feeding mechanism 4, and then secondary deviation correction is carried out through the deviation correction conveying mechanism 5 (the deviation correction conveying mechanism 5 is the prior art), so that the whole machine has enough stroke for correcting the deviation of the paperboard, and the paperboard can accurately enter the secondary grooving mechanism to carry out secondary grooving.

Upset feeding mechanism 3 realizes the upset of cardboard, and it can have multiple structure, for example through a plurality of deflector roll formation arc transfer passage, as shown in fig. 3, the utility model provides an upset feeding mechanism 3, this upset feeding mechanism 3 is including upset roller 30, upset area 31 and last upset area 32 down, upset area 31 and last upset area 32 are all laminated on upset roller 30 through the deflector roll down, upset area 31 and last upset are taken and are formed upset feed inlet and upset discharge gate between 32 down, and the upset feed inlet is carried with the discharge end of slotting mechanism 2 once and is linked, and the upset discharge gate is carried with last feeding mechanism 4 and is linked. After the paperboard comes out from the primary grooving mechanism 2, the paperboard enters from the turnover feed port, is turned 180 degrees from bottom to top under the rotation of the turnover roller 30, comes out from the turnover discharge port and enters the upper feeding mechanism 4. It should be noted here that the upper turning belt 32 and the lower turning belt 31 are merely attached to the turning roller 30, the turning roller 30 is driven by a power source to rotate, and the turning roller 30 drives the upper turning belt 32 and the lower turning belt 31 to move by friction.

Claims (3)

1. The utility model provides a two-way fluting all-in-one of cardboard, is including feed mechanism (1), primary fluting mechanism (2) and secondary fluting mechanism (6), its characterized in that: the feeding end of the primary grooving mechanism (2) is positioned at the upper end, the discharging end of the primary grooving mechanism (2) is positioned at the lower end, the feeding mechanism (1) is connected with the feeding end of the primary grooving mechanism (2) in a conveying manner, the discharging end of the primary grooving mechanism (2) is connected with the overturning feeding mechanism (3) in a conveying manner, the feeding end of the overturning feeding mechanism (3) is positioned at the lower end, the discharging end of the overturning feeding mechanism (3) is positioned at the upper end, the discharging end of the overturning feeding mechanism (3) is connected with the upper feeding mechanism (4) in a conveying manner, the conveying direction of the upper feeding mechanism (4) is intersected with the discharging direction of the overturning feeding mechanism (3), the upper feeding mechanism (4) is connected with the deviation-correcting conveying mechanism (5) in a conveying manner, the deviation-correcting conveying mechanism (5) is connected with the feeding end of the secondary grooving mechanism (6), and the feeding end of the secondary grooving mechanism (6) is positioned at the upper end, and the discharge end of the secondary grooving mechanism (6) is positioned at the lower end.

2. A bi-directional paperboard slotting machine as set forth in claim 1, wherein: go up feeding mechanism (4) top and be equipped with striker plate (41) facing the direction of upset feeding mechanism (3) ejection of compact, it comprises the rectifying deflector roll that a plurality of slant set up on the horizontal plane to go up feeding mechanism (4).

3. A bi-directional paperboard slotting machine as claimed in claim 1 or 2, wherein: upset feeding mechanism (3) are including upset roller (30), lower upset area (31) and last upset area (32), upset area (31) and last upset area (32) all act on upset roller (30) through the guide roll down, form upset feed inlet and upset discharge gate down between upset area (31) and last upset area (32), the upset feed inlet is carried with the discharge end of once slotting mechanism (2) and is linked, the upset discharge gate is carried with last feeding mechanism (4) and is linked.

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