CN216761200U - Adhesion formula dust removal mechanism that corrugated paper printing production line was used - Google Patents

Abstract

The utility model discloses an adhesive type dust removal mechanism for a corrugated paper printing production line, which comprises an adhesive roller and a gap adjusting mechanism, wherein the adhesive roller is arranged on one side of a paper feeding roller of a paper feeding part in parallel; the two ends of the gluing roller are connected with a gap adjusting mechanism for adjusting the distance between the surface of the gluing roller and the surface of the paperboard. This adhesion formula dust removal mechanism that corrugated paper printing production line was used simple structure, convenient to use can realize can be in the in-process of form advancing the dust on adhesion detach paperboard surface fast in succession, avoid the dust to blow away in the airtight space in workshop or production line place and the harmful effects that cause easily, simultaneously, this adhesion formula dust removal mechanism's manufacturing cost and maintenance cost are lower, and the clearance adjustment is nimble, and applicable in the corrugated paper printing production line use of multiple different specifications.

Description

Adhesion formula dust removal mechanism that corrugated paper printing production line was used

Technical Field

The utility model relates to the technical field of corrugated paper printing production, in particular to an adhesive type dust removal mechanism for a corrugated paper printing production line.

Background

The paper feeding part of the corrugated paper printing production line is one of the foremost constituent units of the production line, and in the printing production process of corrugated paper, dust removal is often required to be carried out on the surface of a paperboard in the paper feeding part so as to ensure the subsequent printing effect. The dust removal mode that adopts at present is mostly wind-force dust removal, utilize the fan to sweep the cardboard surface in order to reach the dust removal effect promptly, but in actual production, because the fan sweeps probably inhomogeneous to cardboard surface everywhere pressure, the wind pressure that is close to the fan exit end generally is great, the wind pressure of keeping away from the fan exit end is less, consequently, it is inhomogeneous to cause the dust removal effect easily, be difficult to reach the dust removal effect of ideal, and simultaneously, the mode that utilizes the fan to sweep can blow off the dust in the airtight space at workshop or production line place, no matter be to equipment or to the human body all cause harmful effects easily. Therefore, a mode of removing dust by combining a vacuum adsorption box with a brush gradually appears at present, namely the brush is used for cleaning the surface of a paperboard, and then the vacuum adsorption box is used for adsorbing and taking away dust.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides an adhesive type dust removing mechanism for a corrugated paper printing production line, which has a simple structure and convenient use and can continuously and quickly adhere and remove dust on the surface of a paperboard in the paper feeding process.

The technical scheme of the utility model is as follows: an adhesive type dust removal mechanism for a corrugated paper printing production line comprises an adhesive roller and a gap adjusting mechanism, wherein the adhesive roller is arranged on one side of a paper feeding roller of a paper feeding part in parallel, two ends of the adhesive roller are respectively arranged on a rack, and adhesive paper covers the surface of the adhesive roller; the two ends of the gluing roller are connected with a gap adjusting mechanism for adjusting the distance between the surface of the gluing roller and the surface of the paperboard. In the adhesive dust removal mechanism, the adhesive effect of the adhesive gummed paper adhered to the surface of the gummed roller is utilized, so that dust on the surface of the paperboard can be quickly adhered and taken away in the paperboard conveying process, and the phenomenon of dust dispersion is avoided; after the adhesive gummed paper on the surface of the viscose roller is torn off layer by layer, in order to enable the surface of the viscose roller to be better attached to the surface of the paperboard, the gap between the viscose roller and the paperboard can be adjusted in real time through the gap adjusting mechanism, and the ideal dust removal effect is achieved.

The gap adjusting mechanism comprises an adjusting motor, a reduction gearbox, a first transmission gear set, a worm gear box, an adjusting shaft, second transmission gears and eccentric gears, the adjusting shaft and the adhesive roller are arranged in parallel, two ends of the adjusting shaft are also respectively installed on the rack, the two ends of the adjusting shaft are respectively provided with the second transmission gears, two ends of the adhesive roller are respectively provided with the eccentric gears, each second transmission gear is correspondingly matched and connected with one eccentric gear, one end of the adjusting shaft is arranged in the worm gear box, and the output end of the adjusting motor is connected with the worm gear box sequentially through the reduction gearbox and the first transmission gear set; the adjusting motor, the reduction gearbox and the worm gear box are respectively arranged on the machine frame at one end of the adjusting shaft. When the gap between the surface of the adhesive roller and the surface of the paperboard needs to be adjusted, the adjusting motor is started, the reduction gearbox, the first transmission gear set and the worm gear box are used for power transmission to drive the adjusting shaft to rotate, the adjusting shaft drives the second transmission gears at two ends of the adjusting shaft to rotate, each second transmission gear synchronously drives the corresponding eccentric gear to rotate, the adhesive roller does not rotate along with the eccentric gear, but the adhesive roller can generate displacement along with the eccentric distance of the eccentric gear, so that the distance between the surface of the adhesive roller and the surface of the paperboard changes.

Connecting shafts are respectively arranged at two ends of a roller shaft of the gluing roller and are arranged on the frame through the connecting shafts, and the peripheries of the connecting shafts are connected with the eccentric gears through bearings.

The viscose roller comprises a roller and a roller shaft, the roller shaft is two short shafts respectively embedded into two ends of the roller, and the middle of the roller is of a hollow structure; one end of the connecting shaft is provided with a blind hole, and the end part of the roll shaft extending out of the roll barrel is embedded and fixed in the blind hole at the end part of the connecting shaft. The structure forms the viscose roller with the shaft-holding structure mode, and the viscose roller can be conveniently dismounted and mounted during maintenance or replacement.

And the outer cylindrical surface of the roller is covered with adhesive gummed paper.

Preferably, the glue roller is driven by the paper feeding roller to rotate synchronously, i.e. the glue roller moves synchronously with the paper feeding roller. The gluing roller is connected with the paper feeding roller through the third transmission gear set at two ends of the gluing roller and at the outer end of the connecting shaft, and the gluing roller and the paper feeding roller rotate synchronously.

The adhesive gummed paper is of a multilayer structure which can be torn off layer by layer.

As another preferred scheme, the gluing roller is unpowered and rotates along with the conveying of the paperboard, namely, in the conveying process of the paperboard, the gluing roller is driven to rotate by using the friction force between the gluing roller and the paperboard.

When the adhesion type dust removal mechanism for the corrugated paper printing production line is applied to a paper feeding part, the principle is as follows: the paper board is continuously conveyed through the paper feeding roller set (generally composed of one or more pairs of paper feeding rollers arranged up and down), the gluing rollers can be arranged on the upper side and the lower side or one side of the paper board according to actual requirements, when the paper board is conveyed to the position where the gluing rollers are located, the surfaces of the gluing rollers are contacted with the surface of the paper board, and the gluing rollers can quickly take away dust on the surface of the paper board by utilizing the adhesive force of the adhesive paper adhered on the surface of the gluing rollers along with the forward conveying of the paper board and the rotation of the gluing rollers; the adhesive gummed paper on the surface of the viscose roller is continuously used, the adhesive gummed paper can be torn off layer by layer, and the distance between the surface of the viscose roller and the surface of the paperboard can be changed at the moment, so that the surface of the viscose roller can be better attached to the surface of the paperboard, the gap between the surface of the viscose roller and the surface of the paperboard can be adjusted in real time through the gap adjusting mechanism, and an ideal dust removal effect is achieved; when the gap needs to be adjusted, the adjusting motor is started, the reduction gearbox, the first transmission gear set and the worm gear box are used for power transmission to drive the adjusting shaft to rotate, the adjusting shaft drives the second transmission gears at two ends of the adjusting shaft to rotate, the second transmission gears synchronously drive the corresponding eccentric gears to rotate, the adhesive roller does not rotate along with the eccentric gears, but the adhesive roller can generate displacement along with the eccentric distance of the eccentric gears, so that the distance between the surface of the adhesive roller and the surface of the paperboard changes. In practical application, the adjusting motor can also be connected to a control system of a corrugated paper printing production line for automatic adjustment, so that the accuracy of the adjusting motor is improved.

Compared with the prior art, the utility model has the following beneficial effects:

this adhesion formula dust removal mechanism that corrugated paper printing production line was used simple structure, convenient to use can realize can be in the in-process of form advancing the dust on adhesion detach paperboard surface fast in succession, avoid the dust to blow away in the airtight space in workshop or production line place and the harmful effects that cause easily, simultaneously, this adhesion formula dust removal mechanism's manufacturing cost and maintenance cost are lower, and the clearance adjustment is nimble, and applicable in the corrugated paper printing production line use of multiple different specifications.

In this adhesion formula dust removal mechanism that corrugated paper printing production line was used, the adhesive tape on the viscose roller can select the adhesive tape of different grade type, different adhesion to change the use according to the actual demand of production technology, uses in a flexible way and convenient.

In this adhesion formula dust removal mechanism that corrugated paper printing production line was used, set up clearance adjustment mechanism at viscose roller both ends, after continuous use of adhesion adhesive tape and tearing, accessible clearance adjustment mechanism in time adjusts the distance between viscose roller surface and the cardboard surface, makes viscose roller surface can laminate the cardboard surface better to reach the dust removal effect of ideal.

In this adhesion formula dust removal mechanism that corrugated paper printing production line was used, the viscose roller adopts and embraces the axle construction mode, can make things convenient for the dismouting, further reduces the plant maintenance cost. Simultaneously, according to the actual need of equipment, the viscose roller accessible advance the synchronous drive operation of paper roller, also can not establish drive power, directly utilizes the frictional force between viscose roller and the cardboard to drive its rotation, uses in a flexible way.

Drawings

Fig. 1 is a schematic structural diagram of the adhesive dust removal mechanism.

Fig. 2 is a schematic sectional perspective view of the adhesive dust removing mechanism shown in fig. 1.

Fig. 3 is a front view of the structure shown in fig. 2.

FIG. 4 is a schematic view showing the structure of the synchronous connection between the glue roller and the paper feeding roller.

In the above figures, the reference numerals are as follows: the device comprises a gluing roller 1, a connecting shaft 1-1, a bearing 1-2, a roller 1-3, a roller shaft 1-4, a gap adjusting mechanism 2, an adjusting motor 2-1, a reduction gearbox 2-2, a first transmission gear set 2-3, a worm gear box 2-4, an adjusting shaft 2-5, a second transmission gear 2-6, an eccentric gear 2-7, a paper feeding roller 3, a frame 4 and a third transmission gear set 5.

Detailed Description

The present invention will be described in further detail with reference to examples, but the embodiments of the present invention are not limited thereto.

Example 1

The embodiment provides an adhesion type dust removing mechanism for a corrugated paper printing production line, which is applied to a paper feeding part of the corrugated paper printing production line.

As shown in fig. 1, the adhesion type dust removing mechanism comprises an adhesive roller 1 and a gap adjusting mechanism 2, wherein the adhesive roller is arranged on one side of a paper feeding roller 3 of a paper feeding part in parallel, two ends of the adhesive roller are respectively arranged on a frame 4, and the surface of the adhesive roller is covered with adhesive gummed paper (not shown in the figure); the two ends of the gluing roller are connected with a gap adjusting mechanism for adjusting the distance between the surface of the gluing roller and the surface of the paperboard. The adhesive effect of the adhesive paper adhered to the surface of the adhesive roller is utilized, so that dust on the surface of the paperboard can be quickly adhered and taken away in the paperboard conveying process, and the dust can not be dispersed; after the adhesive gummed paper on the surface of the adhesive roller is torn off layer by layer, in order to enable the surface of the adhesive roller to be better attached to the surface of the paperboard, the gap between the adhesive roller and the paperboard can be adjusted by the gap adjusting mechanism in real time, so that the ideal dust removal effect is achieved.

As shown in fig. 2 or fig. 3, the gap adjusting mechanism includes an adjusting motor 2-1, a reduction box 2-2, a first transmission gear set 2-3, a worm gear box 2-4, an adjusting shaft 2-5, a second transmission gear 2-6 and an eccentric gear 2-7, the adjusting shaft and the glue roller are arranged in parallel, two ends of the adjusting shaft are also respectively installed on the frame, two ends of the adjusting shaft are respectively provided with the second transmission gear, two ends of the glue roller are respectively provided with the eccentric gears, each second transmission gear is correspondingly connected with one eccentric gear in a matching manner, one end of the adjusting shaft is arranged in the worm gear box, and the output end of the adjusting motor is connected with the worm gear box sequentially through the reduction box and the first transmission gear set; the adjusting motor, the reduction gearbox and the worm gear box are respectively arranged on the machine frame at one end of the adjusting shaft. Wherein, when the clearance between needs adjustment viscose roller surface and the cardboard surface, through starting adjustment motor, utilize the reducing gear box, first drive gear group and worm gear case carry out power transmission and drive the adjusting spindle and rotate, the adjusting spindle drives the second drive gear rotation at its both ends, each second drive gear synchronous drive corresponding eccentric gear rotates, the viscose roller does not follow eccentric gear and rotates, but because the eccentricity that eccentric gear exists, the viscose roller can produce and follow the production displacement to make the distance between viscose roller surface and the cardboard surface change.

As shown in figure 2 or figure 3, two ends of a roll shaft of the gluing roller are respectively provided with a connecting shaft 1-1 and are arranged on the frame through the connecting shaft, and the periphery of the connecting shaft is connected with the eccentric gear through a bearing 1-2. The viscose roller comprises a roller barrel 1-3 and a roller shaft 1-4, the roller shaft is two short shafts respectively embedded into two ends of the roller barrel, and the middle of the roller barrel is of a hollow structure; one end of the connecting shaft is provided with a blind hole, and the end part of the roll shaft extending out of the roll barrel is embedded and fixed in the blind hole at the end part of the connecting shaft. The structure forms the viscose roller with the shaft-holding structure mode, and the viscose roller can be conveniently dismounted and mounted during maintenance or replacement. The outer cylindrical surface of the roller is covered with adhesive gummed paper, wherein the adhesive gummed paper is of a multilayer structure which can be torn off layer by layer.

In addition, in the embodiment, the glue roller is driven by the paper feeding roller to rotate synchronously, namely, the glue roller moves synchronously with the paper feeding roller. As shown in fig. 4, the third transmission gear set 5 is arranged at the outer end of the connecting shaft at both ends of the glue roller, the connecting shaft is connected with the end part of the roller shaft of the paper feeding roller through the third transmission gear set, and the glue roller and the paper feeding roller rotate synchronously. In this embodiment, the lower paper feeding roller of the paper feeding roller group is used as the power roller, so the adhesive roller is connected to the lower paper feeding roller through the third transmission gear group and rotates synchronously with the lower paper feeding roller.

The principle of the adhesive dust removal mechanism is as follows: the paper board is continuously conveyed through the paper feeding roller set (generally composed of one or more pairs of paper feeding rollers arranged up and down), the gluing rollers can be arranged on the upper side and the lower side or one side of the paper board according to actual requirements, when the paper board is conveyed to the position where the gluing rollers are located, the surfaces of the gluing rollers are contacted with the surface of the paper board, and the gluing rollers can quickly take away dust on the surface of the paper board by utilizing the adhesive force of the adhesive paper adhered on the surface of the gluing rollers along with the forward conveying of the paper board and the rotation of the gluing rollers; the adhesive gummed paper on the surface of the viscose roller is continuously used, the adhesive gummed paper can be torn off layer by layer, and the distance between the surface of the viscose roller and the surface of the paperboard can be changed at the moment, so that the surface of the viscose roller can be better attached to the surface of the paperboard, the gap between the surface of the viscose roller and the surface of the paperboard can be adjusted in real time through the gap adjusting mechanism, and an ideal dust removal effect is achieved; when the gap is required to be adjusted, the adjusting motor is started, the reduction gearbox, the first transmission gear set and the worm gear box are used for power transmission to drive the adjusting shaft to rotate, the adjusting shaft drives the second transmission gears at two ends of the adjusting shaft to rotate, each second transmission gear synchronously drives the corresponding eccentric gear to rotate, the adhesive roller does not rotate along with the eccentric gear, but can generate displacement along with the eccentric distance of the eccentric gear, and therefore the distance between the surface of the adhesive roller and the surface of the paperboard is changed. In practical application, the adjusting motor can also be connected to a control system of a corrugated paper printing production line for automatic adjustment, so that the accuracy of the corrugated paper printing production line is improved.

Example 2

The embodiment provides an adhesive type dust removing mechanism for a corrugated paper printing production line, which is also applied to a paper feeding part of the corrugated paper printing production line. Compared with the embodiment 1, the difference is that: the glue roller of this embodiment is unpowered, follows the transport of cardboard and rotates, promptly at cardboard transportation process, utilizes the frictional force between glue roller and the cardboard to order about the glue roller and rotate.

As mentioned above, the present invention can be better realized, and the above embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention; all equivalent changes and modifications made according to the present disclosure are intended to be covered by the scope of the claims of the present invention.

Claims (8)

1. An adhesive type dust removal mechanism for a corrugated paper printing production line is characterized by comprising an adhesive roller and a gap adjusting mechanism, wherein the adhesive roller is arranged on one side of a paper feeding roller of a paper feeding part in parallel, two ends of the adhesive roller are respectively arranged on a rack, and adhesive gummed paper covers the surface of the adhesive roller; the two ends of the gluing roller are connected with a gap adjusting mechanism for adjusting the distance between the surface of the gluing roller and the surface of the paperboard.

2. The adhesive type dust removing mechanism for the corrugated paper printing production line as recited in claim 1, wherein the gap adjusting mechanism comprises an adjusting motor, a reduction gearbox, a first transmission gear set, a worm gear box, an adjusting shaft, a second transmission gear and an eccentric gear, the adjusting shaft is arranged in parallel with the glue roller, two ends of the adjusting shaft are also respectively mounted on the frame, the two ends of the adjusting shaft are respectively provided with the second transmission gear, two ends of the glue roller are respectively provided with the eccentric gear, each second transmission gear is correspondingly connected with one eccentric gear in a matching manner, one end of the adjusting shaft is arranged in the worm gear box, and the output end of the adjusting motor is connected with the worm gear box sequentially through the reduction gearbox and the first transmission gear set; the adjusting motor, the reduction gearbox and the worm gear box are respectively arranged on the machine frame at one end of the adjusting shaft.

3. The adhering type dust removing mechanism for the corrugated paper printing production line as claimed in claim 2, wherein two ends of the roll shaft of the adhering roller are respectively provided with a connecting shaft and are mounted on the frame through the connecting shafts, and the periphery of the connecting shaft is connected with the eccentric gear through a bearing.

4. The adhesive dust removing mechanism for the corrugated paper printing production line as recited in claim 3, wherein the adhesive roller comprises a roller and a roller shaft, the roller shaft is two short shafts respectively embedded at two ends of the roller, and the middle part of the roller is of a hollow structure; one end of the connecting shaft is provided with a blind hole, and the end part of the roll shaft extending out of the roll barrel is embedded and fixed in the blind hole at the end part of the connecting shaft.

5. An adhesive dust removal mechanism for a corrugated paper printing line as recited in claim 4, wherein an outer cylindrical surface of said roller is covered with adhesive paper.

6. The adhering type dust removing mechanism for the corrugated paper printing production line as claimed in claim 3, wherein the third transmission gear set is arranged at the outer end of the connecting shaft at both ends of the adhering roller, the connecting shaft is connected with the end part of the roller shaft of the paper feeding roller through the third transmission gear set, and the adhering roller and the paper feeding roller rotate synchronously.

7. An adhesive dust removal mechanism for a corrugated paper printing line as recited in claim 1, wherein the adhesive paper is a multi-layer structure that can be torn off layer by layer.

8. An adhesive dust removal mechanism for a corrugated paper printing line as recited in claim 1, wherein the glue roller is unpowered to rotate following the transport of the paper sheet.

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