CN111002722B - Paper tube two-end marking machine - Google Patents

Abstract

The invention discloses a paper tube two-head marking machine which is characterized by being used for marking specification varieties of chemical fiber filaments on two ends of a white paper tube respectively to replace the existing colored paper tube. If the marking machine for the two ends of the paper tube provided by the invention is used, only white paper tube surface paper can be used when the paper tube is produced, and the specification and model of chemical fiber filaments are marked on the white paper tube, so that the production cost of the paper tube is greatly reduced, and meanwhile, the paper mill only produces the white paper tube surface paper, so that the paper making cost is greatly reduced, the color on the paper machine does not need to be washed, and the water resource is saved and the environmental pollution is avoided. The color on the paper tube can not be dropped on the chemical fiber filament when the paper tube is integrated in a chemical fiber factory, and the price of the paper tube is naturally reduced because the cost of the paper tube is reduced.

Description

Paper tube two-end marking machine

Technical Field

The invention relates to marking equipment for printing chemical fiber filament specifications and varieties wound on a chemical fiber paper tube at two ends of the chemical fiber paper tube.

Background

And winding the chemical fiber filaments on the chemical fiber paper tube for storage and transportation. Since chemical fiber filaments have a very large number of specifications, in order to mark these specifications, the conventional method is to produce chemical fiber paper tubes of different colors by a paper tube mill, and the chemical fiber paper tube of each color corresponds to a chemical fiber filament of one specification. The chemical fiber filaments with the corresponding specifications are wound on the chemical fiber paper tubes with the corresponding colors for storage and transportation.

The above-mentioned method has the following problems:

first) for a paper mill that supplies raw materials to a paper tube mill:

1) in order to meet the supply demand of paper tube factories, a sufficient amount of paper needs to be stored in each color, and a large amount of capital and warehouse are needed to meet the demand.

2) Depending on the manufacturing process of the paper mill, each paper machine is changed for color approximately every 7 days or so. When the color is changed, the paper machine needs to be started up and washed by clean water for about 24 hours, and other residual colors on the paper machine can be washed clean, so that the next colored paper production is not influenced. The process needs about 300 tons of clean water, and simultaneously generates about 300 tons of waste water which needs to be treated, thereby greatly wasting resources, causing damage to the environment to a certain degree and not meeting the requirements of sustainable development.

Second) for a paper tube mill that provides chemical fiber paper tubes for chemical fiber mills:

in order to meet the supply demand of the chemical fiber factories, on one hand, the paper tube factories must store a certain amount of facial tissues of various colors for producing the chemical fiber paper tubes. On the other hand, in the process of producing chemical fiber paper tubes in paper tube factories, chemical fiber paper tubes of various colors also need to be stored in a certain amount of stock. Such an approach may require a large amount of capital, warehouses, to meet the requirements.

Third) for chemical fiber plants:

the chemical fiber is tightly wound outside the colored chemical fiber paper tube, and the color on the chemical fiber paper tube is easy to dye the chemical fiber, thereby reducing the grade and price of the chemical fiber.

Disclosure of Invention

The purpose of the invention is: the color on the chemical fiber paper tube is prevented from migrating to the chemical fiber filaments, the production cost of the paper tube is reduced, the waste of water resources and the pollution to the environment caused in the papermaking production process are reduced, and the risk that the color on the chemical fiber paper tube migrates to the chemical fiber filaments is reduced.

In order to achieve the above object, the present invention provides a paper tube two-end marking machine, which is characterized in that the paper tube two-end marking machine is used for marking specification varieties of chemical fiber filaments used on two ends of a white paper tube to replace the existing colored paper tube, and defines two ends of the white paper tube used for printing the specification varieties as a head end and a tail end respectively, and the paper tube two-end marking machine comprises:

the printing paper feeding device comprises a paper tube slot to be printed, white paper tubes to be printed are arranged in the paper tube slot to be printed in an abutting mode end to end, and the white paper tubes in the paper tube slot to be printed are conveyed forwards by a conveying mechanism, so that the white paper tube positioned at the forefront falls into a feeding slide way;

the white paper tubes in the feeding slide rail fall into the vertical feeding mechanism from the top opening of the vertical feeding mechanism by means of self gravity and vertically fall downwards along the vertical feeding mechanism;

a paper tube positioning flashboard driven by a cylinder I to extend and retract is arranged right below the vertical feeding mechanism, after the paper tube positioning flashboard extends in place, a white paper tube falling from the vertical feeding mechanism falls on the paper tube positioning flashboard, and after the paper tube positioning flashboard retracts in place, the white paper tube falls on a paper tube discharging slideway positioned below the paper tube positioning flashboard, so that the printed white paper tube is discharged;

at least two paper tube fixing hoops which are uniformly distributed along the circumferential direction are arranged between the paper tube positioning flashboard and the vertical feeding mechanism, the paper tube fixing hoops are driven by the second air cylinder to extend and retract, after the white paper tubes are blocked by the paper tube positioning flashboard, the paper tube fixing hoops are driven by the second air cylinder to extend, so that the white paper tubes falling on the positioning flashboard are tightly embraced in the circumferential direction, and the white paper tubes adjacent to the current white paper tubes are vertically stacked on the current white paper tubes;

at least two laser printing heads are uniformly distributed along the circumferential direction between the paper tube fixing hoop and the vertical feeding mechanism, and all the laser printing heads are positioned on the same circumferential surface in the circumferential direction; all laser printing heads are aligned to the joint of the head and the tail of the two white paper tubes which are stacked up and down, and specification varieties are printed at the head and the tail of the two white paper tubes.

Preferably, a guide structure is formed at the top opening of the vertical feeding mechanism, and the feeding chute sliding out of the feeding chute is guided into the vertical feeding mechanism by the guide structure.

Preferably, the vertical feeding mechanism comprises at least three blocking rods which are uniformly arranged along the circumferential direction, all the blocking rods enclose a vertically arranged pipeline structure with the diameter equivalent to that of the white paper tube, the white paper tube vertically falls down along the pipeline structure, and the blocking rods limit the front, rear, left and right positions of the white paper tube, so that the centers of two vertically adjacent white paper tubes are positioned on the same straight line; the top end of the stop lever close to the feeding slide way is bent towards the direction of the feeding slide way, so that the guide structure is formed, and the top opening of the pipeline structure forms a flaring structure;

all pin is equipped with at least one ring type mount along the axial arrangement outward, wears to be equipped with the mounting that equals with pin quantity on the ring type mount, and the tip of every mounting stretches into behind the ring type mount to be connected fixedly with a pin, stretches into the distance in the ring type mount through adjusting the mounting, makes vertical feeding mechanism adapts to different diameters white paper tube.

Preferably, each laser printing head is fixed on a sliding block, the sliding block is arranged on a vertical fixing frame, a lead screw is arranged in the fixing frame, a nut matched with the lead screw is sleeved on the lead screw, the nut is connected with the sliding block, the lead screw is operated by a hand wheel positioned at the top of the fixing frame, so that the lead screw is driven to move up and down along the fixing frame, and the height of the laser printing heads is adjusted to adapt to the white paper tubes with different heights.

The invention provides a paper tube two-end marking machine which is designed for solving the problem of loss caused by the fact that color on a chemical fiber paper tube is transferred to chemical fiber to cause the grade reduction of the chemical fiber. The specification and variety of chemical fiber filaments are directly printed on the white chemical fiber paper tube, so that the use of colored surface paper is avoided, the loss of the chemical fiber filaments caused by fading is eliminated, and meanwhile, the production cost of the paper tube and papermaking and the influence of the produced colored paper on the environment are reduced.

If the marking machine for the two ends of the paper tube provided by the invention is used, only white paper tube surface paper can be used when the paper tube is produced, and the specification and model of chemical fiber filaments are marked on the white paper tube, so that the production cost of the paper tube is greatly reduced, and meanwhile, the paper mill only produces the white paper tube surface paper, so that the paper making cost is greatly reduced, the color on the paper machine does not need to be washed, and the water resource is saved and the environmental pollution is avoided. The grade reduction caused by the color on the paper tube falling onto the chemical fiber filament is avoided when the paper tube is integrated into a chemical fiber factory, and the price of the paper tube is naturally reduced because the cost of the paper tube is reduced.

Drawings

FIG. 1 is a schematic diagram of the general structure of the present invention;

fig. 2 is a schematic structural view of the vertical feeding mechanism.

Detailed Description

The invention will be further illustrated with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

The paper tube two-end marking machine provided by the invention is used for marking the specification and variety of the chemical fiber filaments used on the two ends of the white paper tube 12 respectively to replace the existing colored paper tube. The two ends of the white paper tube 12 for printing specification varieties are respectively defined as a head end and a tail end, as shown in fig. 1, the two-end marking machine for paper tubes provided by the invention comprises a frame 13, and all other mechanisms of the invention are installed and fixed on the frame 13. The present invention includes a paper tube slot 1 to be printed at the uppermost. The white paper tubes to be printed are arranged in the paper tube slot 1 to be printed end to end, and in the embodiment, a row of white paper tubes 12 are arranged in the paper tube slot 1 to be printed. The paper tube slot 1 to be printed is provided with a conveying mechanism, and the conveying mechanism can adopt a belt conveying mechanism and the like commonly used by a person skilled in the art. The white paper tube 12 in the paper tube slot 1 to be printed is conveyed forwards by the conveying mechanism, so that the white paper tube 12 positioned at the forefront falls into the feeding slideway 2.

In this embodiment, one open end of the feeding chute 2 is connected to the paper tube slot 1 to be printed, and the other open end is connected to the vertical feeding mechanism. The white paper tube 12 in the feeding slide way 2 falls into the vertical feeding mechanism from the top opening of the vertical feeding mechanism after sliding out of the feeding slide way 2 by the gravity of the white paper tube, and falls vertically downwards along the vertical feeding mechanism. The vertical feeding mechanism is used for limiting the front, rear, left and right positions of the white paper tubes 12 in the falling process of the white paper tubes 12, so that the centers of the vertically stacked white paper tubes 12 are positioned on a straight line.

In this embodiment, the vertical feeding mechanism includes four blocking rods 3 uniformly arranged along the circumferential direction, and all the blocking rods enclose a vertically arranged pipeline structure with a diameter equivalent to that of the white paper tube 12. The white paper tubes 12 fall vertically downwards along the pipeline structure, and the positions of the white paper tubes 12 in the front, back, left and right directions are limited by the stop levers 12, so that the centers of two adjacent white paper tubes 12 are positioned on the same straight line. The top end of the stop lever 3 closest to the feeding chute 2 is bent towards the feeding chute 2 and connected with the feeding chute 2, so that a guiding structure is formed, and the top opening of the pipeline structure forms a flaring structure. The white paper tube 12 sliding out of the feeding chute 2 is guided by the guide structure and can smoothly slide into the pipeline structure due to the flaring structure.

Referring to fig. 2, two annular fixing frames 4 are axially arranged outside all the stop rods 3, and fixing pieces 5 with the same number as the stop rods 3 penetrate through the annular fixing frames 4. The end part of each fixing piece 5 extends into the annular fixing frame 4 and then is connected and fixed with a stop lever 3. The ring-shaped fixing frame 4 is fixed on the frame 13. The distance of each fixing piece 5 extending into the annular fixing frame 4 can be adjusted, when the diameter of the white paper tube 12 is larger, the distance of the fixing piece 5 extending into the annular fixing frame 4 is reduced, and when the diameter of the white paper tube 12 is smaller, the distance of the fixing piece 5 extending into the annular fixing frame 4 is increased, so that the vertical feeding mechanism can adapt to the white paper tubes 12 with different diameters.

A paper tube positioning flashboard 6 which is driven by a cylinder I to extend and retract is arranged right below the vertical feeding mechanism. After the paper tube positioning gate plate 6 extends to the right position, the white paper tubes 12 falling out from the vertical feeding mechanism fall on the paper tube positioning gate plate 6. After the paper tube positioning flashboard 6 retracts in place, the white paper tube 12 falls to the paper tube discharging slideway 7 positioned below the paper tube positioning flashboard 6, and discharging of the printed white paper tube 12 is completed.

Two paper tube fixing hoops 8 uniformly distributed along the circumferential direction are arranged between the paper tube positioning flashboard 6 and the vertical feeding mechanism, and the paper tube fixing hoops 8 are driven by the two cylinders to extend and retract. After the white paper tube 12 is blocked by the paper tube positioning shutter 6, the second air cylinder drives the paper tube fixing hoop 8 to extend out, so that the white paper tube 12 falling on the positioning shutter 6 is tightly held in the circumferential direction, and the white paper tube adjacent to the current white paper tube can be stably stacked on the current white paper tube.

Two or more laser printing heads 9 uniformly distributed along the circumferential direction are arranged between the paper tube fixing hoop 8 and the vertical feeding mechanism, and all the laser printing heads 9 are positioned on the same circumferential surface in the circumferential direction. All the laser print heads 9 are aligned with the joint of the head and the tail of two white paper tubes 12 which are stacked up and down. Each laser print head 9 is fixed to a slide block which is located on a vertical holder 10. The fixing frame 10 is fixed on the frame 13. The fixing frame 10 is provided with a lead screw, and the lead screw is sleeved with a nut matched with the lead screw. The nut is connected with the sliding block, the lead screw is operated by a hand wheel positioned at the top of the fixed frame 10, so that the sliding block is driven to move up and down along the fixed frame 10, and the height of the laser printing head 9 is adjusted to adapt to the white paper tubes 12 with different heights.

The working process of the invention is as follows:

the paper tube positioning gate plate 6 extends out, a first white paper tube 12 is conveyed by the conveying mechanism, and the white paper tube 12 vertically falls on the paper tube positioning gate plate 6 through the feeding slideway 2 and the vertical feeding mechanism. The paper tube fixing hoop 8 extends out to tightly hold the first white paper tube 12 on the paper tube positioning flashboard 6. (it should be noted that since the length of the vertical feeding mechanism is known, and the falling speed of each paper tube is also known, the falling time of each paper tube can be calculated, and the falling time is used to control the actions of the paper tube positioning shutter 6 and the paper tube fixing hoop 8. of course, a person skilled in the art can also add a sensor accordingly, and control the actions of the paper tube positioning shutter 6 and the paper tube fixing hoop 8 by using the signals given by the sensor.) at the same time, the conveying mechanism conveys the second white paper tube 12, and the second white paper tube 12 is stacked on the first white paper tube 12 through the feeding chute 2 and the vertical feeding mechanism. In this case, the laser head 9 can print the specification of the chemical fiber used at the tail end of the first white paper tube 12 and the head end of the second white paper tube 12 at the same time. After printing, the staple bolt 8 is fixed to the paper tube and paper tube location flashboard 6 retracts for first white paper tube 12 that has accomplished is through paper tube ejection of compact slide 7, because first white paper tube 12 has only printed one end, consequently can regard as the debugging to the machine, thereby second white paper tube 12 begins, and the head and the tail both ends of every white paper tube 12 can all print. After the first white paper tube 12 falls down, the paper tube positioning gate 6 extends out to block the second white paper tube 12, and the paper tube fixing hoop 8 extends out to tightly hold the second white paper tube 12. Since the height of the white paper tube and the falling speed are known, the falling time of the white paper tube can be calculated, and the paper tube positioning shutter 6 can be controlled to extend out in time according to the falling time. At this time, the third white paper tube 12 is stacked on the second white paper tube 12, and the specification of the used chemical fiber filament is printed on the tail end of the second white paper tube 12 and the head end of the third white paper tube 12 by referring to the above steps. The specification and variety of the chemical fiber filaments used are printed at the head end and the tail end of each white paper tube except the first white paper tube in a circulating way.

Claims (4)

1. The utility model provides a paper tube two heads marking machine which characterized in that for marking the specification variety of using chemical fiber silk respectively in order to replace current colored paper tube at the both ends of white paper tube, define the both ends that are used for printing the specification variety with white paper tube respectively as head, tail both ends, paper tube two heads marking machine includes:

the printing paper feeding device comprises a paper tube slot to be printed, white paper tubes to be printed are arranged in the paper tube slot to be printed in an abutting mode end to end, and the white paper tubes in the paper tube slot to be printed are conveyed forwards by a conveying mechanism, so that the white paper tube positioned at the forefront falls into a feeding slide way;

the white paper tubes in the feeding slide rail fall into the vertical feeding mechanism from the top opening of the vertical feeding mechanism by means of self gravity and vertically fall downwards along the vertical feeding mechanism;

a paper tube positioning flashboard driven by a cylinder I to extend and retract is arranged right below the vertical feeding mechanism, after the paper tube positioning flashboard extends in place, a white paper tube falling from the vertical feeding mechanism falls on the paper tube positioning flashboard, and after the paper tube positioning flashboard retracts in place, the white paper tube falls on a paper tube discharging slideway positioned below the paper tube positioning flashboard, so that the printed white paper tube is discharged;

at least two paper tube fixing hoops which are uniformly distributed along the circumferential direction are arranged between the paper tube positioning flashboard and the vertical feeding mechanism, the paper tube fixing hoops are driven by the second air cylinder to extend and retract, after the white paper tubes are blocked by the paper tube positioning flashboard, the paper tube fixing hoops are driven by the second air cylinder to extend, so that the white paper tubes falling on the positioning flashboard are tightly embraced in the circumferential direction, and the white paper tubes adjacent to the current white paper tubes are vertically stacked on the current white paper tubes;

at least two laser printing heads are uniformly distributed along the circumferential direction between the paper tube fixing hoop and the vertical feeding mechanism, and all the laser printing heads are positioned on the same circumferential surface in the circumferential direction; all laser printing heads are aligned to the joint of the head and the tail of two white paper tubes which are stacked up and down, and specification varieties are printed at the tail end of one white paper tube and the head end of the other white paper tube of the two white paper tubes.

2. The two-end marking machine for paper tubes as claimed in claim 1, wherein the top opening of the vertical feeding mechanism is formed with a guiding structure, and the white paper tube sliding out of the feeding chute is guided into the vertical feeding mechanism by the guiding structure.

3. The paper tube two-end marking machine according to claim 2, characterized in that the vertical feeding mechanism comprises at least three blocking rods which are uniformly arranged along the circumferential direction, all the blocking rods enclose a vertically arranged pipeline structure with the diameter equivalent to that of the white paper tube, the white paper tube falls vertically downwards along the pipeline structure, and the blocking rods limit the positions of the white paper tube in the front, back, left and right directions, so that the centers of two adjacent white paper tubes are positioned on the same straight line; the top end of the stop lever close to the feeding slide way is bent towards the direction of the feeding slide way, so that the guide structure is formed, and the top opening of the pipeline structure forms a flaring structure;

all pin is equipped with at least one ring type mount along the axial arrangement outward, wears to be equipped with the mounting that equals with pin quantity on the ring type mount, and the tip of every mounting stretches into behind the ring type mount to be connected fixedly with a pin, stretches into the distance in the ring type mount through adjusting the mounting, makes vertical feeding mechanism adapts to different diameters white paper tube.

4. The two-head marking machine for paper tubes as claimed in claim 1, wherein each laser printing head is fixed on a sliding block, the sliding block is arranged on a vertical fixing frame, a lead screw is arranged in the fixing frame, a nut matched with the lead screw is sleeved on the lead screw, the nut is connected with the sliding block, the lead screw is operated by a hand wheel positioned at the top of the fixing frame, so that the sliding block is driven to move up and down along the fixing frame, and the height of the laser printing head is adjusted to adapt to the white paper tubes with different heights.

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