CN217144886U - Slitting rewinding machine - Google Patents

Abstract

The utility model provides a divide strip rewinding machine, this divide strip rewinding machine includes: the corona device is used for carrying out corona treatment on the surface of the stone paper; the first static removing device is used for performing static removing treatment on the stone paper subjected to corona; the dust blowing device is used for blowing the surface of the stone paper subjected to the static electricity removal treatment; the first dust adhering device is used for adhering dust on the surface of the stone paper; the second static removing device is used for performing static removing treatment on the stone paper subjected to primary dust adhesion; the second dust sticking device is used for secondarily sticking the dust on the surface of the stone paper; and the winding device is used for winding the stone paper after the secondary dust is adhered. The second static electricity removing device and the second dust adhering device are arranged on the downstream side of the first dust adhering device, secondary static electricity removing operation is conducted on the stone paper through the second static electricity removing device, the second dust adhering device is utilized to conduct final dust adhering treatment on the surface of the stone paper, and therefore the good dust removing effect on the stone paper is achieved.

Description

Slitting rewinding machine

Technical Field

The utility model relates to a stone paper processing field, concretely relates to slitting rewinding machine.

Background

Environmental protection stone paper divides strip rewinding machine is the thick paper to environmental protection stone paper, thin paper, thick sheet material is cut or the rewinding work, wherein need cut according to part customer demand, the paper of rewinding carries out corona treatment, but because the main material of stone paper is the mountain flour, consequently can produce a large amount of dust in corona in-process and adhere to the paper surface, with paper and dust printing when causing the customer to reuse the printing, the later stage appears because of the dust condition of droing of the surface printing layer that drops and cause, cause printing face spot to drop, cause the product quality problem.

SUMMERY OF THE UTILITY MODEL

In view of this, to solve at least one of the above problems, the disclosed embodiments of the present invention provide a slitting rewinder.

In order to solve the above technical problem, the utility model discloses an embodiment adopts following technical scheme:

the slitting rewinding machine is used for rolling stone paper subjected to paper slitting, and comprises the following components in the paper feeding direction of the stone paper:

the corona device is used for carrying out corona treatment on the surface of the stone paper;

the first static removing device is used for performing static removing treatment on the stone paper subjected to corona;

the dust blowing device is used for blowing the surface of the stone paper subjected to the static electricity removal treatment;

the first dust sticking device is used for sticking the dust on the surface of the stone paper;

the second static removing device is used for performing static removing treatment on the stone paper subjected to primary dust adhesion;

the second dust sticking device is used for secondarily sticking the dust on the surface of the stone paper;

and the winding device is used for winding the stone paper after the secondary dust is adhered.

In some embodiments of the present disclosure, the first static discharge device includes:

the first upper ion air bar is arranged above the stone paper;

and the lower ion air bar is arranged below the stone paper.

In some embodiments of the present disclosure, the dust purging device comprises:

the upper air knife is used for blowing the upper surface of the stone paper;

and the lower air knife is used for blowing the lower surface of the stone paper.

In some embodiments of the present disclosure, the first dust adhering device is disposed below the stone paper, and is configured to adhere dust to a lower surface of the stone paper;

the second static removing device comprises a second upper ion air bar, and the second upper ion air bar is positioned above the stone paper;

the second dust sticking device is arranged above the stone paper and used for sticking dust on the upper surface of the stone paper.

In some embodiments of the present disclosure, the first dust-sticking device includes a first dust-sticking roller and a first cleaning rubber roller, the first dust-sticking roller contacts with the lower surface of the stone paper, and the first cleaning rubber roller can contact with the first dust-sticking roller to clean the first dust-sticking roller.

In some embodiments of the present disclosure, first dust binding device is including being located first vertical guide rail and the first drive arrangement of stone paper both sides, first dust binding roller rotationally set up in on the first vertical guide rail, first clean rubber roll is located the below of first dust binding roller can be followed first vertical guide rail motion, first drive arrangement is used for the drive first clean rubber roll is followed first vertical guide rail is to being close to or keeping away from the direction motion of first dust binding roller.

In some embodiments of the present disclosure, the second dust-binding device includes a second dust-binding roller and a second cleaning rubber roller, the second dust-binding roller contacts with the upper surface of the stone paper, and the second cleaning rubber roller can contact with the second dust-binding roller to clean the second dust-binding roller.

In some embodiments of the present disclosure, the second dust-binding device includes second vertical guide rail and second drive arrangement that are located the stone paper both sides, the second dust-binding roller rotationally set up in on the vertical guide rail of second, the clean rubber roll of second is located the top of second dust-binding roller can be followed the motion of the vertical guide rail of second, second drive arrangement is used for the drive the clean rubber roll of second is followed the vertical guide rail of second is to being close to or keeping away from the direction motion of second dust-binding roller.

In some embodiments of the present disclosure, the corona device includes first deflector roll, first electrode board, second deflector roll and second electrode board, the first electrode board with first deflector roll is relative, the second electrode board with the second deflector roll is relative, the corona device still includes electrostatic brush, stone paper presss from both sides and arranges in the electrostatic brush with between the first deflector roll.

The utility model has the advantages that: the embodiment disclosed by the utility model provides a slitting rewinder, a first static removing device, a dust blowing device, a first dust adhering device, a second static removing device and a second dust adhering device are sequentially arranged between a corona device and a winding device, the first static removing device is used for eliminating static electricity on the surface of stone paper after corona, then the dust blowing device is used for blowing dust on the stone paper after static removing, the first dust sticking device sticks the blown dust, and static electricity can be generated when the first dust sticking device sticks the dust, so that, a second static electricity removing device and a second dust sticking device are arranged at the downstream side of the first dust sticking device, secondary static electricity removing operation is carried out on the stone paper through the second static electricity removing device, and the second dust adhering device is utilized to carry out final dust adhering treatment on the surface of the stone paper, so that a good dust removing effect on the stone paper is realized.

Drawings

Fig. 1 shows a schematic structural diagram of a slitter-winder according to an embodiment of the present application;

fig. 2 shows a front view of a slitter winder according to an embodiment of the present application.

Wherein:

100. a corona device; 110. a first guide roller; 120. a second guide roller; 130. an electrostatic brush; 200. a first static electricity removing device; 210. a first upper ion wind rod; 220. an ion wind rod is arranged; 300. a dust purging device; 310. an air feeding knife; 400. a first dust-binding device; 410. a first dust-binding roller; 420. a first cleaning rubber roller; 430. a first vertical guide rail; 440. a first driving device; 500. a second static eliminating device; 510. a second upper ion wind rod; 600. a second dust-binding device; 610. a second dust-binding roller; 620. a second cleaning rubber roller; 630. a second vertical guide rail; 640. a second driving device.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples.

As shown in fig. 1 and fig. 2, an embodiment of the present disclosure provides a strip-rewinding machine for winding stone paper after paper separation, and the strip-rewinding machine includes, in a paper feeding direction of the stone paper, a corona device 100, a first static electricity removal device 200, a dust purging device 300, a first dust adhering device 400, a second static electricity removal device 500, a second dust adhering device 600, and a winding device. Wherein, the corona device 100 is used for carrying out corona treatment on the surface of the stone paper; the first static removing device 200 is used for performing static removing treatment on the stone paper after corona; the dust blowing device 300 is used for blowing the surface of the stone paper subjected to the static electricity removal treatment; the first dust sticking device 400 is used for sticking the dust on the surface of the stone paper; the second static removing device 500 is used for performing static removing treatment on the stone paper subjected to primary dust adhesion; the second dust sticking device 600 is used for secondarily sticking the dust on the surface of the stone paper; the rolling device is used for rolling the stone paper after the secondary dust is adhered.

In the slitter rewinder provided by the embodiment, a first static removing device 200, a dust blowing device 300, a first dust adhering device 400, a second static removing device 500 and a second dust adhering device 600 are sequentially arranged between a corona device 100 and a winding device, the first static removing device 200 removes static electricity on the surface of stone paper after corona, then the dust blowing device 300 blows dust on the stone paper after static electricity removal, the blown dust is stuck by the first dust sticking apparatus 400, and since the first dust sticking apparatus 400 may generate static electricity when sticking the dust, therefore, a second static removing device 500 and a second dust binding device 600 are arranged at the downstream side of the first dust binding device 400, carry out the secondary through second static-removing device 500 to stone paper and destatic the operation to utilize second dust binding device 600 to carry out final dust binding to stone paper surface and handle, thereby realize the fine dust removal effect to stone paper.

Illustratively, the first static removing device 200 comprises a first upper ion wind bar 210 and a lower ion wind bar 220, wherein the first upper ion wind bar 210 is arranged above the stone paper, and the lower ion wind bar 220 is arranged below the stone paper. Therefore, the static electricity removing treatment of the two surfaces of the stone paper is realized through the two ion wind rods.

As shown in fig. 2, the dust blowing device 300 comprises an upper air knife 310 and a lower air knife, wherein the upper air knife 310 is used for blowing the upper surface of the stone paper; and the lower air knife is used for blowing the lower surface of the stone paper. Therefore, the two faces of the stone paper are swept through the two air knives, and the fact that dust on the two faces of the stone paper can be blown out is guaranteed.

Exemplarily, the first dust adhering device 400 is arranged below the stone paper and is used for adhering dust to the lower surface of the stone paper, the second static electricity removing device 500 comprises a second upper ion wind rod 510, the second upper ion wind rod 510 is arranged above the stone paper, and the second dust adhering device 600 is arranged above the stone paper and is used for adhering dust to the upper surface of the stone paper. So, realize the dust clearance to the stone paper through first dust binding device 400, second static-removing device 500 and second dust binding device 600, it is effectual to clear up.

Illustratively, the first dust-binding device 400 comprises a first dust-binding roller 410 and a first cleaning rubber roller 420, wherein the first dust-binding roller 410 is in contact with the lower surface of the stone paper, and the first cleaning rubber roller 420 can be in contact with the first dust-binding roller 410 to clean the first dust-binding roller 410 so as to realize the recycling of the first dust-binding roller 410. For example, the first dust adhering device 400 includes a first vertical guide rail 430 and a first driving device 440, which are located on two sides of the stone paper, the first dust adhering roller 410 is rotatably disposed on the first vertical guide rail 430, the first cleaning rubber roller 420 is located below the first dust adhering roller 410 and can move along the first vertical guide rail 430, the first driving device 440 is configured to drive the first cleaning rubber roller 420 to move along the first vertical guide rail 430 toward or away from the first dust adhering roller 410, and the first driving device 440 may be, for example, a linear motor, an air cylinder, or the like. Therefore, the first cleaning rubber roller 420 can be driven by the first driving device 440 to move to be in contact with the first dust-sticking roller 410 so as to clean the first dust-sticking roller 410, and after the cleaning is finished, the first cleaning rubber roller 420 is driven by the first driving device 440 to be far away from the first dust-sticking roller 410 so as to be convenient for cleaning the first cleaning rubber roller 420. Since the lower portion is dusty, two first dust-binding devices 400 are preferably provided.

Similarly, the second dust-binding device 600 comprises a second dust-binding roller 610 and a second cleaning rubber roller 620, the second dust-binding roller 610 is in contact with the upper surface of the stone paper, and the second cleaning rubber roller 620 can be in contact with the second dust-binding roller 610 to clean the second dust-binding roller 610. Second binding dust device 600 is including being located the vertical guide rail 630 of second and the second drive arrangement 640 of stone paper both sides, second binding dust roller 610 rotationally set up in on the vertical guide rail 630 of second, the clean rubber roll 620 of second is located the top of second binding dust roller 610 can be followed the vertical guide rail 630 of second moves, second drive arrangement 640 is used for the drive the clean rubber roll 620 of second is followed the vertical guide rail 630 of second is to being close to or keeping away from the direction motion of second binding dust roller 610. Therefore, the second cleaning rubber roller 620 can be driven by the second driving device 640 to move to be in contact with the second dust-binding roller 610 so as to clean the second dust-binding roller 610, and after cleaning is completed, the second cleaning rubber roller 620 is driven by the second driving device 640 to be far away from the second dust-binding roller 610 so as to be convenient for cleaning the second cleaning rubber roller 620.

As shown in fig. 1, the corona device 100 includes a first guide roller 110, a first electrode plate, a second guide roller 120 and a second electrode plate, the first electrode plate is opposite to the first guide roller 110, the second electrode plate is opposite to the second guide roller 120, the corona device 100 further includes an electrostatic brush 130, the stone paper clamp is arranged in the electrostatic brush 130 and between the first guide roller 110, preliminary static electricity removing operation can be carried out on the stone paper through the electrostatic brush 130, and the static electricity removing effect on the stone paper is improved.

The above embodiments are only used for illustrating the present invention, and not for limiting the present invention, and those skilled in the relevant technical field can make various changes and modifications without departing from the spirit and scope of the present invention, so that all equivalent technical solutions also belong to the scope of the present invention, and the protection scope of the present invention should be defined by the claims.

Claims (9)

1. The slitting rewinding machine is used for rolling stone paper after slitting, and is characterized by comprising the following components in the paper feeding direction of the stone paper:

the corona device is used for carrying out corona treatment on the surface of the stone paper;

the first static removing device is used for performing static removing treatment on the stone paper subjected to corona;

the dust blowing device is used for blowing the surface of the stone paper subjected to the static electricity removal treatment;

the first dust sticking device is used for sticking the dust on the surface of the stone paper;

the second static removing device is used for performing static removing treatment on the stone paper subjected to primary dust adhesion;

the second dust sticking device is used for secondarily sticking the dust on the surface of the stone paper;

and the winding device is used for winding the stone paper after the secondary dust is adhered.

2. The slitting rewinder according to claim 1, wherein said first destaticizing device comprises:

the first upper ion air bar is arranged above the stone paper;

and the lower ion air bar is arranged below the stone paper.

3. The slitter-winder according to claim 1, characterised in that the dust blowing device comprises:

the upper air knife is used for blowing the upper surface of the stone paper;

and the lower air knife is used for blowing the lower surface of the stone paper.

4. The slitting and rewinding machine according to any one of claims 1 to 3, wherein the first dust adhering device is arranged below the stone paper and is used for adhering dust to the lower surface of the stone paper;

the second static removing device comprises a second upper ion air bar, and the second upper ion air bar is positioned above the stone paper;

the second dust sticking device is arranged above the stone paper and used for sticking dust on the upper surface of the stone paper.

5. The slitting and rewinding machine according to claim 4, characterized in that said first dust-binding device comprises a first dust-binding roller in contact with the lower surface of said stone paper and a first cleaning roller able to come into contact with said first dust-binding roller to clean it.

6. The slitting and rewinding machine according to claim 5, wherein the first dust-adhering device includes a first vertical guide rail located on each of two sides of the stone paper, and a first driving device, the first dust-adhering roller is rotatably disposed on the first vertical guide rail, the first cleaning rubber roller is located below the first dust-adhering roller and can move along the first vertical guide rail, and the first driving device is configured to drive the first cleaning rubber roller to move along the first vertical guide rail in a direction approaching or away from the first dust-adhering roller.

7. The slitter-winder according to claim 4, wherein the second dust-binding device comprises a second dust-binding roller and a second cleaning rubber roller, the second dust-binding roller being in contact with an upper surface of the stone paper, the second cleaning rubber roller being contactable with the second dust-binding roller for cleaning the second dust-binding roller.

8. The slitting and rewinding machine according to claim 7, wherein the second dust-adhering device includes a second vertical guide rail located on both sides of the stone paper, and a second driving device, the second dust-adhering roller is rotatably disposed on the second vertical guide rail, the second cleaning rubber roller is located above the second dust-adhering roller and can move along the second vertical guide rail, and the second driving device is configured to drive the second cleaning rubber roller to move along the second vertical guide rail in a direction approaching or departing from the second dust-adhering roller.

9. The slitting and rewinding machine according to any one of claims 1 to 8, wherein said corona device comprises a first guide roller, a first electrode plate opposite said first guide roller, a second guide roller opposite said second guide roller, and a second electrode plate, said corona device further comprising an electrostatic brush, said stone paper being sandwiched between said electrostatic brush and said first guide roller.

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