KR101961927B1 - Roller for processing residual water - Google Patents

Abstract

The present invention discloses a water-holding roller for absorbing residual water of a rollers or a polarizing film in a water-splitting process. Wherein the pipe for removing residual water comprises a pipe, an adsorbent laminated on the outer surface of the pipe, and a shaft coupled to both ends of the pipe, wherein the pipe has a lattice groove formed on an outer surface thereof, Is formed.

Description

ROLLER FOR PROCESSING RESIDUAL WATER

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a remainder roller, and more particularly, to a remainder roller for absorbing residual water in a water reducing roller or a polarizing film in a water reducing process.

A polarizing film is a film that transmits only light that vibrates in the same direction as the polarization axis, and other light absorbs or reflects to provide polarized light of specific reflection.

Generally, the polarizing film production method includes salt-pouring, stretching and water-splitting processes. The dyeing step is a step of dyeing a film using iodine or a dichroic dye, the stretching step is a step of orienting the dyed film in a certain direction, and the stretching step is a step of post-processing .

Patent Literature 1 relates to a polarizing film producing method, in which a film is firstly removed by using a rollers or a nip roll and a polarizing film is produced by completely removing residual water in a drying chamber.

The rollers of the rollers are coated with rubber, the pair of rollers are provided on the both sides of the film to be transported, and the pair of rollers is operated in such a manner that the pair of rollers pushes the residual water back without absorbing the residual water on the film.

However, since the surface of the rollers is made of rubber, the surface of the rollers may be covered with water, and the water-repellent performance may be deteriorated due to remaining water on the surface. In addition, the film having passed through the water reducing rollers has a problem in that residual moisture is left on the surface due to the deterioration of the rollers of the water reducing rollers,

1. Korean Patent Publication No. 10-2015-0111946 (October 10, 2015)

In order to solve the above problems, the present invention intends to improve the performance of the take-up roller by providing a wastewater treatment roller which is in close contact with the take-up rollers to absorb residual water of the take-up rollers.

The present invention intends to improve the polarizing property of the film by providing a residual water treatment roller which adheres to the transferred film to absorb residual water of the film.

According to the present invention, a grid groove is formed on the outer surface of the pipe, and an absorption hole is formed at equal intervals in the grid-formed portion so that the vacuum pressure inside the pipe is uniformly transmitted to the outer surface of the pipe along the grid groove connected to the absorption hole .

In the present invention, an adsorbent is laminated on a pipe so that the adsorbent is fixed through the lattice grooves when fabricated, thereby eliminating the adhesion process for bonding the pipe and the adsorbent.

According to an aspect of the present invention, there is provided a residual water treating roller comprising: a pipe; An adsorbent laminated on the outer surface of the pipe, and a shaft coupled to both ends of the pipe, wherein the pipe has a lattice groove formed on an outer surface thereof, and an absorption hole is formed at equal intervals in a portion where the lattice grooves are formed.

The shaft end may be connected to a vacuum device that provides vacuum pressure inside the pipe.

The residual water treatment roller according to the present invention is characterized in that the vacuum pressure inside the pipe is transmitted to the outer surface of the pipe along the grid groove connected to the absorption hole to collect the residual water absorbed into the adsorbent into the pipe.

The lattice grooves may be characterized in that the adsorbent is fixed when the adsorbent is laminated.

The residual water treating roller according to the present invention may be characterized in that the residual water treating roller is in close contact with the water reducing rollers to absorb the residual water of the water reducing rollers, and is capable of absorbing residual water of the film in close contact with one surface of the transported film.

The wastewater treatment roller according to the present invention is characterized in that the wastewater treatment roller is provided in correspondence with the rollers which are in close contact with the other surface of the film, and a pair is provided corresponding to both sides of the film.

In the present invention, the residual water treating roller is brought into close contact with the water reducing rollers to absorb the residual water of the water reducing rollers, or the residual water treating rollers are brought into close contact with the fed film to absorb the residual water of the film, Or a high-quality film having improved polarization characteristics can be provided.

The present invention can improve the precision of the squeezing process by providing a roller for wastewater treatment in equipment for producing a high-quality film or in various squeeze equipment requiring a continuous process.

According to the present invention, the vacuum pressure inside the pipe is uniformly transmitted to the outer surface of the pipe along the lattice grooves connected to the absorption holes, so that the residual water absorbed into the adsorbent can be collected, and a small number of absorption holes And it is possible to shorten the production time required for manufacturing the absorption hole.

In the present invention, an adsorbent is laminated on a pipe, and an adsorbent is fixed through a lattice groove when the pipe is fabricated, thereby eliminating an adhesion process for adhering a pipe and an adsorbent, thereby shortening the production time.

1 is a cross-sectional view showing a residual water treatment roller of the present invention.
Fig. 2 is an exploded view showing the pipe outer surface of Fig. 1; Fig.
3 is a cross-sectional view of the adsorbent of FIG.
Fig. 4 shows a structure in which an adsorbent is laminated on the outer surface of the pipe in Fig.
Fig. 5 shows an example in which a residual water treating roller is used in a water-dropping process.
Fig. 6 shows another example in which a residual water treating roller is used in a tearing process.
Fig. 7 shows another example in which a residual water treating roller is used in a tearing process.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings and accompanying drawings, but the present invention is not limited to or limited by the embodiments.

Fig. 1 is a cross-sectional view showing a wastewater treatment roller according to the present invention. The wastewater treatment roller 100 is a roller for absorbing residual water on a rollers or film for water collection, and includes a pipe 110, (130).

The adsorbent 120 is stacked on the outer surface of the pipe 110 to adsorb residual water on the rollers or the film and the shaft 130 is coupled to both ends of the pipe 110 to transmit rotational power to the pipe 110 . The end of the shaft 130 is connected to a vacuum device (not shown) for providing vacuum pressure to the inside of the pipe 110, and a vacuum region is formed inside the pipe 110.

Fig. 2 is an exploded view showing the outer surface of the pipe shown in Fig. 1, in which the pipe 110 is in close contact with the rollers or the film having residual water, so that the pipe 110 is strong in corrosion resistance, light in weight, Is made of a superior material. For example, the pipe may be made of Carbon Fiber Reinforced Plastics (CFRP) material.

The pipe 110 has a lattice groove 111 formed on an outer surface thereof and an absorption hole 112 formed at equal intervals in a portion where the lattice grooves 111 are formed.

FIG. 3 is a cross-sectional view illustrating the adsorbent of FIG. 1. The adsorbent 120 is made of a material having strong water absorption and hydrophilicity, non-polluting characteristics, and high abrasion resistance because it adsorbs water remaining on the rollers or film. . For example, the adsorbent 120 may comprise a sponge, leather or cotton material.

The adsorbent 120 has a donut shape having a through hole 121 formed therein. The present invention is characterized in that when the adsorbent 120 is stacked on the outer surface of the pipe 110, the pipe 110 is inserted into the through hole 121 and stacked, and a plurality of adsorbents 120 are stacked on the pipe 110 .

FIG. 4 illustrates a structure in which an adsorbent is laminated on the outer surface of the pipe in FIG. 1, and FIG. 4 illustrates a structure in which the adsorbent 120 is laminated on a pipe 110, The bonding process for bonding the pipe 110 and the adsorbent 120 is eliminated, thereby shortening the production time.

The vacuum pressure inside the pipe 110 is uniformly transmitted to the outer surface of the pipe 110 along the lattice grooves 111 connected to the absorption holes 112 and is absorbed by the adsorbent 120 into the pipe 110 The number of the absorption holes 112 can be reduced by the grid grooves 111 and the production time required for manufacturing the absorption holes 112 can be shortened.

The shaft 130 is made of a metal material having strong corrosion resistance and light weight characteristics. For example, the shaft 130 may be made of a stainless steel material.

The shaft 130 is of a rotary structure for transmitting the rotational power of the pipe 110 and is connected to a discharge line for discharging the collected water to the vacuum region of the pipe 110.

The residual water treating roller 100 according to the present invention is capable of absorbing the residual water of the rollers in close contact with the rollers for water collection and is capable of absorbing the residual water of the film in close contact with the transported film, Or may be installed in various squeeze equipment requiring a continuous process to improve the accuracy of the squeezing process. Hereinafter, an example in which the residual water treating roller is used will be described with reference to FIGS. 5 to 7. FIG.

FIG. 5 shows an example in which a residual water treating roller is used in a tearing process. The first water cutting roller 200a is in close contact with one surface of the film 10, and the second water cutting roller 200b is in contact with the first water cut- The pair of rollers 200a and 200b are rotated in such a manner as to push the residual water back without absorbing residual water on the film 10 while rotating the rollers 200a and 200b in close contact with the other surface of the film 10 corresponding to the roller 200a do.

Since the surfaces of the pair of water reducing rollers 200a and 200b are made of rubber, residual water may adhere to the surface of the rollers 200a and 200b.

The wastewater treatment rollers 100a and 100b of the present invention are characterized by being in close contact with the rollers 200a and 200b to absorb the residual water of the rollers 200a and 200b.

The first wastewater treatment roller 100a is in close contact with the first water recovery roller 200a to absorb the residual water of the first water collection roller 200a and the second water recovery roller 100b is in contact with the second water reduction roller 200a, (200b) to absorb the residual water of the second water reducing roller (200b).

6 shows another example in which a residual water treating roller is used in a tearing process, and the residual water treating rollers 100a and 100b are brought into close contact with the transferred film 10 to absorb residual water of the film 10 .

The first water separating roller 200a is in close contact with one surface of the film 10 and the second water separating roller 200b is in close contact with the other surface of the film 10. The first water separating roller 200a and the second water separating roller 200b, The first residual water treatment roller 100a is closely attached to the other surface of the film 10 corresponding to the first water recovery roller 200a and the second residual water treatment roller 100b Is in close contact with one surface of the film 10 corresponding to the second water reducing roller 200b.

The present invention is characterized in that a pair of a first water separation roller 200a and a first water recovery processing roller 100a are provided on both sides of the film 10 to be conveyed and the first water separation roller 200a and the first residual water treatment The double water treatment effect is generated by providing the pair of the second water-holding roller 100b and the second water-saving roller 200b as a pair apart from the roller 100a at a predetermined interval.

Fig. 7 shows another example in which rollers for treating wastes are used in the spinning process. The wastewater treatment rollers 100a and 100b are provided in pairs on both sides of the film 10, Can be absorbed.

The present invention can constitute only a pair of wastewater treatment rollers 100a and 100b to absorb the residual water of the film 10 and in order to generate a double water treatment effect, the present invention is applicable to a pair of wastewater treatment rollers 100a, The pair of rollers may be spaced apart from each other by a predetermined interval.

100, 100a, 100b: water-holding roller 110: pipe
111: Grating groove 112: Absorption hole
120: adsorbent 121: through hole
130: shaft 200a, 200b:

Claims (8)

pipe;
An adsorbent laminated on the outer surface of the pipe and
And a shaft coupled to both ends of the pipe,
Wherein the pipe has a lattice groove formed on an outer surface thereof, an absorption hole is formed at equal intervals in a portion where the lattice groove is formed,
Wherein the lattice grooves allow the adsorbent to be fixed when the adsorbent is laminated. The method according to claim 1,
Wherein the shaft end is connected to a vacuum device for providing vacuum pressure inside the pipe. 3. The method of claim 2,
Wherein the vacuum pressure inside the pipe is transmitted to an outer surface of the pipe along a grid groove connected to the absorption hole to collect the residual water absorbed in the adsorbent into the pipe. delete The method according to claim 1,
Wherein the water collecting roller is brought into close contact with the water reducing rollers to absorb the residual water of the water reducing rollers. The method according to claim 1,
Wherein the film is adhered to one surface of the film to be conveyed to absorb residual water of the film. The method according to claim 6,
Wherein the film is provided so as to correspond to a roll-off roller which is in close contact with the other surface of the film. The method according to claim 6,
Wherein a pair of rollers are provided corresponding to both sides of the film.

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