KR101899001B1 - Roller apparatus for film coater comprising foreign material removing unit - Google Patents

Abstract

A disclosed roller apparatus for a film coater includes a pair of frames, a roller, a foreign matter sensing member, and a foreign matter removing unit. When foreign matter is detected on the surface of the roller in the foreign matter sensing member, the foreign matter removing unit is operated to remove the foreign matter adhering to the surface of the roller. Since foreign matter removing operation can be performed during the operation of the film coater, it is possible to automatically and quickly remove the foreign matter such as dust from the surface of the roller even during the operation of the film coater.

Description

[0001] The present invention relates to a roller apparatus for film coater comprising a foreign material removing unit,

The present invention relates to a roller apparatus for a film coater including a foreign matter removing unit.

The film coater is a device for coating a coating film on a film such as a battery thin film, a flexible printed circuit board (FPCB), and the like, and examples of such film coaters are those listed below.

In the film coater disclosed in the proposed patent documents, the film to be coated is drawn by a plurality of auxiliary rollers and a roller such as a main roller, and the coating liquid is injected into the film through a slit die nozzle, The coating solution can be coated.

When a film is coated on a film in a film coater having the above structure, foreign matter such as dust or the like adheres to the surface of the roller, the foreign matter adheres to the film as it is, which causes defects. Therefore, foreign matters on such roller surfaces must be removed promptly.

However, conventionally, in order to remove foreign substances on the surface of the roller, the operator has to manually clean the surface of the roller after stopping the film coater itself, which is not only inconvenient for removing foreign matter, but also stops the film coater during the foreign matter removing process , There has been a problem that the working efficiency is largely lowered.

Registered Patent No. 10-1362292, Registered on Feb. 26, 201, Title of the Invention: Improved film double-sided coating apparatus and method Registered Patent No. 10-1309275, filed on Mar. 10, 2013, entitled " Double-sided coating device and method for film, and double-side coating device

An object of the present invention is to provide a roller device for a film coater including a foreign matter removing unit capable of automatically and rapidly removing foreign matter such as dust adhering to the roller surface even when the film coater is operated.

A roller device for a film coater according to one aspect of the present invention is applied to a film coater,

A pair of frames spaced apart from each other on an installation surface of the film coater; A roller rotatably connected between the pair of frames to allow the film to be transported for coating while being rotated; A foreign matter detecting member for detecting presence or absence of a foreign substance on the surface of the roller; And a foreign matter removing unit that is operated to remove foreign matters on the surface of the roller when the foreign matter sensing member detects foreign matter adhering to the surface of the roller,
The foreign matter removing unit
An air injection nozzle provided in at least one of the frames and capable of jetting high-pressure air toward the surface of the roller,
Air forming means for forming high-pressure air to be injected through the air injection nozzle,
An air intake nozzle extending from the other one of the frames,
And negative pressure forming means for forming a negative pressure on the air suction nozzle so that the air sprayed to the roller surface through the air spray nozzle and containing foreign matter can be sucked through the air suction nozzle,
Wherein the air injection nozzle is installed in any one of the frames and faces the surface of the roller,
Wherein the air suction nozzle includes a pipe tube communicating with the negative pressure forming means through the other one of the frames, a roller side facing body communicating with the pipe tube and facing the roller at the same height as the roller, A roller-facing opposed body which is communicated with the roller-side opposed body and arranged along the surface of the roller in parallel with the surface of the roller; And a plurality of roller-up-facing suction holes which are formed to penetrate toward the roller surface and are spaced apart from each other,
When the negative pressure forming means is operated, the air injected into the roller surface through the air injection nozzle to contain foreign matter is sucked together through the roller side opposite suction hole and the roller upper side suction hole, Respectively, and then discharged to the outside through the pipe tube.

According to the roller device for a film coater comprising a foreign material removing unit according to an aspect of the present invention, since the roller device for a film coater includes a pair of frames, a roller, a foreign matter sensing member and a foreign matter removing unit, The foreign matter removing unit is operated to remove the foreign matter adhering to the surface of the roller and the foreign matter removing operation can be performed even during the operation of the film coater, Even when the film coater is operated, foreign matter such as dust or the like adhering to the surface of the roller can be automatically and quickly removed.

1 is a sectional view showing a roller device for a film coater including a foreign matter removing unit according to a first embodiment of the present invention;
2 is an enlarged view of portion A shown in Fig.
Fig. 3 is a view showing a state where the film shown in Fig. 2 is moved on a roller. Fig.
FIG. 4 is a view showing a state where a foreign substance is deposited on the surface of the roller shown in FIG. 2; FIG.
Fig. 5 is an enlarged view of part B shown in Fig. 1; Fig.
6 is a sectional view showing a roller interpolation deflection sensing member constituting a roller device for a film coater including a foreign matter removing unit according to the first embodiment of the present invention;
7 is a cross-sectional view showing a state in which the roller interpolation deflection sensing member shown in FIG. 6 senses some deflection of the roller.
8 is a sectional view showing a state in which the roller interpolation deflection sensing member shown in FIG. 7 senses the complete deflection of the roller.
9 is an enlarged view of a portion of the roller device for a film coater including a foreign matter removing unit according to the second embodiment of the present invention, which detects a skew of the frame.
FIG. 10 is a view showing a state in which the frame shown in FIG. 9 is tilted. FIG.
11 is an enlarged view of a part of a roller apparatus for a film coater including a foreign matter removing unit according to a third embodiment of the present invention.

Hereinafter, a roller apparatus for a film coater including a foreign matter removing unit according to embodiments of the present invention will be described with reference to the drawings. In carrying out this explanation, it is a component including the permanent magnet that the name includes 'magnet'.

FIG. 1 is a cross-sectional view showing a roller device for a film coater including a foreign substance removing unit according to a first embodiment of the present invention, FIG. 2 is an enlarged view of a portion A shown in FIG. 1, FIG. 4 is a view showing a state in which foreign substances are deposited on the surface of the roller shown in FIG. 2, FIG. 5 is an enlarged view of the portion B shown in FIG. 1, FIG. 6 is a cross-sectional view showing a roller interpolation deflection sensing member constituting a roller device for a film coater including a foreign matter removing unit according to the first embodiment of the present invention, FIG. 7 is a cross- FIG. 8 is a cross-sectional view showing a state in which the roller interpolation deflection sensing member shown in FIG. 7 detects the complete deflection of the roller. FIG.

Referring to FIGS. 1 to 8 together, the roller apparatus 100 for a film coater according to the present embodiment is applied to a film coater for coating a film 10, and includes a pair of frames 110 and 115, A roller 101, a foreign matter sensing member 170, and a foreign matter removing unit 160, 165.

A pair of the frames (110, 115) are set up on the mounting surface of the film coater so as to be spaced apart from each other.

The roller 101 is rotatably connected between a pair of the frames 110 and 115 so that the film is transported for coating while being rotated.

Reference numeral 102 denotes a control member for controlling each component of the roller apparatus 100 for film coater. Reference numeral 105 denotes a drive means such as an electric motor for rotating the roller 101, And a rotating shaft extending from the driving means 105 and rotatably passing through the frames 110 and 115 and connected to the roller 101.

The roller 101 is not only a main roller facing the slit die nozzle but also an auxiliary roller.

The foreign substance sensing member 170 senses the presence of a foreign substance 20 such as dust on the surface of the roller 101.

More specifically, the foreign matter sensing member 170 is disposed on the surface of the roller 101 in a non-protruding manner, and a plurality of foreign matter sensing members 170 are disposed on the surface of the roller 101 so as to be spaced apart from each other. The foreign substance sensing member 170 senses that the surface of the roller 101 is dirty.

As described above, the foreign matter build-up information sensed by the foreign substance sensing member 170 is transmitted to the control member 102 so that the control member 102 commands an operation of the foreign matter removal units 160 and 165 The foreign matter removing unit 160 and 165 can automatically remove the foreign substances on the surface of the roller 101. [

The foreign matter removing unit 160 or 165 is operated to remove foreign matter from the surface of the roller 101 when the foreign substance sensing member 170 senses that foreign matter is adhered to the surface of the roller 101.

In detail, the foreign matter removing unit 160, 165 includes air injection nozzles 162, 167 mounted on at least one of the frames 110, 115 and capable of jetting high-pressure air toward the surface of the roller 101, And air forming means 161, 166, such as a pneumatic pump, for forming high pressure air to be injected through the air injection nozzles 162, 167.

The air injection nozzles 162 and 167 are installed on the frames 110 and 115 in such a manner as to penetrate through both the frames 110 and 115, Foreign matter on the surface of the roller 101 can be removed by high-pressure air jetted from the air injection nozzles 162 and 167 on both sides of the roller 101. [

When the air forming means 161 and 166 are operated by an operation command of the foreign matter removing unit 160 and 165 transferred from the control member 102 to the foreign matter removing unit 160 and 165, The high pressure air formed in the means 161 and 166 is injected through the air injection nozzles 162 and 167 to remove the foreign substances adhering to the surface of the roller 101. [

On the other hand, the roller apparatus 100 for a film coater according to the present embodiment includes roller-side magnets 121 and 126, frame-side hall sensors 120 and 125, a laser beam generator for frame balance detection 130, And a balance sensing laser receiving body 135.

The roller side magnets 121 and 126 are formed on side surfaces of the roller 101 facing the frames 110 and 115.

In detail, the roller-side magnets 121 and 126 are provided on both sides of the roller 101, which is the side facing the frames 110 and 115.

The frame side Hall sensors 120 and 125 are formed at positions that can face the roller side magnets 121 and 126 in at least one of the frames 110 and 115 so that the roller side magnets 121 and 126, .

In detail, the frame-side Hall sensors 120 and 125 are installed on the respective inner surfaces of the frames 110 and 115 which are side surfaces facing the roller 101. [

When the roller 101 rotates, the roller-side magnets 121 and 126 repeatedly pass the extended line of the frame-side Hall sensors 120 and 125. At this time, the frame-side Hall sensors 120 and 125, The magnetic force of the roller-side magnets 121 and 126 is sensed.

If the gap between the roller 101 and the frames 110 and 115 changes, the magnetic forces of the roller-side magnets 121 and 126 sensed by the frame-side hall sensors 120 and 125 change The magnetic force change value is transmitted to the control member 102 and is transmitted to the roller 101 and the frame 101 in accordance with the change of the roller side magnets 121 and 126 sensed by the frame side Hall sensors 120 and 125. [ A deviation between the rollers 110 and 115 can be sensed and the deviation between the rollers 101 and the frames 110 and 115, .

A plurality of the roller side magnets 121 and 126 and the frame side Hall sensors 120 and 125 may be provided at different heights of the roller 101 and the frames 110 and 115, Accurate balance detection is possible.

The frame balance sensing laser receiving body 130 may be disposed on any one of the frames 110 and 115 to emit a laser beam and the frame balance sensing laser receiving body 135 may receive And can receive the laser emitted from the laser emitting body 130 for frame balance detection.

The laser beam emitting body 130 for detecting the balance of the frame is installed on the upper end of one of the frames 110 and 115 and the upper end of the other one of the frames 110 and 115, A balance detection laser receiving body 135 is provided so that the laser beam emitted from the laser beam generating body 130 for frame balance detection is detected by the laser beam receiver for frame balance 135, 110, and 115 may be measured.

If the uprightness and spacing of a pair of frames 110 and 115 change, such as when one or both of the pair of frames 110 and 115 are tilted, the frame balance sensing laser emitting body 130 ) Changes in the value detected by the laser receiving body 135 for frame balance detection, and the laser receiving change value is transmitted to the control member 102, A deviation between a pair of the frames 110 and 115 can be detected according to the degree of reception of the laser beam emitted from the laser beam receiver 130 for the frame balance detection, 110, and 115, that is, tilted and the degree of uprightness is changed, and that there is an abnormality in the interval balance, may be displayed externally through the display or the like.

Meanwhile, the roller apparatus 100 for a film coater including the foreign matter removing unit further includes a roller interpolation deflection sensing member 140.

The roller interpolation deflection sensing member 140 is inserted inside the roller 101 so that a portion of the roller 101 can detect deflection relative to other portions of the roller 101. [

In detail, the roller interpolation deflection sensing member 140 includes a deflection sensing member case 141, which is inserted into the roller 101 and is formed in the shape of an empty circular cylinder with a cover at its both ends, A rotation connecting ring 143 protruding in a hemispherical shape from both sides of the partition wall 142 and a rotation connecting ring 143 protruding from both sides of the partition wall 142, A pair of pivoting members 144 and 148 that are formed to be gradually larger toward the distal end portion which is spaced apart from the pivoting connection ring 143 and toward the distal end portion of the pivoting connection ring 143; A deflection sensing hall sensor 147 or 151 for detecting a magnetic force change due to each of the rotary magnets 145 and 149 pivotally suspended from the rotary bodies 144 and 148, And is disposed on the inner wall of the deflection sensing member case 141 And a deflection detection sensor contact (146, 150) such as a pressure sensor for detecting the contact of each of the rotating magnets (145, 149) is rotated to the hanging of each pivot member (144, 148).

The rotary members 144 and 148 are engaged with the respective rotary connection rings 143 so as to freely move so that the rotary members 144 and 148 are sagged while the roller 101 is stopped When the roller 101 is rotated by the centrifugal force, the rotary members 144 and 148 are free to move freely in the deflection sensing member case 141 while being caught by the rotary connection rings 143.

At this time, since each of the rotary members 144 and 148 becomes relatively larger toward its distal end and the rotary magnets 145 and 149 are disposed at the ends of the rotary members 144 and 148, The end portions of the rotating bodies 144 and 148 are heavier than the portions connected to the respective rotation connecting rings 143 so that the rotating bodies 144 and 148 can be stably aligned in the centrifugal direction.

The deflection sensing hole sensors 147 and 151 may be arranged at the center of each cover of the deflection sensing member case 141 and at least one of the deflection sensing hole sensors 147 and 151 on the opposite sides thereof, have. Then, the deflection sensing hole sensors 147 and 151 can accurately sense whether each of the rotation magnets 145 and 149 is on the center line of the deflection sensing member case 141 and is eccentric therefrom.

6, when the rollers 101 are rotated in the normal form, the rotating bodies 144 and 148 and the rotating magnets 145 and 149 are rotated by centrifugal force Respectively, along the imaginary center line of the deflection sensing member case 141. [

When the roller 101 is rotated in a state where the roller 101 is deflected, the rotation members 144 and 148 and the rotation magnets 145 and 149, as shown in FIG. 7, Is displaced from the imaginary center line of the deflection sensing member case 141 by the centrifugal force so that the deflection sensing hole sensors 147 and 151 sense the displacement of the respective rotary magnets 145 and 149.

When the roller 101 is rotated in a state where the deflection of the roller 101 is maximized, as shown in FIG. 8, the rotating members 144 and 148 and the rotating magnets 145 and 149, The deflection sensing contact case 146 and the deflection sensing contact case 146 are arranged to be displaced relative to each other at an imaginary center line of the deflection sensing member case 141 by centrifugal force to contact the deflection sensing contact sensors 146 and 150, The maximum deviation of the rotation magnets 145 and 149 is detected.

With this configuration, deflection of the roller 101 can be sensed, and a value for deflection of the roller 101 can be transmitted to the control member 102 and displayed externally.

A plurality of the roller interpolation deflection sensing members 140 are provided so as to be spaced apart from each other in the longitudinal direction of the roller 101. Therefore, even if deflection occurs in a part of the roller 101, the deflection amount and deflection thereof can be accurately detected.

The roller apparatus 100 for film coater includes roller side magnets 121 and 126, frame side Hall sensors 120 and 125, a laser beam generator for frame balance detection 130, A change in the spacing between the roller 101 and the frames 110 and 115, a change in the inclination and spacing of the frames 110 and 115, and a change in the distance between the roller 101 and the frame 110 and 115, The deflection of the roller 101 can be sensed so that the balance of the roller 101 placed on the frames 110 and 115 and the deflection of the roller 101 itself can be sensed, So that the defective coating of the film due to abnormal conditions can be blocked.

As described above, the roller unit 100 for film coater includes a pair of frames 110 and 115, the roller 101, the foreign matter sensing member 170, and the foreign matter removing units 160 and 165 The foreign matter removing unit 160 or 165 is operated to detect the foreign matter on the surface of the roller 101 by detecting the foreign matter on the surface of the roller 101 in the foreign matter sensing member 170, Foreign matter can be removed and such a foreign matter removing operation can be performed even during operation of the film coater so that foreign matter such as dust adhering to the surface of the roller 101 can be automatically and quickly removed even when the film coater is operated .

Hereinafter, a roller apparatus for a film coater including a foreign matter removing unit according to another embodiment of the present invention will be described with reference to the drawings. In carrying out these explanations, the description overlapping with the contents already described in the first embodiment of the present invention described above will be replaced by them, and will not be described here.

FIG. 9 is an enlarged view of a portion of the roller apparatus for a film coater including a foreign matter removing unit according to the second embodiment of the present invention, in which the frame is tilted. FIG. 10 is a cross- It is a drawing showing the detected state.

9 and 10, a roller device for a film coater including a foreign matter removing unit according to the present embodiment includes a laser emitting body holding part 250, an eccentric rotation shaft 251, a weight 255, A magnet array curved surface 252, a laser emitting body magnet 254, and a laser emitting body side Hall sensor 253.

The laser engaging portion 250 protrudes from one of the frames 210 by a predetermined length.

The eccentric rotation axis 251 is formed at a portion of the laser beam generator 230 for detecting the balance of the frame, which is eccentrically relatively upward from the center of gravity of the laser beam generator 230 for frame balance detection, As shown in Fig.

The weight 255 is connected to the lower portion of the laser beam emitting body 230 for frame balance detection connected to the laser emitting body hanger 250 by the eccentric rotation axis 251, The lower weight of the body 230 is added, and the bottom surface is formed as a curved surface.

The eccentric pivot 251 is eccentrically connected to the frame body 230 for detecting balance of balance and the weight 255 is installed so that the transmission of the frame balance detection laser beam body 230 Direction can be always kept vertical with respect to the gravity direction about the eccentric rotation axis 251. [

The magnet array curved body 252 is formed on an upper portion of the frame 210 protruded from the laser emitting body hanger 250. The magnet array curved body 252 is curved at a predetermined distance from the bottom surface of the curved weight 255, .

A plurality of the laser-generated body side magnets 254 are arranged on the magnet array curved body 252 so as to be spaced apart from each other.

The laser emitting side Hall sensor 253 is formed at the bottom of the weight 255 and specifically at the lowest point of the weight 255 so that any one of the plurality of laser emitting side magnets 254 To detect.

9, when the frame 210 is in an upright position with respect to the mounting surface, the laser-generated-body-side hall sensor 253 detects the center of a plurality of the laser-generated body-side magnets 254 And detects that it is normal.

On the other hand, as shown in FIG. 10, when the frame 210 is tilted with respect to the installation surface, the direction of emission of the laser beam generator 230 for frame balance detection is maintained in a direction parallel to the installation surface A certain angle difference θ is generated between the center line of the frame 210 and the center line of the laser beam generator 230 for detecting the balance of the frame, Detects a deviation of the center of the foot body magnet 254 from the center, and detects that the frame 210 is in an inclined state.

As described above, according to the position of the laser-generated body side magnet 254, which is detected by the laser-generated body side Hall sensor 253 among the plurality of laser-generated body side magnets 254, The inclination of the frame 210 can be accurately sensed.

11 is an enlarged view of a part of a roller apparatus for a film coater including a foreign matter removing unit according to a third embodiment of the present invention.

11, an air injection nozzle 362 is installed on one of the frames 310 and 315, facing the surface of the roller 301, and the foreign matter removing unit Together with the air injection nozzle 362 and the air forming means 361, includes an air suction nozzle 380 and a negative pressure forming means 390.

The air suction nozzle 380 extends from the other one of the frames 310 and 315.

The negative pressure forming means 390 is a negative pressure pump or the like and is sprayed to the surface of the roller 301 through the air injection nozzle 362 so that the air containing the foreign substance can be sucked through the air suction nozzle 380 A negative pressure is formed on the air suction nozzle 380. [

In detail, the air suction nozzle 380 includes a pipe tube 381 passing through the other one of the frames 310 and 315 and communicating with the negative pressure forming means 390, the pipe tube 381, A roller side surface opposed body 382 communicating with the roller 301 at the same height as the roller 301 and facing the roller 301 and a roller side surface opposed body 382 penetrating from the roller side opposed body 382 toward the roller 301 surface, A roller upper opposed body 384 which is arranged along the surface of the roller 301 in parallel with the surface of the roller 301 and communicates with the roller side opposed body 382, And a plurality of roller uppersurface suction holes 385 formed in the upper opposed member 384 so as to penetrate toward the surface of the roller 301 and spaced apart from each other.

The roller overhang 384 may extend to one of the frames 310 and 315, i.e., to the air injection nozzle 362.

When the foreign substance sensing member 370 detects foreign matter on the surface of the roller 301, the negative pressure forming means 390 is operated together with the air forming means 361, The air injected into the surface of the roller 301 through the injection nozzle 362 and containing the foreign substance is sucked together through the roller side opposite suction hole 383 and the roller upper side suction hole 385, Through the roller side facing member 382 and the roller facing member 384, respectively, and then discharged to the outside through the pipe sealing pipe 381. Therefore, the air that has been sprayed onto the surface of the roller 301 through the air injection nozzle 362 to contain the foreign substance is not scattered to the periphery, but can be sucked through the air suction nozzle 380 and discharged to the outside do.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the following claims And can be changed. However, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

According to the roller device for a film coater including a foreign substance removing unit according to one aspect of the present invention, even when the film coater is operated, foreign substances such as dusts adhering to the surface of the roller can be automatically and quickly removed, would.

100: Roller device for film coater
101: Roller
102: control member
110, 115: frame
120, 125: Frame side Hall sensor
121, 126: Roller side magnet
130: Laser foot body for frame balance detection
135: Laser receiving body for frame balance detection
140: Roller interpolation deflection sensing member
160, 165: Foreign matter removing unit
170: Foreign matter sensing member
380: Air suction nozzle
390: negative pressure forming means

Claims (5)

As applied to a film coater,
A pair of frames spaced apart from each other on an installation surface of the film coater;
A roller rotatably connected between the pair of frames to allow the film to be transported for coating while being rotated;
A foreign matter detecting member for detecting presence or absence of a foreign substance on the surface of the roller; And
And a foreign matter removing unit operable to remove foreign matter from the surface of the roller when the foreign matter sensing member detects foreign matter adhering to the surface of the roller,
The foreign matter removing unit
An air injection nozzle provided in at least one of the frames and capable of jetting high-pressure air toward the surface of the roller,
Air forming means for forming high-pressure air to be injected through the air injection nozzle,
An air intake nozzle extending from the other one of the frames,
And negative pressure forming means for forming a negative pressure on the air suction nozzle so that the air sprayed to the roller surface through the air spray nozzle and containing foreign matter can be sucked through the air suction nozzle,
Wherein the air injection nozzle is installed in any one of the frames and faces the surface of the roller,
The air intake nozzle
A pipe passing through another one of the frames and communicating with the negative pressure forming means,
A roller side opposing member communicating with the pipe tube and facing the roller at the same height as the roller,
A roller side opposing suction hole penetrating from the roller side opposing member toward the roller surface,
A roller-opposed body communicating with the roller-side opposed body and arranged along the surface of the roller in parallel with the surface of the roller;
And a plurality of roller-up-facing suction holes formed in the roller-opposed body so as to pass through the roller surface and spaced apart from each other,
When the negative pressure forming means is operated, the air injected into the roller surface through the air injection nozzle to contain foreign matter is sucked together through the roller side opposite suction hole and the roller upper side suction hole, Through the pipe and the upper opposing body of the roller, and then discharged to the outside through the pipe tube. The method according to claim 1,
The foreign matter sensing member is disposed on the surface of the roller in a non-protruding manner, and a plurality of foreign matter sensing members are disposed on the roller surface so as to be spaced apart from each other. When foreign matter is deposited on the foreign matter sensing member, Wherein the rollers detect the rollers. delete delete delete

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