KR101181499B1 - Tape coating machine - Google Patents

Abstract

PURPOSE: A copper woven fabric coating device is provided to adjust the thickness of coating liquid coated on the surface of copper woven fabric and to coat general copper woven fabric and copper woven fabric with coated sintered aluminum powder in one device. CONSTITUTION: A guiding roller(100) transfers copper woven fabric. A coating liquid coating part(200) coats coating liquid on the transferring copper woven fabric by passing the copper woven fabric through a fixed bar installed in a dipping bath. A press roller part constantly maintains the amount of the collating liquid by passing the copper woven fabric through upper/lower guiding rollers. A mixed liquid coating part(400) coats mixed liquid on the copper woven fabric through a dipping bar. A supplying roller elevatably installed to supply copper woven fabric coated with the mixed liquid. A mixed liquid thickness adjusting part(600) adjusts the coating thickness of the mixed liquid by passing the copper woven fabric coated with the mixed liquid through upper/lower knives.

Description

Copper Fabric Coating Equipment {TAPE COATING MACHINE}

The present invention relates to a copper woven fabric coating apparatus, and when coating the copper woven fabric can be coated in a single device, the general woven fabric and SAP coated copper woven fabric, it is easy to transfer the copper woven fabric for coating in the device In addition, the present invention relates to a copper fabric coating apparatus capable of adjusting the thickness of the coating liquid coated on the surface of the copper fabric.

In general, high voltage rubber, plastic insulated power cables typically include an inner conductive layer on the outer side of the conductor; Insulator layers such as polyethylene, crosslinked polyethylene, and ethylene propylene rubber; An outer conductive layer; A metal shielding layer made of copper woven fabric or copper wire, aluminum wire or the like; And the anticorrosive layer has the basic structure formed in the said order as needed.

Here, the copper woven fabric is a plain weave with a copper wire having a predetermined diameter as a warp yarn or a weft yarn, and a plain fiber yarn as a weft yarn or a warp yarn, which is arranged to be able to flow electromagnetic waves through an electrical device.

In the high voltage rubber and plastic insulated power cable, moisture penetrates into the cable through the outer periphery and / or conductor of the cable at the cable terminal portion or the cable connection portion during cable manufacturing, storage, or cable laying. Due to the problem of deterioration of cables or various devices connected to them, an absorbent resin, i.e., a water repellent, which prevents water from moving by absorbing and swelling moisture penetrated into the cable on the outer surface of the copper woven fabric is coated.

On the other hand, the outer surface of the woven fabric is coated with a water repellent only, or a method of coating the water repellent by applying SAP to improve the tensile strength and elongation. Here, the SAP (SINTERED ALUMINIUM POWDER) is an alloy sintered by applying a pressure (5000-10000 kg / cm2) on the surface of aluminum powder to destroy the oxide film. It is called an alloy. Tensile strength is 38kg / mm2 and elongation is 6%.

However, the conventional copper woven fabric coating apparatus has a problem in that it is not possible to coat a general copper woven fabric and a copper woven fabric coated with SAP in one device, each having a coating device. Therefore, there is a problem in that a large installation cost is required to install the device and a large space is required for installation of the device.

In addition, the conventional copper woven fabric coating apparatus uses a silicon roller to transfer the copper woven fabric for coating the copper woven fabric, so that the wear of the roller is severe and the replacement cycle of the roller is too short, and the roll during the transfer of the woven fabric There was a problem that it is difficult to precise transfer of the woven fabric slipped in.

In addition, the conventional copper woven fabric coating apparatus has a problem that a large amount of the coating liquid is applied to the surface of the copper woven fabric because it can not control the thickness of the coating liquid coated on the surface of the copper woven fabric. In other words, due to the heavy weight of the coated woven fabric, the woven fabric was drooped during the drying process and the product was swept out of the nozzle. When the tension was applied to the woven fabric to prevent it, the width of the woven fabric was reduced. There was a problem that the drying takes a long time.

It is an object of the present invention to coat a copper woven fabric and a common woven fabric and SAP coated copper woven fabric in a single device, the transfer of the copper woven fabric for coating in the device, as well as the It is to provide a copper woven coating sheet to adjust the thickness of the coating liquid to be coated on the surface.

The above object is a dipping method while a guide roller for guiding and supplying a woven fabric, and a dipping tank in which a coating liquid is stored are installed on the woven fabric supply path, and the woven fabric being transported is fixed bar installed in the dipping tank. The coating liquid coating portion for coating the coating liquid, and is installed on the dipping tank and the upper guide roller and the lower guide roller are installed so as to rotate in a direction in which the coating liquid is engaged with each other at a predetermined interval, wherein the coating liquid is dipped copper fabric Compression roller unit is compressed to pass through between the upper and lower guide rollers so as to maintain a constant amount of coating liquid, and a moving dipping tank configured to store a mixed liquid mixed with the coating liquid and SAP and to be able to move selectively. Installed on the copper woven fabric supply path, the copper woven fabric conveyed through the upper and lower guide roller is the moving dipping tank The mixed liquid coating part for coating the mixed liquid by a dipping method while going through the dipping bar which is locked in the moving dipping tank by the rising, and is installed on the moving dipping tank, and installed to be movable up and down by a cylinder. Feed roller for conveying and supplying the coated copper fabric, and the upper and lower knives are installed at a rear of the supply roller at regular intervals so that the mixed liquid is dipped into the copper fabric between the upper and lower knives While it is achieved by a woven fabric coating apparatus characterized in that it comprises a mixed liquid thickness control unit is installed to adjust the coating thickness of the mixed liquid.

The copper woven fabric coating apparatus according to the present invention is to work only by passing the coating liquid coating portion of the copper woven fabric when coating only the general copper woven fabric, the copper woven fabric passed through the coating liquid coating portion when coating the copper woven fabric coated with SAP again mixed liquid coating portion Working through it has the effect of being able to coat regular copper woven fabric and SAP coated woven fabric in one device.

In addition, the present invention is because the chrome plated on the outer surface of the upper guide roller and the lower guide roller, the roller is prevented from being worn can be used for a long time, the gear is provided on one end of the upper guide roller and the lower guide roller of the hunger Since the upper guide roller and the lower guide roller are configured to rotate by engagement, the copper fabric is prevented from slipping in the apparatus, so that the accurate conveyance of the copper fabric is possible.

In addition, the present invention has the effect that it is possible to adjust the thickness of the coating liquid and the mixed liquid coated on the surface of the woven fabric through the compression roller portion and the mixed liquid thickness control unit.

1 and 2 is a side view showing a woven fabric coating apparatus according to the present invention,
Figure 3 is a view for explaining a coating liquid coating part in a copper woven fabric coating apparatus according to the present invention,
Figure 4 is a view for explaining a pressing roller in the copper woven coating apparatus according to the present invention,
5 and 6 are views for explaining the mixed liquid coating part in the copper woven fabric coating apparatus according to the present invention,
7 and 8 are views for explaining the mixed liquid thickness control unit in the copper woven fabric coating apparatus according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 is a side view showing a copper woven fabric coating apparatus according to the present invention, Figure 3 is a view for explaining a coating liquid coating unit in a copper woven fabric coating apparatus according to the present invention, Figure 4 is according to the present invention 5 and 6 are views for explaining a mixed liquid coating part in the copper woven coating apparatus according to the present invention, Figures 7 and 8 are copper woven coating according to the present invention. It is a figure for demonstrating the mixed liquid thickness control part in an apparatus.

Copper fabric coating apparatus according to the present invention relates to an apparatus for coating the absorbent resin, that is, the water-repellent agent to block the movement of water by absorbing and swelling the moisture penetrated into the cable on the outer surface of the copper fabric. That is, the present invention is characterized in that it is possible to coat a general copper woven fabric and a copper woven fabric coated with SAP in one device. Here, the coating liquid coated on the outer surface of the woven fabric may be applied to the conductive liquid as well as the filler.

Referring to Figures 1 and 2, when describing the copper woven fabric coating apparatus according to the present invention, first provided with a guide roller 100 for guiding and supplying the woven fabric (1). That is, the guide roller 100 is configured to guide the copper fabric wound on the feed roll, not shown, into the coating apparatus in order to coat the coating liquid L1 and the mixed liquid L2, which will be described later, on the outer surface of the copper fabric.

Next, the copper fabric 1 guided through the guide roller 100 is guided to the coating liquid coating part 200 and the pressing roller part 300 is configured to coat the coating liquid (L1). At this time, the copper fabric 1 is subjected to the coating liquid coating part 200 in the process of being guided to the pressing roller 300. That is, in order to coat the general copper fabric, the copper fabric is transferred to the coating liquid coating part 200 and the pressing roller part 300 to coat the coating liquid.

The coating liquid coating part 200 is fixed to the dipping tank 210 in which the coating liquid L is stored on the copper fabric supply path, and the copper fabric 1 to be transported is installed inside the dipping tank 210. The coating liquid L is coated by the dipping method while passing through the bar 220. That is, as shown in FIG. 3, the copper woven fabric 1 transferred through the guide roller 100 passes through the fixing bar 220 installed in the dipping tank 210. The coating liquid L is configured to be dipped in the copper fabric 1.

In addition, the upper guide roller 310 and the lower guide roller 320 are installed to rotate in a direction in which the upper guide roller 310 and the lower guide roller 320 interlock with each other at a predetermined interval, and the coating solution L1 is woven fabric 1 ) Is pressed while passing between the upper and lower guide rollers (310, 320) is configured to the pressing roller unit 200 is installed so that the amount of the coating liquid is kept constant. Here, as shown in Figure 4, the upper guide roller 310 and the lower guide roller 320 is configured to rotate to receive the power of the motor (M), the method of transmitting the power of the motor is known chain, belt In this case, one of the gear methods may be used.

Further, the upper guide roller 310 and the lower guide roller 320 is preferably chrome plated on its outer surface, the gear 330, 340 is engaged to rotate at one end to facilitate the transfer of the woven fabric (1). . That is, when chromium is plated on the outer surfaces of the upper guide roller 310 and the lower guide roller 320, the roller is prevented from being worn, so that the roller can be used for a long time, and the upper guide roller 310 and the lower guide roller ( Since the gears 330 and 340 are provided at one end of the 320 and the upper guide roller 310 and the lower guide roller 340 are rotated by the engagement of the gears 330 and 340, the woven fabric 1 is being transferred from the roller. It is prevented from slipping in the roller, which enables accurate conveyance of the woven fabric.

Furthermore, the upper guide roller 310 is supported on both ends of the support plate 311 so as to be rotatable, the bottom surface of the support plate 311 is provided with a gap adjusting mechanism 312 configured to be moved up and down. desirable. That is, as shown, it is configured to adjust the height between the upper and lower guide rollers 310 and 320 by adjusting the installation height of the upper guide roller 310 by adjusting the vertical height of the short adjustment mechanism 312. Therefore, by adjusting the interval between the upper and lower guide rollers 310 and 320 as described above, the amount of the coating liquid L1 compressed while passing between the upper and lower guide rollers 310 and 320 is controlled.

And the outer surface of the upper guide roller 310 and the lower guide roller 320 is preferably equipped with a scraper (350, 360) for preventing the coating liquid (L1) is deposited on the outer surface of the guide roller. That is, the coating liquid L1 on the outer surfaces of the upper guide roller 310 and the lower guide roller 320 is scraped out through the scrapers 350 and 360 to deposit the coating liquid L1 on the outer surfaces of the guide rollers 310 and 320. To prevent. Therefore, the coating liquid L1 compressed to the copper fabric 1 while passing between the upper and lower guide rollers 310 and 320 may be uniformly coated with smoothness.

As such, the copper woven fabric 1 coated with the coating liquid L1 on the outer surface is transferred to the outside of the apparatus through the guide roller R as shown in FIG. 1 and dried through a dryer (not shown) to be wound around the winding unit. Is wound up.

Next, in order to coat the copper-coated fabric coated with SAP, the mixed liquid coating part 400 is guided to the coating liquid coating unit 200 and the pressing roller unit 300 as described above coated with the coating liquid (L1). To guide the coating to the supply roller 500 and the mixed liquid thickness adjusting unit 600, it is sufficient. That is, the first woven fabric 1 coated with the coating liquid L1 through the coating liquid coating part 200 and the pressing roller part 300 is guided to the mixed liquid coating part 400 and the mixed pressure thickness adjusting part 600. Thus, the mixed solution (L1) mixed with the coating liquid and the SAP is configured to be secondary coated.

The mixed liquid coating unit 400 is a mixed dipping tank 410 is configured to store the mixed liquid (L2) mixed with the coating liquid and SAP, and optionally to be movable on the copper fabric supply path. Here, as shown in FIG. 5, the mobile dipping tank 410 is configured to be selectively movable. As described above, only the coating liquid L1 is applied to the copper woven fabric 1 as shown in FIG. 1. As described above, the moving dipping tank 410 is moved downward so that the mixed liquid L2 inside the moving dipping tank 410 is not dipped into the copper woven fabric 1, and the coated copper woven fabric to which SAP is applied is to be coated. In this case, as shown in FIG. 2, the moving fabric 1 moved upward by moving the moving dipping tank 410 to be locked in the moving dipping tank 410 by the rising of the moving dipping tank 410. While the dipping bar 420 is to be configured to be coated with the mixed solution (L2) by a dipping method. That is, the mixed liquid L2 in the moving dipping tank 410 moves through the dipping bar 420 installed in the inside of the moving dipping tank 410 in which the copper fabric 1 transferred through the guide roller 100 moves. It is configured to be dipped into the woven fabric 1. Preferably, the means for moving the mobile dipping tank 410 may be a variety of known means, it is preferable that the cylinder 430 as shown.

On the other hand, the moving dipping tank 410, it is preferable that the mixing means 400 is further installed to mix the coating solution and SAP well. That is, since the SAP is heavy and sinks to the bottom of the moving dipping tank 410, the SAP performs a role of stirring to maintain the mixed state with the coating liquid through the mixing means 400. Specifically, the mixing means 400 is between the rotary shaft 441 rotatably installed at both ends of the moving dipping tank 410, the disk 442 is installed on both sides of the rotary shaft 441, and the disk 442 A mixing blade 443 installed at a predetermined interval in the circumferential direction of the disc 442, a reducer 444 connected to one end of the rotary shaft 441 to rotate the rotary shaft 441, and the reducer 444. It comprises a rotary motor 445 for transmitting power to. That is, when the power of the rotary motor 445 is decelerated through the reducer 444 and transmitted to the rotating shaft 441, and the disc 442 is rotated, the mixing wing 443 rotates in association with the moving dipping tank 410. It is configured to stir so as to mix the coating solution and SAP well within.

Next, a supply roller 500 is installed above the movable dipping tank 410 so as to be movable upward and downward by the cylinder 510 to transfer and supply the copper fabric 1 coated with the mixed liquid L2.

Lastly, the upper knife 610 and the lower knife 620 are installed at a rear of the supply roller 500 at a predetermined interval so that the copper fabric 1 in which the mixed liquid L2 is dipped is disposed on the upper and lower knives. The mixed liquid thickness adjusting unit 600 is installed to control the coating thickness of the mixed liquid L2 while passing between 610 and 620. That is, while passing between the upper knife 610 and the lower knife 620, the mixed solution is uniformly coated only by the interval between the upper knife 610 and the lower knife 620.

Specifically, as shown in FIGS. 7 and 8, the upper knife 610 is installed to be inclined downward from the rear side to the front side, and the upper center portion is hinged and configured to be able to rotate forward and backward, and the lower knife 620 ) Is installed to be inclined upward from the rear side to the front side, and is configured to be rotatable vertically. In addition, a length adjusting part 630 whose length is reduced or extended by a fine adjusting screw 631 that is selectively fastened and loosened is coupled to an upper surface of the rear end of the upper knife 610, and a lower surface of the lower knife 620. The upper and lower cylinders 640 for selectively moving the lower knife 610 are installed. That is, when only the coating liquid L is applied to the copper fabric 1 in the copper fabric coating apparatus as shown in FIG. 7, the lower knife 610 is moved downward through the cylinder 640, and the fine adjustment screw 631 is moved. Tighten so that the upper knife 610 is rotated to the rear, between the lower knife 620 and the upper knife 610, passing through the copper woven fabric 1 coated with the coating liquid. And, in order to coat the copper coated fabric coated with SAP as shown in Figure 8, by moving the lower knife 620 upward through the cylinder 640 to support the lower surface of the copper fabric (1), fine adjustment screw 631 Loosen the upper knife 610 to rotate forward to seat on the upper surface of the woven fabric (1). Then, the nonwoven fabric 1 in which the mixed solution L2 is dipped passes the gap between the upper knife 610 and the lower knife 620 and is uniformly made only by the gap between the upper knife 610 and the lower knife 620. The mixed solution is coated on.

The copper woven coating apparatus according to the present invention configured as described above may work by passing the copper woven fabric through the coating liquid coating part when coating only the general woven fabric, and the copper woven fabric passing the coating liquid coating part when coating the copper woven fabric coated with SAP is Since it works through the mixed liquid coating part again, there is an advantage in that it is possible to coat a common woven fabric and a copper woven fabric coated with SAP in one device.

In addition, the present invention is because the chrome plated on the outer surface of the upper guide roller and the lower guide roller, the roller is prevented from being worn can be used for a long time, the gear is provided on one end of the upper guide roller and the lower guide roller of the hunger Since the upper guide roller and the lower guide roller are configured to rotate by engagement, the copper fabric is prevented from slipping in the apparatus, so that the accurate movement of the copper fabric is possible.

In addition, the present invention has the advantage that it can adjust the thickness of the coating liquid and the mixed liquid coated on the surface of the woven fabric through the pressing roller and the mixed liquid thickness control.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Anyone who can afford it will know.

100: guide roller 200: coating liquid coating portion
300: compression roller portion 400: mixed liquid coating portion
500: supply roller 600: mixed liquid thickness control unit

Claims (5)

A guide roller for guiding and supplying a woven fabric,
A coating liquid coating part for coating the coating liquid by a dipping method while a dipping tank in which a coating liquid is stored is installed on the copper fabric supply path, and the conveyed copper fabric is passed through a fixing bar installed in the dipping tank;
The upper guide roller and the lower guide roller are installed on the dipping tank and rotated in a direction in which they are engaged with each other at predetermined intervals, and the coating liquid is dipped and woven while passing through the upper and lower guide rollers. Compression roller unit is installed so that the amount of the coating liquid can be kept constant,
A moving dipping tank configured to store a mixed solution mixed with a coating liquid and SAP and selectively moveable is installed on the copper fabric supply path, and a copper fabric conveyed through the upper and lower guide rollers is lifted by the moving dipping tank. A mixed liquid coating part for coating a mixed liquid by a dipping method while going through a dipping bar which is locked in a moving dipping tank;
A feed roller installed at an upper portion of the moving dipping tank and installed to be movable upward and downward by a cylinder to transfer and supply a copper woven fabric coated with the mixed liquid;
The thickness of the mixed liquid which is installed at the rear of the feed roller and the upper knife and the lower knife are installed at a predetermined interval so that the coating liquid of the mixed liquid is adjusted while the copper fabric fabricated with the mixed liquid passes through the upper and lower knives. Copper fabric coating apparatus, characterized in that configured to include a control.
The method of claim 1,
The upper guide roller and the lower guide roller is coated with a woven fabric, characterized in that the outer surface of the chromium plated, so that the gear is rotated in engagement with one end to facilitate the transfer of the woven fabric.
The method of claim 1,
The upper guide roller is rotatably supported at both ends on a separate support plate, and the bottom of the support plate is provided with a gap adjusting member configured to be movable up and down, and the height of the upper guide roller is adjusted by adjusting the height of the short guide. It is configured to adjust the gap between the upper and lower guide roller by adjusting,
The outer surface of the upper guide roller and the lower guide roller is a copper woven coating device, characterized in that the screener is installed to prevent the coating liquid is deposited on the outer surface of the guide roller.
The method of claim 1,
The moving dipping tank is further provided with a mixing means to mix the coating solution and SAP well,
The mixing means includes a rotary shaft rotatably installed at both ends of the moving dipping tank, a disc installed on both sides of the rotary shaft, a mixing blade installed between the disc and installed at regular intervals in the circumferential direction of the disc, and one end of the rotary shaft. Connected to the reducer for rotating the rotating shaft, a copper cloth coating apparatus comprising a rotating motor for transmitting power to the reducer.
The method of claim 1,
The upper knife is installed to be inclined downward from the rear side to the front side, and the center portion of the upper surface is hinged and configured to be able to rotate forward and backward.
The rear end of the upper knife is coupled to the length adjusting portion is reduced or increased in length by a fine adjustment screw that is selectively fastened and loosened, the lower knife is provided with an upper and lower cylinder to selectively swing the lower knife Copper woven coating device.

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