KR20090048814A - Apparatus for trasnfering film - Google Patents

Abstract

The present invention relates to a film transfer apparatus, wherein the film transfer apparatus according to the present invention is a film transfer apparatus in which a film wound on a front roller is rolled up and wound around a rear roller through a treatment tank in which a solution is contained, and an upper end of the treatment tank. An upper roller installed spaced apart from the upper roller, a driving unit connected to the upper roller to maintain the tension of the film by driving the upper roller, and supporting the lower roller and the lower roller contained in the solution of the treatment tank and being movable up and down It includes a frame, the tension control member disposed in the spaced space between the upper roller, up and down through the sensor unit and the sensor provided to correspond to the tension control member to detect the vertical movement of the tension control member It includes a control unit for controlling the speed of the drive unit by grasping the position of the moving tension control member And a gong. As a result, the film being plated can maintain tension at all times, thereby providing a film transfer apparatus capable of uniformly plating the entire surface of the film.

Anode electrode, cathode electrode, feeder, tension adjusting member, controller, roller

Description

Film transfer device {Apparatus for Trasnfering Film}

The present invention relates to a film transfer device, and more particularly, to the polyimide film by plating, etching, and cleaning treatment to maintain the tension of the film at all times during the plating process, copper can be plated with a uniform thickness on the film. The present invention relates to a film transfer apparatus capable of uniformly treating a film while minimizing deformation of the film.

Electroplating is used in various fields such as decoration and surface protection, as well as processing of electrical and electronic materials.

Among them, in the field of electrical and electronic materials, in particular, there is a film transfer device for plating the entire area of the polyimide film of the engineering plastic series with copper.

Figure 1a is a plan view showing a polyimide film copper plated film transfer apparatus according to the prior art. Figure 1b is a side view showing a polyimide film copper plated film transfer apparatus according to the prior art. As shown in the figure, the film transfer apparatus 100 looks forward to the left side of Fig. 1 for convenience in the treatment tank 110, the front roller 120 disposed in front of the treatment tank 110 containing the solution. ), The rear roller 130 (rear view the right side of Fig. 1 for convenience) disposed at the rear of the treatment tank 110, the upper roller 140 is spaced apart from the upper end of the treatment tank 110, In order to assist the tension of the film, the first sub-roller 150 disposed behind the front roller 150, the second sub-roller 160, the upper sub-roller 140 is rotatably disposed downward between the first sub-roller and the upper roller. It consists of a lower roller 170 fixed to the lower portion of the processing tank 110 in the space spaced apart and the drive unit 180 is disposed on the upper side of the processing tank 110.

The driving unit 180 is connected to the motor 181 by the belt 182 to receive the driving force, the motor 181 disposed on the upper front roller 120 or the rear roller 130 side of the treatment tank 110 Composed of the rod 183 and the rod 183 disposed on the upper end of the processing tank 110 is composed of a gear 184 to transfer the driving force to the upper roller 140.

Hereinafter, looking at the operation of the film transfer apparatus according to the prior art, the copper seed layer is first formed on the polyimide film by the sputtering method. Then, the polyimide film wound on the front roller 120 is gradually tightened while passing through the first auxiliary roller 150, and the tension is maintained while passing through the rotatable second auxiliary roller 160. That is, when the front roller 120 is quickly rotated to loosen the film a lot, the second auxiliary roller 160 is moved downward in accordance with the degree of loosening of the film to maintain the tension of the film.

The driving force of the motor 181 is transmitted to the rod 183 by the belt 182 and to the upper roller 140 by the gear 184 installed on the rod 183. Accordingly, the driving force is equally transmitted to all the upper rollers 140 so that the film is moved along the lower rollers 170 fixed to the treatment tank 110 via the upper rollers 140. At this time, when the film passes through the treatment tank 110, copper is plated on one side of the film by the anode electrode disposed between the upper roller 140 and the lower roller 170, which serves as the cathode electrode, and the rear roller ( 130).

However, the upper roller of the film feeder according to the prior art rotates at the same speed, but when the speed difference of the upper roller occurs due to various conditions such as the wear of the gear, the tension of the film is difficult to maintain, so that the uniformity of the copper plated on the surface of the film There is a problem that can not be maintained.

In addition, the lower roller of the film transfer apparatus according to the prior art is fixed to the lower portion of the treatment tank when the film is a lot of unwind, the film that was rotated along the lower roller has a problem that the tension of the film is not maintained apart from the lower roller.

In addition, since the relationship between the upper roller and the lower roller of the film transfer apparatus according to the prior art is not an organic relationship, when the tension of the film is not maintained, a system for maintaining the tension of the film is not provided so that the tension of the film is continuously maintained. There is a problem that cannot be maintained.

In addition, the film transfer apparatus according to the prior art drives the entire upper roller by a single motor, so a gear is required to transfer the driving force to the upper roller and the gears are meshed with each other. There is a problem that the work is interrupted, time is wasted, repair costs and replacement costs during gear replacement.

Therefore, an object of the present invention is to solve such a conventional problem, by placing a motor for each upper roller, if the tension of the film is not maintained by controlling each upper roller to maintain the tension of the film on the film The present invention provides a film transfer apparatus that processes uniform plating.

In addition, the lower roller is configured to move up and down to provide a film transfer device that the lower roller can move along the film when the tension of the film is not maintained to maintain the tension of the film.

In addition, not only the motor is placed in each upper roller but also installed so that the lower roller can move up and down, and if the tension of the film becomes loose or too tight, a sensor for detecting the position of the lower roller is operated to rotate the motor in the upper roller. It is a series of systems for regulating numbers to provide a film feeder that can maintain the tension of the film at all times.

In addition, by providing a motor for each of the upper rollers to provide a film transfer device that can reduce the work interruption, waste of time and cost due to repair and replacement by gear wear.

The above object, according to the present invention, in the film conveying apparatus is wound on the rear roller passing through the treatment tank in which the film wound on the front roller is contained, the upper roller is spaced apart from the upper end of the treatment tank, A drive unit connected to the upper roller to drive the upper roller to maintain the tension of the film, a lower roller contained in a solution of the treatment tank, and a frame supporting the lower roller and movable up and down; A tension adjusting member disposed in the spaced space between the rollers, a sensor unit corresponding to the tension adjusting member so as to sense the vertical movement of the tension adjusting member, and a tension adjusting member moving upward and downward through the sensor unit. It is achieved by including a control unit for controlling the speed of the drive unit by grasping the position of.

The control unit controls the speed of the driving unit to decrease the speed of the front roller side upper roller of the lowered tension control member and increase the speed of the rear roller side upper roller when the tension control member is lowered, the tension control member is upward When increasing the speed of the front roller side of the upper roller and the speed of the rear roller side of the upper roller is characterized in that the tension of the film is always maintained.

In order to maintain the tension of the film is characterized in that the guide portion is disposed on the inner side wall of the treatment tank corresponding to the tension control member so as to be movable up and down.

The frame is formed with an opening in the inner side, the lower roller is installed at the lower end of the frame, it is characterized in that the protruding portion corresponding to the sensor portion protruding from one side of the upper end of the frame.

The tension regulating member may further include moving parts disposed on both sides of the frame such that the tension regulating member is in contact with the guide part so that the tension regulating member is movable up and down.

The tension control member is characterized in that it further comprises a weight control unit installed on the frame.

The weight adjusting unit is characterized in that the weight portion is installed in the lower portion of the opening of the frame.

The weight control unit is fixed to the upper side of the treatment tank disposed on both sides of the lower roller contained in the solution of the treatment tank, the weight weight disposed on the outside of the treatment tank to adjust the weight of the lower roller, the weight and It includes a connecting member for connecting the lower roller, characterized in that the pulley is provided on the inside of the fixing block so that the connecting member can move naturally.

The driving unit is characterized in that arranged on each of the upper rollers.

According to the present invention, when the tension of the film is not maintained by disposing a motor for each upper roller, a film transfer apparatus is provided to process uniform plating on the film by maintaining the tension of the film by controlling the upper roller.

In addition, the lower roller is configured to be able to move up and down is provided when the tension of the film is not maintained, the lower roller can move along the film is provided with a film transfer device that maintains the tension of the film.

In addition, not only the motor for each upper roller is disposed at the upper end of the treatment tank, but the tension adjusting member is always installed downward so as to correspond to the guide part so that the film can move up and down along the film when the film moves up and down. At this time, when the tension of the film becomes loose or too tight, a sensor that detects the position of the tension adjusting member moved up and down operates the series of systems that control the rotational speed of the motor in the upper roller through the control unit. It is possible to provide a film conveying apparatus capable of conveying the film stably without straining the film.

In addition, by providing a motor for each upper roller is provided a film transfer device that can reduce the downtime, waste of time and cost due to repair and replacement by gear wear.

Prior to the description, in the various embodiments, components having the same configuration will be representatively described in the first embodiment using the same reference numerals, and in other embodiments, different configurations from the first embodiment will be described. do.

Hereinafter, a film transfer apparatus according to a first embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view of the film transfer apparatus according to the first embodiment. 3 is a side view of the film transfer apparatus according to the first embodiment. For convenience, the left side of the figure is defined as the front and the right side of the figure is defined as the rear. As shown in the figure, the film transfer apparatus 1 is a treatment tank 10 in which a solution is contained, a front roller 20 disposed in front of the treatment tank 10, and a rear disposed behind the treatment tank 10. The first and second auxiliary rollers 41 and 42 installed between the roller 30, the front roller 20 and the treatment tank 10, and the upper rollers spaced apart from the upper end of the treatment tank 10. 50, the drive unit 60 for driving the upper roller 50, the tension adjusting member 70 to maintain the tension of the film, including the lower roller, the sensor unit for detecting the movement of the tension adjusting member 70 ( 80, a control unit 90 connected to the sensor unit 80 to control the driving unit 60 is provided.

Treatment tank 10 is in close contact with the bottom in the shape of a square, there is provided a guide portion 11 to help the shangdong of the tension adjusting member 70 to be described later. The rod which supports the processing tank 10 is attached to the side surface of the processing tank 10, and the solution required for plating process is provided in the processing tank 10. As shown in FIG. The guide part 11 is provided to correspond to the tension adjusting member 70 which will be described later on both inner side walls of the treatment tank 10.

The front roller 20 has a motor for driving only the front roller 20 and is installed in front of the film transfer device (left side in the drawing). The polyimide film pretreated at the front roller 20 is provided in a wound state.

The rear roller 30 has a motor for driving only the rear roller 30 and is installed at the rear of the film transfer device (right side in the drawing). The polyimide film processed by copper uniformly is wound on the rear roller 30 at a constant speed.

The first auxiliary roller 41 is disposed on the same frame as the upper roller 50 to be described later, and serves to assist the polyimide film to be well released from the front roller 20. The second auxiliary roller 42 is rotatably disposed up and down at a position spaced apart from the side of the treatment tank 10 downward between the first auxiliary roller 41 and the upper roller 50 to maintain the tension of the polyimide film. It helps to help.

The upper roller 50 is installed in a frame in which a block for mounting the upper roller 50 and the first auxiliary roller 41 on the upper end of the treatment tank 10 is formed. The upper roller 50 is rotatably seated in a block formed spaced apart. Each of the upper rollers 50 is provided with a driving unit 60, and by adjusting the speed of the driving unit 60 through the control unit 90 to be described later it is possible to maintain the tension of the film by varying the number of revolutions for each upper roller (50) have.

The drive unit 60 is preferably a motor that is easy to control. Motors controlled by the controller 90 to be described later are disposed to rotate the respective upper rollers 50.

4 is a cross-sectional view showing a tension control member inside the treatment tank according to the first embodiment. As shown in the figure, the tension adjusting member 70 is disposed in the spaced space between the upper roller 50, and supports the lower roller 71, the lower roller 71 contained in the solution of the treatment tank 10. And a rectangular frame 72 movable up and down along the guide part 11, a weight adjusting part 73 capable of adding weight to the tension adjusting member 70, and moving parts disposed on both sides of the frame 72. 74 and a sensing unit 75 protruding from one side of the upper end of the frame 72 to correspond to the sensor.

The lower roller 71 is rotatably installed at the lower end of the frame 72 to naturally move the film together with the upper roller 50. Frame 72 forms an opening in the inner side, the lower roller 71 is installed at the lower end. The weight adjusting unit 73 is divided into a weight portion 73a and a weight 73b. The weight portion 73a is described in the first embodiment and the weight 73b is described in the second embodiment. The weight portion 73a is disposed between the lower portion of the opening of the frame 72 and the upper portion of the lower roller 71 so that the weight of the lower roller 71 is light, so that the lower roller 71 tends to rise above the solution by buoyancy. Lowering the adjustment member 70 serves to lower the lower roller 71 to the lower portion of the solution.

The moving part 74 is disposed on the side of the frame 72 and installed to correspond to the guide part 11. That is, a plurality of moving parts 74 are installed on both sides of the frame 72 so that the tension adjusting member 70 can be moved up and down safely, and the end of the moving part 74 is a natural movement of the tension adjusting member 70. It is provided in a circular shape for the wheel. The sensing unit 75 protrudes from one side of the upper end of the frame 72 to correspond to the sensor unit 80 to be described later. When the movement of the tension adjusting member 70 is detected by the movement of the sensing unit 75 and input to the control unit 90 to be described later, the upper roller 50 and the lower portion 71 are controlled by adjusting the speed of the driving unit by the automatic control system. It is possible to maintain the tension of the film by balancing the rollers.

The sensor unit 80 is provided to correspond to the sensing unit 75 of the tension control member 70 on the upper end of the treatment tank (10). A stopper is disposed on the side of the sensor unit 80 to prevent the detection unit 75 from falling, and the sensor unit 80 detects the rising and falling of the detection unit 75 to control information about the rising or falling. To pass).

The control unit 90 is disposed on the side of the processing tank 10 to receive the information related to the shanghai movement of the tension control member 70 input from the sensor unit 80 to control the speed of the drive unit 60 and at the same time The rotation speed of the roller 50 is controlled. That is, when the tension adjusting member 70 is downward, the control unit 90 controls the speed of the driving unit 60 to reduce the speed of the upper roller 50 on the front roller 20 side and the upper roller on the rear roller 30 side. 50) to increase the speed.

The operation of the first embodiment in which the film transfer apparatus described above is applied to the plating apparatus will now be described.

5 is a functional diagram of the film transfer apparatus according to the first embodiment. As shown in the figure, after the solution in which copper ions are provided in the treatment tank 10 is formed, the pretreated polyimide film is installed in the front roller 20 in a wound state, and the beginning of the film is the upper roller 50. And the lower roller 71 are connected to the rear roller 30 to maintain the tension of the film.

Next, when the operation is started and a bath voltage is applied to the inside of the treatment tank 10, copper ions are adsorbed on the surface of the film by the anode electrode provided between the upper roller 50 serving as the cathode and the film of the solution. Plating begins. At this time, as the front roller 20 rotates, the film passes through the first auxiliary roller 41 and helps maintain the tension of the film by the weight of the second auxiliary roller 42 that can be rotated. After passing through the second auxiliary roller 42, the film is transferred to the lower roller 71 in the interior of the treatment tank 10 through the upper roller 50, and then alternately replaces the upper roller 50 and the lower roller 71. Winding in the rear roller 30 while going. That is, the film is moved from the front roller 20 through the first and second auxiliary rollers (41, 42) and the upper roller 50 is rotated at a constant speed by the drive unit 60 and the tension control member (up and down) The tension is maintained through the lower roller 71 of 70).

However, in this case, when the tension of the film cannot be maintained for any reason, that is, when the tension adjusting member 70 rises in the solution, the sensing unit 75 of the tension adjusting member 70 is raised to the sensor. The unit 80 detects the raised detection unit 75. Information sensed by the sensor unit 80 is moved to the control unit 90, where the control unit 90 is the speed of the drive unit 60 disposed before and after the elevated tension control member 70 to maintain the tension of the film To increase the tension of the film. On the other hand, when the tension of the film is not maintained by increasing the speed of the drive unit 60, the tension adjusting member 70 is lowered to detect the sensor 75, the sensor unit 80 is lowered. At this time, the information detected by the sensor unit 80 is moved to the control unit 90, the control unit 90 slows down the speed of the front drive unit 60 of the tension control member 70 lowered by the input information and The speed of the side drive 60 is increased to maintain the tension of the film.

In summary, whether the tension adjusting member 70 is raised or lowered, when the speed of the driving unit 60 is fast or slow so that the film is loosened or loosened a little, the tension of the film is not maintained. After detecting the movement of the tension adjusting member 70 in the unit 80, if the sensed information of the sensor unit 80 is transmitted to the controller 90, the controller 90 adjusts the speed of the driving unit 60. To maintain the tension of the film existing between the upper roller 50 and the lower roller (71).

Next, a film transfer apparatus according to a second embodiment of the present invention will be described.

6 is a perspective view of a film transfer apparatus according to a second embodiment. 7 is a cross-sectional view of the film transfer device AA ′ according to the second embodiment. As shown in the figure, the weight adjusting unit 73 may use a weight (73b). The weight adjusting unit 73 is to adjust the weight of the fixed block 76, the lower roller 71 is disposed on the upper side of the processing tank upward of both sides of the lower roller 71 contained in the solution of the treatment tank 10. Weight member 73b disposed on the outside of the processing tank 10, the weight member (73b) and the connecting member 78 for connecting the lower roller 71, the guide for moving the weight (73b) up and down without shaking A pulley 76a is provided to include a tube 79 and to allow the connecting member 78 to move naturally inside the fixing block 76. The sensor unit 80 is installed in the guide tube 79 to detect the shandong of the weight 73b.

Looking at the operation of the second embodiment, when the lower roller 71 moves up and down, the weight (73b) is also moved up and down so that the sensor unit 80 detects the weight (73b) to move up and down to the control unit 90 The information of the weight 73b is provided. At this time, the control unit 90 controls the speed of the driving unit 60 to increase or decrease the rotation speed of the upper roller 50 to maintain the tension of the film.

The difference between the first embodiment and the second embodiment is that the weight adjusting portion 73 is divided into a weight portion 73a and a weight weight 73b. When the weight adjusting unit 73 is the weight unit 73a, the lower roller 71 is lighter, so that the weight unit 73a is installed on the lower roller 71 so as to overcome the buoyancy. On the other hand, in the case where the weight adjusting unit 73 is the weight (73b) to install the weight (73b) is connected to the lower roller 71 on both sides of the treatment tank to prevent the heavy lower roller (71) is lowered to the bottom of the solution do.

In the film transfer device 1, the weight adjusting unit 73 may be made of a weight portion (73a), it may be made of a weight (73b). In addition, the weight adjusting unit 73 may be used at the same time the weight portion (73a) and weight (73b) depending on the situation.

The front roller part and the rear roller part of the present invention can be replaced by a pre-process or a post-process.

The scope of the present invention is not limited to the above-described embodiment, but may be embodied in various forms of embodiments within the scope of the appended claims. Without departing from the gist of the invention claimed in the claims, it is intended that any person having ordinary knowledge in the technical field to which the invention pertains falls within the scope of the claims of the present invention to various extents which can be modified.

Figure 1a is a plan view showing a polyimide film copper plated film transfer apparatus according to the prior art,

Figure 1b is a side view showing a polyimide film copper plated film transfer apparatus according to the prior art,

2 is a perspective view of a film transfer apparatus according to a first embodiment;

3 is a side view of the film transfer apparatus according to the first embodiment;

4 is a cross-sectional view showing a tension control member inside the plating bath according to the first embodiment,

5 is a functional diagram of the film transport apparatus according to the first embodiment,

6 is a perspective view of a film transfer apparatus according to a second embodiment;

7 is a cross-sectional view along the line A-A 'of the film transfer apparatus according to the second embodiment.

<Description of the symbols for the main parts of the drawings>

1: Film transfer device 10: Treatment tank

20: Front roller 30: Rear roller

41: 1st auxiliary roller 42: 2nd auxiliary roller

50: upper roller 60: drive unit

70: tension adjusting member 80: sensor

90: control unit

Claims (9)

In the film conveying apparatus wherein the film wound on the front roller is unwinded and passed through the processing tank containing the solution, the film is wound on the rear roller. An upper roller spaced apart from an upper end of the treatment tank; A driving part connected to the upper roller to drive the upper roller to maintain tension of the film; A tension adjusting member including a lower roller and a frame supporting the lower roller and movable up and down, and disposed in spaced spaces between the upper rollers and the lower roller contained in the solution of the treatment tank; A sensor unit provided to correspond to the tension control member so as to sense a vertical movement of the tension control member; And And a control unit for controlling the speed of the driving unit by grasping the position of the tension control member moving upward and downward through the sensor unit. The method of claim 1, The control unit controls the speed of the drive unit when the tension control member is lowered to reduce the speed of the upper roller side upper roller of the lowered tension control member and increase the speed of the rear roller side upper roller, the tension control member is upward And increasing the speed of the front roller side upper roller of the upward tension adjusting member and reducing the speed of the rear roller side upper roller to maintain the tension of the film at all times. The method according to claim 1 or 2, And a guide part disposed on the inner sidewall of the treatment tank to correspond to the tension control member so that the tension control member is movable up and down to maintain the tension of the film. The method of claim 1, The frame has an opening formed in the inner side, the lower roller is installed at the lower end of the frame, the film transport apparatus, characterized in that provided as a sensing unit corresponding to the sensor unit protruding from one side of the upper end of the frame. The method according to claim 1 or 4, The tension control member further comprises a moving unit disposed on both sides of the frame in contact with the guide portion to allow the tension control member to move up and down. The method of claim 5, The tension adjusting member further comprises a weight adjusting unit installed on the frame. The method of claim 6, The weight adjusting unit is a film transfer device, characterized in that the weight portion is installed in the lower portion of the opening of the frame. The method of claim 6, The weight control unit is fixed to the upper side of the treatment tank disposed on both sides of the lower roller contained in the plating solution of the treatment tank, the weight weight disposed on the outside of the treatment tank to adjust the weight of the lower roller, the weight and And a connecting member connecting the lower roller, and a pulley is provided inside the fixing block so that the connecting member can move naturally. The method of claim 6, And the driving unit is disposed on each of the upper rollers.

Images