JP2010264647A - Tentering machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a tentering machine which can stretch a film more strictly. <P>SOLUTION: When one tenter chain out of a pair of right and left tenter chains 14 and 16 is stretched, and the difference between movement distances measured respectively by length measuring devices 40 and 41 is higher than a reference value, by an air cylinder related to the tenter chain on the side opposite to the stretched tenter chain, the non-automatic sprocket of the tenter chain on the opposite side is moved into the reference value. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a tenter device for stretching a film in the width direction.

  Conventionally, a tenter device has been used to stretch a film. When this film is stretched, it is necessary to finely adjust the stretch amount. Therefore, a structure for finely adjusting the width of each pair of left and right tenter chains in the traveling direction has been proposed (see, for example, Patent Document 1 and Patent Document 2).

Japanese Patent No. 3858101 Japanese Patent Laid-Open No. 2002-20007

  By the way, an optical system film such as a retardation film used in recent liquid crystal panels or the like has a high accuracy in the retardation and the optical axis direction, and may require a more strict stretching.

  However, when the film is stretched between a pair of left and right tenter chains and run, the length of the left tenter chain and the length of the right tenter chain are different. The attachment position on the right side may not be the opposite position but may be shifted.

  In the above conventional tenter device, the shift in the horizontal direction of the film can be adjusted, but the shift in the running direction of the film cannot be adjusted. Then, due to this deviation, there is a problem in that the retardation of the film and the optical axis direction are adversely affected, and an optical system film having desired performance cannot be manufactured.

  Therefore, in view of the above problems, the present invention provides a tenter device that can stretch a film more strictly.

  The present invention provides a tenter device in which a film is stretched in a spread state between a pair of left and right tenter chains and is stretched in the width direction by running in the front-rear direction. , An endless chain spanned between the passive sprocket and the drive sprocket, each drive sprocket being fixed so as to be rotatable and not movable in the front-rear direction, and each said passive sprocket being rotatable And measuring means for measuring the moving distance of each of the passive sprockets in the front-rear direction is provided, and one tenter chain of the pair of left and right tenter chains is provided. When the difference between the movement distances measured by the respective measuring means becomes higher than a reference value, the extended t A tenter device characterized in that a control unit is provided to move the passive sprocket of the tenter chain on the opposite side within the reference value by the moving means relating to the tenter chain on the opposite side of the tenter chain. It is.

  According to the present invention, since the difference in length between the pair of left and right tenter chains is within the reference value, the left side and the right side of the film stretched in a stretched state on the pair of left and right tenter chains are always opposite each other. So that there is no deviation.

It is a top view of the tenter device of one embodiment of the present invention. It is the principal part enlarged view seen from the side part of the tenter apparatus of this embodiment. It is a block diagram of the tenter device of this embodiment.

  Hereinafter, a tenter device 10 according to an embodiment of the present invention will be described with reference to FIGS.

  The tenter device 10 of the present embodiment manufactures a retardation film F that is one of optical system films F used in flat display devices such as liquid crystal display devices. The material of the retardation film F is a thermoplastic resin such as polycarbonate, cyclic olefin copolymer (COC), or cycloolefin polymer (COP) of metathesis ring-opening polymerization, and the thickness thereof is 10 μm to 200 μm.

  In the present specification, the “front-rear direction” means the traveling direction from the carry-in side of the film F toward the carry-out side in the tenter device 10, and the “left-right direction” means the width direction of the film F. .

(1) Configuration of Tenter Device 10 The configuration of the tenter device 10 will be described with reference to FIGS.

  The tenter device 10 has a pair of left and right tenter chains 12 and 14. The left tenter chain 12 is an endless chain spanned between the left driven sprocket 16 and the left drive sprocket 18, and the right tenter chain 14 is also spanned between the right driven sprocket 20 and the right drive sprocket 22. It is an endless chain. The left driven sprocket 16 and the right driven sprocket 20 are arranged on the film F carry-in side, and the left drive sprocket 18 and the right drive sprocket 22 are arranged on the film F carry-out side.

  The tenter device 10 is a clip tenter device, and a pair of left and right tenter chains 12 and 14 are provided with clips 56 at predetermined intervals. Each clip 56 has left and right sides (both ears) of the film F. It moves along a pair of left and right tenter rails 24, 26. The left tenter rail 24 and the right tenter rail 26 are installed on a tenter base 28.

  The left drive sprocket 18 and the right drive sprocket 22 on the carry-out side are fixed to the left tenter rail 24 and the right tenter rail 26 so as not to move in the front-rear direction.

  The distance between the pair of left and right tenter chains 12, 14 is set so as to expand from the carry-in port side toward the carry-out port side, and the film F is stretched by this spread. In FIG. 1, the pair of left and right tenter chains 12 and 14 are shown in parallel for the sake of simplicity.

  A heat treatment chamber 30 for heat-treating the film F is provided in the central portion of the tenter device 10. Inside the heat treatment chamber 30, nozzles (not shown) are arranged above and below the traveling path of the film F, and hot air is sprayed onto the film F to expand by heat treatment.

(2) Configuration of Adjustment Part The configuration of the adjustment part of the length in the front-rear direction of the pair of left and right tenter chains 12, 14 will be described with reference to FIG.

  The left driven sprocket 16 for moving the left tenter chain 12 is rotatably mounted on the left slide portion 32, and the left slide portion 32 is pressed to the front side (loading inlet side) by the left air cylinder 34. Has been. As a result, the left tenter chain 12 is stretched while maintaining a constant tension.

  Similarly, the right tenter chain 14 is rotatably mounted above the right slide portion 36, and when the right slide portion 36 is pressed forward by the right air cylinder 38, the right tenter chain 14 has a certain tension. Hold and hang over.

  The left differential sprocket 16 is provided with a left measuring device 40 such as a magnescale. As shown in FIG. 2, the protrusion 42 protrudes from the non-rotating central portion of the left passive sprocket 16, while the pedestal 44 protrudes from the tenter base 28, and the left length measuring device 40 is attached to the pedestal 44. Yes. The measurement unit 46 of the left length measuring device 40 is always in contact with the projection 42 described above, and when the left tenter chain 12 is extended by the heat of the heat treatment chamber 30 or the like, the projection 42 attached to the left passive sprocket 16. Pushes the measurement unit 46 forward, and the left length measuring device 40 measures the length LL of the left tenter chain 12 extending.

  A left load cell 48 is attached to the tip of the left air cylinder 34, and the pressing force of the left air cylinder 34 can be measured, and the tension of the left tenter chain 12 is obtained by this pressing force.

  Similarly, a right length measuring device 41 and a right load cell 49 are also provided on the right tenter chain 14 side. The right length measuring device 41 measures the extended length LR of the right tenter chain 14. The right load cell 49 measures the pressing force of the right air cylinder 38 and obtains the tension of the right tenter chain 14 by this pressing force.

(3) Electrical configuration of the tenter device 10 The electrical configuration of the tenter device 10 will be described with reference to FIG.

  A drive motor 52 that drives the left drive sprocket 18 and the right drive sprocket 22 is connected to the control unit 50 formed of a computer. Besides, the control unit 50 is connected to the left air cylinder 34, the right air cylinder 38, the left length measuring device 40, and the load cell 48, respectively.

(4) Operation State of Tenter Device 10 The operation state of the tenter device 10 will be described.

  Hot air is blown out from the nozzle inside the heat treatment chamber 30 to set the inside of the heat treatment chamber 30 at 150 to 190 ° C.

  The film F is stretched between the pair of left and right tenter chains 12 and 14 with a clip 56 in an expanded state, the left motor 52 and the right motor 54 drive the left drive sprocket 18 and the right drive sprocket 22, and the film F is moved 30 to 30 times. Run in the front-rear direction at 60 m / min.

  Thereby, the film F is heat-treated and stretched in the width direction, and for example, a retardation film F having an optical axis of ± 0.5 degrees and a predetermined retardation can be manufactured.

  However, during manufacturing, the length of the left tenter chain 12 or the right tenter chain 14 is extended by the heat of the heat treatment chamber 30 or the like. For example, the left driven sprocket 16 moves forward by this extended length.

  Therefore, the control unit 50 performs the following control.

  In step 1, the left length measuring device 40 always measures the length LL that the left tenter chain 12 extends, and the right length measuring device 41 measures the length LR that the right tenter chain 14 extends.

  In step 2, the control unit 50 calculates | LL-LR | and proceeds to step 3 when | LL-LR |> = L0. For example, the reference value L0 = 0.5 mm.

  In step 3, the control unit 50 uses the right air cylinder 38 to change the tenter chain (for example, the right tenter chain 14) opposite to the extended tenter chain (for example, the left tenter chain 12). By pressing, the length of the right tenter chain 14 is lengthened, and feedback control is performed so that | LL−LR | <L0.

  In step 4, the pressing force of the right air cylinder 38 is measured by the right load cell 49, and if the tension of the right tenter chain 14 exceeds the reference force, the right tenter chain 14 may come off and break to prevent this. Sound an alarm. As a reference for the tension, the tension when the length extending from the original length is extended by 1 to 2% is used.

  If the right tenter chain 14 extends in the opposite manner, the left tenter chain 12 is pressed by the left air cylinder 34 to increase its length.

(5) Effect In the tenter device 10 of the above embodiment, for example, when the left tenter chain 12 extends and the difference in length between the pair of left and right tenter chains 12 and 14 exceeds a reference value, the right air cylinder 38 In order to extend the right tenter chain 14, heat treatment can be performed at a position where the left side and the right side of the film F face each other. Therefore, even if the film F requires strict stretching such as the retardation film F, the film F can be stretched as desired.

(6) Modified Example In the above embodiment, the clip tenter device has been described. However, instead of this, a pin tenter device that fixes the film F with a pin may be used.

  In the said embodiment, although demonstrated by the optical system film, it can replace with this and can apply also to manufacture of the secondary battery system film used for a secondary battery, or the solar cell system film used for a solar cell.

F film 10 tenter device 12 left tenter chain 14 right tenter chain 16 left driven sprocket 18 left driven sprocket 20 right driven sprocket 22 right driven sprocket 34 left air cylinder 38 right air cylinder 40 left measuring device 41 right measuring device 50 Control unit

Claims (5)

In a tenter device that stretches the film in the width direction by stretching the film in a spread state between a pair of left and right tenter chains and running in the front-rear direction,
The pair of left and right tenter chains is an endless chain spanned between a passive sprocket and a drive sprocket,
Each of the drive sprockets is fixed so as to be rotatable and not movable in the front-rear direction,
Each of the passive sprockets is attached so as to be rotatable and movable in the front-rear direction by moving means,
Measuring means for measuring the moving distance in the front-rear direction of each of the passive sprockets is provided,
When one tenter chain of the pair of left and right tenter chains extends and the difference in the moving distances measured by the measuring means becomes higher than a reference value, the tenter chain on the opposite side of the extended tenter chain A control unit is provided for moving the passive sprocket of the opposite tenter chain within the reference value by the moving means.
A tenter device characterized by that. The moving means is an air cylinder;
The air cylinder applies a certain tension to the tenter chain by pressing the passive sprocket, and adjusts the pressing force to move the passive sprocket.
The tenter device according to claim 1. The control unit travels so that a left side and a right side of the film stretched between a pair of left and right tenter chains face each other.
The tenter device according to claim 1. The film is an optical film, a secondary battery film, or a solar battery film,
The tenter device according to claim 1. The film is a retardation film,
By stretching the retardation film in the width direction, it is produced in a predetermined retardation and optical axis direction.
The tenter device according to claim 1.

Images