JP2014094827A - Conveyance device for base material and conveyance method for base material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suggest a conveyance device for a base material and a conveyance method for a base material capable of conveying a base material stably and capable of accurately performing desired surface treatment to the base material easily.SOLUTION: A conveyance device 100 of a base material 1 of this invention includes: a base material winding-out roller 2 for winding out the base material 1; a conveyor belt 4 which is attachably/detachably attached to a rear surface of the wound-out base material 1 for conveying the base material 1; a surface treatment device 5 for applying surface treatment to the base material 1 in which the conveyor belt 4 is attached; and a base material winding roller 7 for winding the base material 1 peeled off from the conveyor belt 4 after the surface treatment is applied. The conveyor belt 4 is a belt with an end which is wound by a belt winding roller 9 after being wound out from a belt winding-out roller 8.

Description

  The present invention relates to a base material transport device and a base material transport method for stably transporting a base material on which printing or uneven processing is applied to the surface.

  A substrate on which printing or uneven processing is applied to the surface is required to be stably transported without meandering or uneven transport distance during intermittent transport.

  In Patent Document 1, an endless belt surface-treated with an adhesive is attached to the back surface of a cloth (base material), the cloth is conveyed, and ink-jet printing is performed on the cloth on which the endless belt is attached. An apparatus is disclosed.

  In this printing apparatus, the portion of the endless belt that has been attached to the fabric is peeled off from the fabric after the printing is finished, guided to the belt water washing device, washed, and then the newly transported substrate. It is stuck on the back side again.

Japanese Patent Laid-Open No. 5-212851

  However, when the endless belt attached to the back surface of the cloth is reused by being washed by the belt washing device, as in the printing device of the cited document 1, washing with the belt washing device is insufficient, The endless belt may become less sticky. In this case, there is a problem in that the fabric cannot be stably conveyed by the endless belt, and a desired surface treatment such as printing cannot be accurately performed on the fabric.

  Therefore, in view of the above circumstances, the present invention is capable of stably transporting a base material and easily performing a desired surface treatment on the base material and a base material transport method. It is an issue to propose.

  In order to solve the above problems, the substrate transport apparatus of the present invention includes a substrate unwinding roller for unwinding the substrate, and detachably attached to the back surface of the unrolled substrate to transport the substrate. A conveyor belt, a surface treatment device for performing a surface treatment on the substrate to which the conveyor belt is attached, and a substrate winding for winding the substrate peeled off from the conveyor belt after the surface treatment is performed. And the conveying belt is an endless belt that is unwound from a belt unwinding roller and then wound by a belt winding roller.

  In order to solve the above problems, the substrate transport method according to the present invention unwinds a substrate from a substrate unwinding roller, and a transport belt having adhesiveness on the surface is provided on the back surface of the unrolled substrate. Attaching and conveying the base material, surface-treating the substrate to which the conveyance belt is adhered, peeling the conveyance belt from the surface-treated substrate, and separating the substrate from the conveyance belt. Further, the substrate is wound around a substrate winding roller, and the conveying belt is an endless belt wound around the belt winding roller and then wound around the belt winding roller.

  According to the present invention, the conveyor belt that is attached to the back surface of the substrate and stabilizes the conveyance of the substrate is an endless belt that is wound around the belt winding roller after being unwound from the belt winding roller. Therefore, in the present invention, the transport belt can stably transport the base material without fear of deterioration of the adhesive performance due to reuse. Thereby, this invention becomes easy to perform desired surface treatment correctly with respect to a base material.

The conveyance apparatus of the base material of embodiment of this invention is shown, (a) is a schematic front view, (b) is a schematic plan view.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

  As shown in FIG. 1A, the transport device 100 for the base material 1 according to this embodiment includes a base material unwinding roller 2, an upstream-side base material guide roller 3, a transport belt 4, and a surface treatment device 5. And a downstream side substrate guide roller 6 and a substrate winding roller 7.

  Furthermore, the conveyance device 100 for the base material 1 according to this embodiment includes a belt unwinding roller 8 for unwinding the conveyance belt 4, a belt winding roller 9 for winding the conveyance belt 4, and an upstream where the conveyance belt 4 is applied to the substrate 1. A side belt guide roller 10 and a downstream side belt guide roller 11 are provided.

  The base material 1 of the present embodiment is flexible and is, for example, an elongated edge material that is attached to a side end face of a plate material such as a plywood board, a laminated board, a medium density fiber board, a particle board, or a wood plastic board. . For example, the edge material has a thickness of 1 to 2 mm and a width of 10 to 30 mm.

  The substrate 1 is wound around the substrate unwinding roller 2 and is unwound from the substrate unwinding roller 2. The substrate 1 unwound from the substrate unwinding roller 2 is wound up by the substrate winding roller 7.

  The upstream base material guide roller 3 and the downstream base material guide roller 6 are guide rollers for transporting the base material 1 while keeping it substantially horizontal between the base material unwinding roller 2 and the base material take-up roller 7. It is. In the present embodiment, the downstream side substrate guide roller 6 is composed of a pair of upper and lower rollers of an upper roller 60 and a lower roller 61. The upper roller 60 and the lower roller 61 are spaced apart from each other in the vertical direction, and the length between them is the same as the thickness of the substrate 1.

  The surface treatment device 5 is a device that performs a desired surface treatment on the surface of the base material 1. For example, a printing device that performs ink jet printing on the surface of the base material 1, or uneven processing or the like is performed on the surface of the base material 1. It is a processing device. The printing apparatus is not limited to inkjet printing, and may be a printing apparatus that performs gravure printing, offset printing, screen printing, flexographic printing, and the like. When the surface treatment device 5 is a printing device that performs ink jet printing, the surface treatment device 5 is provided to be movable in the width direction of the substrate 1. The surface treatment apparatus 5 is disposed at a substantially central portion between an upstream belt guide roller 10 and a downstream belt guide roller 11 described later in the conveyance direction of the substrate 1.

  The conveyor belt 4 is a flexible sheet material having adhesiveness on the surface. The conveyor belt 4 can be peeled from the substrate 1 once pasted without destroying the substrate 1. In addition, the conveyance belt 4 may have adhesiveness also on the back surface. For example, an adhesive film is used as the transport belt 4. For example, the adhesive film has a thickness of several tens to several hundreds of μm and a width of several hundreds of mm. That is, in this embodiment, the conveyance belt 4 is wider than the base material 1 (see FIG. 1B).

  The conveyor belt 4 is a belt that is wound around a belt unwinding roller 8, and is an endless belt that is unwound from the belt unwinding roller 8 and then wound around a belt winding roller 9. That is, the conveyor belt 4 has a start end and a terminal end. The start end portion is unwound from the belt unwinding roller 8 and is then wound by the belt winding roller 9.

  The upstream side belt guide roller 10 and the downstream side belt guide roller 11 are guide rollers for transporting the transport belt 4 while keeping it substantially horizontal between the belt unwinding roller 8 and the belt winding roller 9. The upstream and downstream belt guide rollers 10 and 11 are such that the front surface (upper surface) of the conveyor belt 4 is transported substantially horizontally by the upstream and downstream substrate guide rollers 3 and 6. The conveyor belt 4 is transported while being kept substantially horizontal at the position where it abuts. Therefore, in the present embodiment, the upper surface of the transport belt 4 transported substantially horizontally by the upstream and downstream belt guide rollers 10 and 11 and the upper end of the lower roller 61 of the downstream base material guide roller 6 are the same height. It is in the position.

  Thereby, the conveyance belt 4 sticks to the back surface of the base material 1 when passing the upper end of the upstream belt guide roller 10, and then the back surface of the base material 1 until it passes the upper end of the downstream belt guide roller 11. Will remain attached. The transport belt 4 is peeled off from the back surface of the substrate 1 immediately after passing through the upper end of the downstream side belt guide roller 11.

  In this embodiment, a motor (not shown) is attached to each of the substrate winding roller 2, the substrate winding roller 7, the belt winding roller 8, and the belt winding roller 9, and each of the rollers 2, 7, 8 and 9 are rotated independently by each motor. The rotation speeds of these rollers 2, 7, 8, 9 are controlled by a control unit (not shown). The control unit controls the rotation speed of each of the rollers 2, 7, 8, and 9 so that the substrate 1 is conveyed with a constant measurement in a state where the substrate 1 is in tension. Note that the control unit may control the rotation speeds of the rollers 2, 7, 8, and 9 so that the base material 1 is stopped for a predetermined time in the middle of conveyance in a state where the base material 1 is in tension. .

  In the present embodiment, the guide rollers 3, 6, 10, and 11 are rotatably provided and are driven to rotate by friction with the base material 1 or the conveyance belt 4. In addition, a motor may be attached to each of these guide rollers 3, 6, 10, and 11, and the rotation speed may be controlled by the control unit. In this case, the control unit controls the rotation speeds of the guide rollers 3, 6, 10, and 11 to correspond to the conveyance speed of the base material 1 or the conveyance belt 4 by the rollers 2, 7, 8, and 9.

  The base material 1 described above unwinds the starting end portion of the base material 1 from the base material unwinding roller 2, passes the starting end portion under the upstream side base material guide roller 3, and the downstream side base material guide roller 6. It passes between the upper roller 60 and the lower roller 61 and is fixed to the substrate winding roller 7. Then, the base material unwinding roller 2 and the base material take-up roller 7 are respectively rotated to unwind the processing portion where the surface treatment of the base material 1 is performed from the base material unwinding roller 2. At this time, the controller controls the rotational speed of the base material unwinding roller 2 and the rotational speed of the base material take-up roller 7 so that the processing portion of the base material 1 is unwound in a tensioned state.

  Further, the above-described conveyor belt 4 unwinds the start end portion of the conveyor belt 4 from the belt unwinding roller 8 and passes the start end portion over the upstream belt guide roller 10 and the downstream belt guide roller 11 to wind the belt. Fix to the roller 9. Then, the belt unwinding roller 8 and the belt take-up roller 9 are rotated to unwind the conveying belt 4 from the belt unwinding roller 8. At this time, the control unit controls the rotational speed of the belt unwinding roller 8 and the rotational speed of the belt winding roller 9 so that the transport belt 4 is unwound in a tensioned state.

  Then, an example of the conveyance method of the process location of the base material 1 by the conveying apparatus 100 of the base material 1 of this embodiment mentioned above is demonstrated.

  That is, first, the processing portion of the substrate 1 is unwound from the substrate unwinding roller 2. The surface (upper surface) of the conveyor belt 4 is attached to the back surface (lower surface) of the treated portion of the unrolled substrate 1, and the treated portion of the substrate 1 is conveyed.

  Next, the surface treatment apparatus 5 performs surface treatment on the surface of the processing portion of the base material 1 attached to the conveyor belt 4. At this time, the surface treatment may be performed while the substrate 1 is conveyed, or the surface treatment may be performed with the substrate 1 stopped.

  Next, the conveyor belt 4 is peeled from the back surface of the treated portion of the base material 1 that has been surface-treated by the surface treatment apparatus 5. Here, the conveyance belt 4 is peeled off from the processing portion of the substrate 1 immediately after the upper end of the downstream belt guide roller 11. In the present embodiment, since the downstream belt guide roller 11 is disposed at a position away from the surface treatment device 5 in the conveyance direction of the substrate 1, the influence of peeling the conveyance belt 4 is affected by the substrate 1. It is difficult to reach the processing point.

  Next, the treated portion of the base material 1 peeled off from the conveyor belt 4 is taken up by the base material take-up roller 7. At this time, the base material 1 is taken up in a tensioned state by the base material take-up roller 7.

  Further, the conveyor belt 4 peeled from the processing portion of the substrate 1 is taken up by the belt take-up roller 9. At this time, the conveyor belt 4 is wound in a tensioned state by the belt winding roller 9.

  In the transport apparatus 100 for the base material 1 according to the present embodiment in which the surface treatment is performed on the base material 1 as described above, the processing portion of the base material 1 is attached to the transport belt 4 and transported. Unevenness in the transport distance during intermittent transport is unlikely to occur, and stable transport can be achieved.

  In addition, since the conveyor belt 4 is an endless belt that is unwound from the belt unwinding roller 8 and then wound around the belt winding roller 9, there is no risk of a decrease in adhesive performance due to reuse, and the conveyor belt 4 is stable. The process location of the base material 1 can be conveyed. Further, since the conveyor belt 4 is not an endless belt, there is no problem of occurrence of slack due to repeated use. Therefore, the conveyance belt 4 can be made of resin instead of metal.

  Further, since the substrate 1 is a narrow edge material, the frictional force between the upstream and downstream substrate guide rollers 3 and 6 is small, and the upstream and downstream substrate guide rollers 3 and 6 are used. It is difficult to regulate the displacement in the width direction. However, since the substrate 1 is transported with the processing portion attached to the transport belt 4, the positional shift (meandering) in the width direction can be suppressed.

  In the above-described embodiment, the example in which the base material 1 is a narrow edge material has been described. However, the base material 1 is made of a board material such as a plywood board, a laminated board, a medium density fiber board, a particle board, or a wood plastic board. It may be a wide sheet material attached to the front surface or the back surface.

  Although the present invention has been described based on the embodiments shown in the accompanying drawings, the present invention is not limited to the above-described embodiments, and appropriate design changes can be made within the intended scope of the present invention. It is.

DESCRIPTION OF SYMBOLS 1 Base material 2 Base material unwinding roller 4 Conveying belt 5 Surface treatment device 7 Base material winding roller 8 Belt unwinding roller 9 Belt winding roller 100 Conveying device

Claims (2)

A substrate unwinding roller for unwinding the substrate;
A conveyor belt that detachably attaches to the back surface of the unrolled substrate and conveys the substrate;
A surface treatment apparatus for performing a surface treatment on the substrate to which the conveyor belt is attached;
A substrate take-up roller that winds up the substrate peeled off from the transport belt after the surface treatment is performed;
The base material transport device according to claim 1, wherein the transport belt is an endless belt that is unwound from a belt unwinding roller and wound by a belt wind-up roller. Unwind the substrate from the substrate unwinding roller,
On the back surface of the unrolled base material, a transport belt having adhesiveness is attached to the surface to transport the base material,
Surface treatment is performed on the base material to which the conveyor belt is attached,
Peeling the conveyor belt from the substrate subjected to the surface treatment,
Winding the base material peeled from the conveyor belt onto a base material take-up roller,
The substrate conveying method, wherein the conveying belt is an endless belt that is unwound from a belt unwinding roller and then wound by a belt winding roller.

Images