JP2016175362A - Screen printer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To accurately position and align a screen printing plate with respect to a workpiece by the movement adjustment of only the screen printing plate particularly when screen printing is carried out on a web-like workpiece.SOLUTION: A screen printer is configured to carry out screen printing by a squeegee 22 of a squeegee unit 20 after a screen printing plate S is aligned with a workpiece W to be conveyed by a printing part. The squeegee unit 20 itself is fixed to the printing part without being moved, and a screen printing plate support mechanism 10 is provided in the printing part separately from the squeegee unit 20. The screen printing plate support mechanism 10 includes aligning means 13 slidable and configured to align the screen printing plate S supported on the screen printing plate support mechanism 10 with a predetermined position with respect to the workpiece W, and fixing means 16 for fixing the aligned screen printing plate S. During the alignment, only the screen printing plate S is moved while the squeegee 22 is not moved.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a screen printing machine provided with an alignment device so that printing can be performed at an accurate position on a workpiece to be printed in screen printing.

  Conventionally, when screen printing is performed on various workpieces, for example, the screen plate frame is matched with the correct printing position for the workpiece held on the printing table, so that the workpiece and the plate frame correspond to each other as processing before printing. Next, the plate frame is moved and rotated with respect to the workpiece in the X direction, the Y direction, and the θ angle for alignment. Therefore, for example, there is a screen printer disclosed in Patent Document 1 in which an alignment device is arranged and configured in a printing unit of the screen printer. This is because the alignment unit body is provided on the support column disposed in the printing section where the squeegee unit including the squeegee is provided, and the support frame body fixedly supported by the plate frame is displayed on each of the work and the plate frame by the alignment unit body. It is assumed that the support frame body supporting the plate frame is moved and rotated so as to match the existing alignment marks. As a result, printing can be performed with high accuracy without moving the workpiece after alignment.

  On the other hand, there is a screen printing method and apparatus disclosed in Patent Document 2, and according to this, a squeegee and a support roll (printing roller) are arranged to face each other through a screen to support a printing sheet that is a web-like work. It is assumed that screen printing is performed on a web-like workpiece by moving the squeegee together with the supporting roll in the surface direction of the screen while placing it in a bent state on the peripheral surface of the roll and bringing it into contact with the screen.

Japanese Patent No. 5023118 Japanese Patent Laid-Open No. 9-300579

  In the aligning device according to the above-described Patent Document 1, in order to align the screen frame and the workpiece when aligning, a squeegee including a support frame and a squeegee that are disposed in the printing unit and supports the plate frame. The unit is configured to be aligned with the workpiece by moving and rotating integrally. Then, when screen printing is performed on a web-shaped workpiece as shown in Patent Document 2, a squeegee (squeegee unit) is used to apply the aligning device in the screen printing apparatus shown in Patent Document 1 as the aligning device. In addition, the screen frame and the support roll must be integrated and aligned on the upper and lower sides of the work, so that the configuration must be complicated. In addition, it is difficult to configure the squeegee and the support roll so as to face each other.

  Therefore, the present invention has been created in view of the above-described circumstances, and the purpose thereof is, for example, even when screen printing is performed on a web-like workpiece as shown in Patent Document 2, and also in a plate shape. It is possible to provide a screen printing machine equipped with an aligning device that can align the screen plates at the exact printing positions for these workpieces and can be aligned with a simple configuration. is there.

In order to solve the above-described problem, in the present invention, when a description is given with reference numerals in the embodiments for carrying out the invention to be described later, the screen plate S is attached to the work W to be carried in the printing unit. In the screen printing machine that performs screen printing with the squeegee 22 of the squeegee unit 20 after alignment with the workpiece W, the squeegee unit 20 itself is fixedly arranged in the printing unit without being moved, and the squeegee unit 20 is Separately, a screen plate support mechanism 10 is provided in the printing unit, and the screen plate support mechanism 10 is movable and supported by the screen plate S supported by the screen plate support mechanism 10 at a predetermined position with respect to the workpiece W. An aligning means 13 for aligning and a fixing means 16 for fixing the screen plate S after alignment are provided. Moving only the screen printing plate S, the squeegee 22 is characterized that you have not to move.
Below the screen plate S supported by the screen plate support mechanism 10, a printing roll 30 that presses a work W arranged below the screen plate S against the screen plate S can be raised and lowered, and the squeegee. 22 can be arranged so as to travel together.
The workpiece W can be configured as a web that is continuously supplied below the screen plate S.
The screen plate support mechanism 10 includes a support body 11 disposed opposite to each other below the left and right support frames 4 mounted between the frame columns 3 arranged on the printing unit in a standing manner, and the support bodies 11. A plate receiving member 12 that slidably holds the screen plate S supported therebetween, and the aligning means 13 moves the screen plate S placed on the plate receiving member 12 to a printing position with respect to the workpiece W. Can be configured to match.
The alignment means 13 moves the peripheral frame in the left-right direction in the same manner as the left and right X-axis alignment units 14 disposed on the left and right support bodies so as to move the peripheral frame of the screen plate S in the front-rear direction. As described above, the Y-axis alignment unit 15 can be configured to be connected to at least one of the left and right X-axis alignment units 14.

In the screen printer according to the present invention configured as described above, the aligning means 13 provided in the screen plate support mechanism 10 is configured separately from the squeegee unit 20 in the printing unit of the screen printer main body 1. Only the screen plate S supported by the screen plate support mechanism 10 is rotated back and forth, left and right, and further rotated and aligned with the printing position for the workpiece W to be loaded.
Regardless of whether the workpiece W to be loaded is web-shaped or plate-shaped, only the alignment operation with respect to the screen plate S may be performed. Without the need for a configuration for linking them, the overall configuration is simplified.
The web-shaped workpiece W is continuously supplied below the screen plate S and is screen-printed while being pressed against the screen plate S by the printing roll 30 that moves up and down and moves with the squeegee 22. It can be separated smoothly.
The screen plate S at the time of alignment by the operation of the aligning means 13 is placed on the plate receiving member 12, so that the slide movement of the front and rear, left and right, and further rotation is made smooth and adjusted to an accurate position, and the fixing means. 16 firmly fixes and supports the screen plate S after alignment within the screen plate support mechanism 10.
The X-axis alignment unit 14 in the alignment means 13 moves the left and right sides of the peripheral frame of the screen plate S, for example, in the front-rear direction and further rotates, and the Y-axis alignment unit 15 moves the screen plate S, for example, in the left-right direction. Match exactly to W.

  Since the present invention is configured as described above, the screen plate S supported by the printing unit in the screen printing machine main body 1 is positioned accurately with respect to the workpiece W carried below the screen plate S. In addition, the squeegee unit 20 itself does not need to be moved and adjusted, and only the screen plate S may be rotated back and forth, right and left, and further rotated. Therefore, the configuration is simple and maintenance and inspection are easy. Further, the workpiece W itself may be intermittently or continuously supplied in the form of a web or plate, and the printing roller 30 or the printing table supported from below, or the screen plate support mechanism 10 itself. There is no need to adjust the movement in accordance with the alignment operation.

  That is, in the present invention, the squeegee unit 20 itself is fixedly arranged in the printing unit without being moved, and a screen plate support mechanism 10 is provided in the printing unit separately from the squeegee unit 20. Alignment means 13 for aligning the screen plate S that is movable and supported by the screen plate support mechanism 10 with a predetermined position with respect to the workpiece W, and fixing means 16 for fixing the screen plate S after alignment are provided. This is because only the screen plate S is moved at the time of alignment, and the squeegee 22 is not moved. This makes it possible to easily and easily align the screen plate S with the workpiece W.

  Further, when the workpiece W is web-shaped, the squeegee 22 that positions the workpiece W disposed below the screen plate S above the screen plate S and the roller-shaped printing roller 30 that supports the workpiece W from below. Even when the printing is performed while being sandwiched, the alignment operation of the screen plate S with respect to the work W may be performed by moving and adjusting only the screen plate S by the alignment means 13 of the screen plate support mechanism 10 configured separately from the squeegee unit 20. The alignment adjustment is not necessary for either the unit 20 or the printing roller 30, and the configuration can be simplified.

  In addition, the work W is not limited to the web shape, and the plate-like work W is supported by a printing table instead of the roller-like printing roller 30, and the same can be applied to this.

  The aligning means 13 provided in the screen printing machine main body 1 is composed of left and right X-axis aligning units 14 and Y-axis aligning units 15 so that the X-axis aligning units 14 can be moved in the same or opposite longitudinal direction. The screen plate S itself can be rotated in the front-rear direction or at a predetermined angle, and the screen plate S can be moved in the left-right direction by moving the Y-axis alignment unit 15 in the left-right direction. S can be accurately positioned with respect to the workpiece W.

  Further, the alignment operation of the screak plate S by the alignment means 13 is carried out smoothly by the alignment means 13 because the screen plate S is slidably mounted on the plate receiving member 12 provided in the screen plate support mechanism 10. The screen plate S can be securely fixed by the fixing means 16 after the alignment.

  In addition, the code | symbol attached | subjected in each means of the means for solving said subject and the effect of invention was attached | subjected in order to make easy reference with the part which shows each structure part described in drawing. The present invention is not limited to these descriptions, structures, shapes, and the like indicated by reference numerals and the like in the drawings.

It is a top view which shows one form for implementing this invention. It is an AA line arrow view similarly in FIG. It is a BB line arrow view similarly in FIG. It is a side view similarly.

  DESCRIPTION OF EMBODIMENTS Hereinafter, an embodiment for carrying out the present invention will be described with reference to the drawings. Reference numeral 1 shown in the drawing denotes screen printing on a continuous web-like workpiece W, for example, a substrate to be loaded. This is a main body of the screen printing machine that carries out the work W after screen printing. The printing unit in the screen printing machine main body 1 is constructed by mounting support frames 4 along the front-rear direction on the left and right sides of the frame support 3 formed on the four corners of the printing unit frame 2 that partitions the printing unit. Become.

  The support frame 4 in the illustrated example supports the screen plate support mechanism 10 that supports the screen plate S by aligning the printing position with respect to the workpiece W, and the workpiece W that is carried below the screen plate S. A squeegee 22 that coats and prints ink and other predetermined coating agents on the screen plate S; and a squeegee unit 20 that travels back and forth along the support frame 4, including a scraper 23 that smoothes the coating agent after printing. The printing roller 30 that travels forward and backward with the squeegee 22 is formed so as to press and support the workpiece W supplied below the screen plate S toward the squeegee 22 from below.

  The screen plate support mechanism 10 is positioned below the squeegee unit 20 and is configured separately from the squeegee unit 20 including the squeegee 22, and only the screen plate support mechanism 10 is separate from the squeegee unit 20 that is not adjusted for movement. Moved and rotated. As shown in the figure, the screen plate support mechanism 10 is supported below the left and right support frames 4 so as to be opposed to each other, for example, a support body 11 having an L shape in cross section and the left and right support bodies 11. A screen receiving member 12 such as a free ball bearing arranged on the support 11 so as to place the screen plate S to be moved and the screen plate S placed on the plate receiving member 12 on the work W. Alignment means 13 that aligns by rotating and moving from front to back, right and left, corresponding to the printing position, and fixing means 16 that fixes the screen plate S after alignment are provided.

  The support 11 is connected to the bottom surface of the support frame 4 by its upright part, and supports the left and right frame parts in the peripheral frame of the screen plate S by the horizontal part. The left and right frame parts are moved back and forth or left and right. In addition, the screen plate S itself is rotated at a predetermined angle by moving either one of the front and rear or the left and right, thereby aligning the printing position with respect to the workpiece W carried below.

  The plate receiving member 12, that is, the free ball bearing is formed by embedding and forming a ball which is partly free to rotate and embedded in the upper surface of a pedestal fixed to the upper surface of the horizontal portion of the support 11. The placed screen plate S is slidable in a free direction while being placed.

  In the illustrated example, the aligning means 13 holds the ridges in the screen plate S and moves the left and right frame portions of the peripheral frame that are integral with each other so as to move and rotate the left and right supports 11. The left and right X-axis alignment units 14 arranged in the same manner, and the Y-axis alignment unit 15 connected to at least one of the left and right X-axis alignment units 14 so as to similarly move the peripheral frame in the left-right direction; Consists of. These alignment units 14 and 15 are connected to the peripheral frame so as to be moved by a driving source and, for example, a rotating ball screw by the driving source, or are moved by forcibly pressing or pulling the peripheral frame. It is a well-known thing provided with a body. When aligning the peripheral frame in the front-rear direction, the movable body of the X-axis alignment unit 14 is moved in the same direction, and when aligning the peripheral frame in the rotational direction, the movable bodies of the left and right X-axis alignment units 14 are moved in different directions. Either one of the left and right X-axis alignment units 14 is moved. Further, the front / rear, left / right, and rotational movements by the alignment units 14 and 15 are performed so that, for example, the same alignment mark displayed on the screen plate S matches the alignment mark displayed on the workpiece W, for example, a CCD. By taking an image with a camera (not shown) or the like and processing it optically, it is performed by an alignment control mechanism (not shown) for controlling the movement of the screen plate S.

  The fixing means 16 is disposed above the screen plate S so as to press the peripheral frame of the screen plate S toward the plate receiving member 12, for example, a rod-and-pin-like pressing projecting by cylinder operation, for example. Comprising a body. The fixing means 16 is disposed above or near the position of the plate receiving member 12 as shown in the figure, and the screen plate S is pressed on the upper surface of the plate receiving member 12 by pressing the screen plate S on the left and right supports 11. The S is fixed firmly without being moved.

  The squeegee unit 20 descends to the squeegee bar 21 mounted separately between the upper portions of the left and right support frames 4 separately from the screen plate support mechanism 10 when the printing operation of the squeegee unit 20 itself advances. A squeegee 22 is rubbed on the upper side, and a scraper 23 is provided that moves down and contacts the screen plate S when the ink leveling operation reverses. The squeegee 22 and the scraper 23 stand by at the raised position when not operating. doing.

  The printing roller 30 is provided on the printing unit frame 2 below the screen plate support mechanism 10 so as to be moved up and down so that it can run along with the movement of the squeegee 21 in the front-rear direction. When the work W is printed by the squeegee 21, the work W travels with the squeegee 21 at a raised position where the work W is pressed against the lower surface of the screen plate S from below.

  Of course, the printing roller 30 is provided when printing on a web-like workpiece W, and when the workpiece W is a plate-like substrate such as a circuit board, a board-like printing table is arranged (not shown). ).

  Next, an example of the operation will be described. A web-like workpiece W continuously supplied from a web supply mechanism (not shown) is transferred to the printing roller 30 and is wound by a winding mechanism (not shown). On the other hand, a predetermined screen plate S is set on the screen plate support mechanism 10 in the printing unit frame 2. The set screen plate S detects whether or not the set position corresponds to the print position with respect to the workpiece W by the alignment control mechanism, and when detecting that the position is shifted, the X-axis alignment unit in the alignment means 13 14, each of the Y-axis alignment units 15 is operated to position the screen plate S forward and backward, left and right, and further so as to match the alignment mark displayed on the workpiece W. In this alignment operation, only the screen plate S is moved and adjusted. During this movement adjustment, neither the squeegee unit 20 itself nor the squeegee 22 itself is moved. After the alignment is completed, the squeegee 22 and the scraper 23 in the squeegee unit 20 are operated, screen printing is performed on the work W, the printed work W portion is conveyed to the winding mechanism side, and the next work W The part is carried in again and printed, and in the case of a continuous web-like workpiece W, it is conveyed intermittently corresponding to the screen printing operation.

  This is similarly performed when the workpiece W has a plate shape, and printing processing is sequentially performed.

DESCRIPTION OF SYMBOLS S ... Screen plate W ... Work 1 ... Screen printer main body 2 ... Printing part frame 3 ... Frame support | pillar 4 ... Support frame 10 ... Screen plate support mechanism 11 ... Support body 12 ... Plate receiving member 13 ... Alignment means 14 ... X-axis alignment Unit 15 ... Y-axis alignment unit 16 ... Fixing means 20 ... Squeegee unit 21 ... Squeegee bar 22 ... Squeegee 23 ... Scraper 30 ... Printing roller

Claims (5)

  In a screen printing machine that performs screen printing with a squeegee of a squeegee unit after aligning the screen plate with the work in the printing unit with respect to the work to be carried in, the squeegee unit itself is fixedly arranged in the printing unit without being moved. In addition, a screen plate support mechanism is provided in the printing unit separately from the squeegee unit, and the screen plate support mechanism is movable and supported by the screen plate support mechanism with respect to the workpiece. And a fixing means for fixing the screen plate after alignment, and only the screen plate is moved at the time of alignment, and the squeegee is not moved. Printer.   Below the screen plate supported by the screen plate support mechanism, a printing roll that presses a work placed under the screen plate against the screen plate can be moved up and down, and can move with the squeegee. The screen printing machine according to claim 1, which is arranged.   The screen printing machine according to claim 1, wherein the workpiece is in a web shape continuously supplied below the screen plate.   The screen plate support mechanism is supported between the support and the support disposed opposite to each other below the left and right support frames mounted between the frame columns disposed on the printing unit. 4. A plate receiving member that slidably holds the screen plate, and the aligning unit aligns the screen plate placed on the plate receiving member with a printing position with respect to a workpiece. The screen printing machine described in 1.   The alignment means includes a left and right X-axis alignment unit disposed on each of the left and right supports so as to move the peripheral frame of the screen plate in the front-rear direction, and similarly moves the peripheral frame in the left-right direction. The screen printing machine according to claim 4, further comprising a Y-axis alignment unit that is connected to at least one of the X-axis alignment units.

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