JP2006056151A - Solder paste printing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a solder paste printing device which stabilizes support of a squeegee and makes a printing quality excellent. <P>SOLUTION: In this solder paste printing device, the squeegee 1 has a pair of support members 2 extending in the directions crossing at right angles from the opposite end part sides and contact bodies 3 provided at the places of the support members 2. The squeegee 1 moves in a state of being supported at a first contact P1 of the lower part 1b thereof and first and second contacts P2 and P3 of the contact bodies 3. Therefore, support of the squeegee 1 becomes stable and a space between the lower part 1b on the opposite end side of the squeegee 1 and a metal mask 5 becomes uniform even when an insulating base 4 and the metal mask 5 are in a curved state. Thus, the printing quality is improved and besides a product showing little nonuniformity in the printing quality is obtained. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a cream solder printing apparatus suitable for use on a circuit board or the like.

  FIG. 6 is a cross-sectional view of a main part of a conventional cream solder printing apparatus, FIG. 7 is a schematic view of the conventional cream solder printing apparatus as seen from the front, and then shows the configuration of the conventional cream solder printing apparatus. 6, the conventional cream solder printing apparatus includes a movable flat plate-like squeegee 51, a metal mask 52 provided with a plurality of through holes 52a at predetermined locations, and an insulating substrate 53. And a supporting table 54.

  Next, the printing method in the conventional cream solder printing apparatus will be described. First, the insulating substrate 53 is supported on the table 54, and the metal mask 52 is placed on the insulating substrate 53.

  Next, in a state where the cream solder 55 is supplied onto the metal mask 52, the squeegee 51 slides on the metal mask 52 while scraping the cream solder 55, and the cream solder 55 is printed on the insulating substrate 53. . (For example, see Patent Document 1)

  In general, the insulating substrate 53 is in a curved state as shown in FIG. 7 due to an external environment or a change over time. Therefore, the metal mask 52 placed on the curved insulating substrate 53 is also in a curved state. .

  The squeegee 51 moves in a state where only one contact point P of the lower portion 51a of the flat plate-like squeegee 51 is in contact with (supported) on the metal mask 52. When the squeegee 51 is moved in the support state by the contact point P, the support of the squeegee 51 is unstable and causes an inclination as shown in FIG. 7, and therefore, the distance from the metal mask 52 in the lower part 51a on both ends of the squeegee 51 is different. As a result, the print quality deteriorates and the print quality varies greatly.

Japanese Patent Laid-Open No. 2002-200736

  In the conventional cream solder printing apparatus, one contact point P of the lower portion 51a of the flat squeegee 51 comes into contact with the curved metal mask 52 placed on the curved insulating substrate 53. The support of the squeegee 51 is unstable and tilts, so that the distance from the metal mask 52 in the lower portions 51a on both ends of the squeegee 51 is different, resulting in poor print quality and large variations in print quality. There is.

  SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a cream solder printing apparatus with stable squeegee support and good print quality.

  As a first solving means for solving the above-mentioned problems, a metal mask made of a flat plate, having a through hole at a predetermined location and placed on an insulating substrate, and disposed on the metal mask, the metal mask A movable squeegee for printing cream solder on a mask on the insulating substrate, and urging means for urging the squeegee onto the metal mask, the squeegee having both ends in the width direction of the squeegee A pair of support members extending in a direction orthogonal to the part side, and a contact body provided at a location of the support member and in contact with the metal mask or the insulating substrate, and when the squeegee is moved, At least the first contact point at the lower part of the squeegee and the first and second contact points of the contact body provided at the location of the pair of support members are used.

As a second solution, the pair of support members are arranged to face each other in a state of being positioned in front of the moving direction of the squeegee.
As a third solution, the contact body has a configuration in which a lower portion of the support member is formed by a contact portion that contacts the metal mask or the insulating substrate.

  As a fourth solution, the contact body is formed of a roller, and the roller is rotatably attached to each of the pair of support members, and the metal rotates while the roller rotates while the squeegee moves. It was set as the structure made to contact on a mask or the said insulated substrate.

Further, as a fifth solution, the pair of rollers are arranged so as to be inclined in a letter C shape with a larger interval toward the metal mask side.
As a sixth solution, the contact body is configured to contact the metal mask outside the printing area.

The cream solder printing apparatus of the present invention comprises a metal mask that is formed of a flat plate and has a through-hole provided at a predetermined location and placed on an insulating substrate, and the cream solder on the metal mask is disposed on the metal mask. A movable squeegee for printing on an insulating substrate and a biasing means for biasing the squeegee onto the metal mask, the squeegee extending in a direction orthogonal to both ends of the width direction of the squeegee A support member and a contact body provided at a location of the support member and contacting the metal mask or the insulating substrate, and when the squeegee moves, the squeegee is at least a first contact point below the squeegee; It was set as the structure supported at the 1st, 2nd contact point of the contact body provided in the location of a pair of supporting member.
That is, the squeegee moves while being supported at the first contact point at the lower part of the squeegee and the first and second contact points of the contact body provided at the pair of support members. Even when the insulation substrate and the metal mask are curved, the distance between the lower part on both ends of the squeegee and the metal mask is constant, improving the print quality and reducing the print quality variation. Is obtained.

  In addition, since the pair of support members are disposed facing each other in a state of being positioned in front of the movement direction of the squeegee, a stable movement of the squeegee can be obtained.

  In addition, since the lower part of the support member is formed by the contact portion that contacts the metal mask or the insulating substrate, the contact body has a simple configuration and a good productivity.

  In addition, the contact body is formed of a roller, and the roller is rotatably attached to each of the pair of support members. When the squeegee is moved, the roller rotates while contacting the metal mask or the insulating substrate. Smooth movement of the squeegee can be obtained.

  In addition, since the pair of rollers are arranged to be inclined in a letter C shape with a larger interval toward the metal mask side, the movement of the squeegee is smooth and a stable movement of the squeegee can be obtained.

  In addition, since the contact body is brought into contact with the metal mask outside the printing region, it is possible to obtain a contact member that does not interfere with printing and does not adversely affect printing quality.

  Referring to the drawings of the cream solder printing apparatus of the present invention, FIG. 1 relates to a first embodiment of the cream solder printing apparatus of the present invention, and is a schematic view seen from the front, and FIG. 2 is a schematic diagram of the cream solder printing apparatus of the present invention. FIG. 3 is a plan view according to the second embodiment of the cream solder printing apparatus of the present invention, FIG. 3 is a schematic view seen from the front, and FIG. 4 is according to the second embodiment of the cream solder printing apparatus of the present invention. FIG. 5 is a schematic view of a cream solder printing apparatus according to a third embodiment of the present invention as viewed from the front.

  Next, the configuration of the first embodiment of the cream solder printing apparatus according to the present invention will be described with reference to FIGS. 1 and 2. A movable flat plate-like squeegee 1 includes a flat plate-like portion 1a arranged in a vertical state. A pair of support members 2 projecting in a direction orthogonal to each other from the lower portions 1b located at both ends in the width direction of the flat plate-like portion 1a and extending opposite to each other, and a contact body 3 provided at the place of the support member 2 are provided. Have.

  The insulating substrate 4 for forming the circuit board is placed on a table (not shown), and the metal mask 5 made of a metal flat plate is provided with a plurality of through holes (not shown) at predetermined locations. The metal mask 5 and the insulating substrate 4 are mounted.

  On this metal mask 5, the squeegee 1 is placed in a state of being pressed by an urging means 6 such as a spring, and at least a first contact point P1 of the lower portion 1b of the flat plate portion 1a and a pair of support members. The first and second contact points P2 and P3 of the two contact bodies 3 provided at the two locations are contacted (supported) on the metal mask 5 while being pressed by the urging means 6, and the squeegee 1 is moved. Is moved in a state supported by three points (P1 to P3).

  The support member 2 provided in the squeegee 1 is arranged in front of the movement direction A of the squeegee 1, the support member 2 is positioned in front of the squeegee 1, and the contact body provided in the place of the support member 2. The squeegee 1 scrapes off the cream solder 7 supplied onto the metal mask 5 while the front of the metal mask 5 is pressed by 3.

  In the first embodiment, the contact body 3 is formed by a contact portion in which the support member 2 directly contacts the metal mask 5, and the contact body 3 moves in a position outside the printing area. It has become.

  In the above embodiment, the contact body 3 moves on the metal mask 5, but the contact body 3 may move on the insulating substrate 4.

  Next, a printing method in the cream solder printing apparatus of the present invention will be described. First, the insulating substrate 4 is supported on a table (not shown), and a metal mask 5 is placed on the insulating substrate 4. Is done.

  In general, the insulating substrate 4 is in a curved state as shown in FIG. 1 due to an external environment or a change over time. Therefore, the metal mask 5 placed on the curved insulating substrate 4 is also in a curved state. At the same time, the squeegee 1 placed on the metal mask 5 and repressed by the urging means 6 has a point P1 at the center of the lower portion 1b of the flat plate portion 1a and a support member as shown in FIGS. The two first and second contact points P2 and P3 of the two contact bodies 3 are in contact (supported).

  When the squeegee 1 is supported at three points, the squeegee 1 moves in a stable state, and the distance between the squeegee 1 and the metal mask 5 at the lower portions 1a on both ends in the width direction becomes equal. The cream solder 7 is printed on the insulating substrate 4 by sliding on the metal mask 5 while scraping off the solder 7.

  3 and 4 show a second embodiment of the cream solder printing apparatus according to the present invention. The configuration of the second embodiment will be described. The contact body 3 is formed of a roller, and the roller as the contact body 3 is A shaft 8 is rotatably supported by the support member 2 so that when the squeegee 1 moves, the roller as the contact body 3 rolls.

  Other configurations are the same as those of the first embodiment, and the same parts are denoted by the same reference numerals, and the description thereof is omitted here.

  FIG. 5 shows a third embodiment of the cream solder printing apparatus according to the present invention. When the configuration of the third embodiment is described, the distance between the roller as the contact body 3 and the metal mask 5 increases. It is arranged in a C-shape with a camber.

  Other configurations are the same as those of the second embodiment, and the same parts are denoted by the same reference numerals, and the description thereof is omitted here.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a cream solder printing apparatus according to a first embodiment of the present invention as viewed from the front. The top view which concerns on 1st Example of the cream solder printing apparatus of this invention. The schematic diagram seen from the front in connection with 2nd Example of the cream solder printing apparatus of this invention. The top view which concerns on 2nd Example of the cream solder printing apparatus of this invention. The schematic diagram seen from the front in connection with 3rd Example of the cream solder printing apparatus of this invention. Sectional drawing of the principal part which concerns on the conventional cream solder printing apparatus. The schematic diagram seen from the front in connection with the conventional cream solder printing apparatus.

Explanation of symbols

1: Squeegee 1a: Flat part 1b: Lower part 2: Support member 3: Contact body 4: Insulating substrate 5: Metal mask 6: Energizing means 7: Cream solder 8: Shaft P1: First contact point P2: Second Contact point P3: third contact point A: moving direction

Claims (6)

A metal mask made of a flat plate and provided with through-holes at predetermined locations and placed on the insulating substrate, and disposed on the metal mask, for printing the cream solder on the metal mask on the insulating substrate A movable squeegee, and urging means for urging the squeegee on the metal mask, the squeegee extending in a direction perpendicular to both ends of the width direction of the squeegee, and a pair of support members The contact member is provided at a location of the support member and contacts the metal mask or the insulating substrate, and when the squeegee is moved, the squeegee is at least a first contact point below the squeegee, A cream solder printing apparatus, which is supported at first and second contact points of the contact body provided at a location of a pair of the support members. 2. The cream solder printing apparatus according to claim 1, wherein the pair of support members are arranged to face each other in a state of being positioned in front of the moving direction of the squeegee. 3. The cream solder printing apparatus according to claim 1, wherein the contact body is formed by a contact portion in which a lower portion of the support member contacts the metal mask or the insulating substrate. The contact body is formed of a roller, and the roller is rotatably attached to each of the pair of support members. When the squeegee is moved, the roller rotates on the metal mask or the insulating substrate. 3. The cream solder printing apparatus according to claim 1, wherein the cream solder printing apparatus is in contact with each other. The cream solder printing apparatus according to claim 4, wherein the pair of rollers are disposed so as to be inclined in a letter C shape with a larger interval toward the metal mask side. 6. The cream solder printing apparatus according to claim 1, wherein the contact body is in contact with the metal mask outside a printing area.

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