KR101119368B1 - Bidirectional multi-squeegee device - Google Patents

Abstract

The present invention relates to a bidirectional multi squeegee device, and more particularly, to a bidirectional multi squeegee having a first squeegee and a second squeegee spaced apart from each other with a center squeegee and a center squeegee interposed therebetween. According to the bidirectional multi-squeegee device according to the present invention, since the two squeegee performs the printing process in the forward and reverse direction, it is possible to achieve a good printing effect of the solder paste, and squeegee by symmetrically arranging a plurality of squeegee of different lengths. There is an advantage that the change of direction of the device is made quickly.

Squeegee, Bidirectional, Multi, Dual, Solder Paste

Description

Bidirectional Multi Squeegee Device {BIDIRECTIONAL MULTI-SQUEEGEE DEVICE}

The present invention relates to a bidirectional multi squeegee device, and more particularly, to a bidirectional multi squeegee having a first squeegee and a second squeegee spaced apart from each other with a center squeegee and a center squeegee interposed therebetween.

In general, a printed circuit board is a method of printing a solder paste (Solder Paste) by the screen printing method on the surface on which various component elements are mounted in the SMT (SURFACE MOUNT TECHNOLOGY) method.

The screen printing method is a method of forming a bump using solder paste on an external connection pad of a printed circuit board, and electrically connecting the same by wiring and soldering the electronic component mounted thereon.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows the process of apply | coating solder paste to a board | substrate by the screen-printing method using the conventional squeegee apparatus.

As shown in the drawing, when the substrate 1 is provided, a mask 3 having an opening at the application position of the solder paste 5 is disposed thereon. Thereafter, the solder paste 5 is applied on the mask 3 and the solder paste 5 is printed by the squeegee device 7 through the opening of the mask 3.

However, since the squeegee device 7 according to the related art has only one squeegee 9, there is a problem in that a printing defect occurs when the squeegee 9 is bent or the squeegee 9 is damaged during use.

FIG. 2 is a diagram schematically showing a bad printing state which may occur when the squeegee 9 is bent or damaged.

FIG. 2A is a view showing a case where the solder paste 5 enters the opening of the mask and the printing residue of the solder paste 5 remains around the printing area, and FIG. 2B shows a small amount of the solder paste 5 as the opening of the mask. ) Is a drawing of a solder short state in which only a solder is printed, and FIG. 2C shows an excess state of solder 5 in which the solder paste 5 is applied to the periphery of the printing area of the substrate 1 by the excessive input of the solder paste 5. Drawing.

The print defects shown in FIGS. 2A and 2C cause solder-bridge defects that are shorted between bumps after the reflow process, and in the case of the print defects shown in FIG. 2B, after the reflow process This causes open defects.

In addition, the printing process of the solder paste 5 may be performed several times. At this time, the squeegee 9 converts the direction in which the squeegee 9 is reversed to perform the reciprocating printing process or separate squeegee for printing in the forward and reverse directions. (Not shown) may be provided to proceed with the printing process. However, in the former case, it is cumbersome to rotate the squeegee 9 by 180 ° in order to change the moving direction of the squeegee 9, and in the latter case, the equipment design is complicated in that a plurality of squeegee devices must be driven. There was a costly and expensive problem.

Therefore, even if the squeegee is damaged to compensate for it to ensure good printing characteristics, there is a need for a squeegee device capable of bidirectional printing with a simple configuration.

The present invention was created to overcome the problems of the prior art as described above, it is possible to perform a good printing process even if any one is damaged by having a plurality of squeegee, bidirectional multi squeegee is easy to change the direction of progress of the squeegee device Suggest a device.

A bidirectional multi-squeegee device according to the present invention includes a central squeegee and a first squeegee and a second squeegee disposed between the central squeegee and shorter than the central squeegee; And a squeegee holder for fixing the central squeegee, the first squeegee, and the second squeegee at regular intervals.

As a preferable feature of the present invention, the length of the second squeegee is the same as that of the third squeegee.

According to another preferred aspect of the present invention, there is provided a pivot shaft mounted to the holder in a direction perpendicular to the guide rail such that the holder is rotatable; And a drive motor for rotationally driving the holder about the pivot axis.

As another preferable feature of the present invention, the central squeegee consists of two squeegee having the same length spaced apart from each other.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may properly define the concept of the term in order to best explain its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

According to the bidirectional multi-squeegee device according to the present invention, since the two squeegee performs the printing process in the forward and reverse direction, it is possible to achieve a good printing effect of the solder paste.

In addition, there is an advantage that the direction of the squeegee device is changed quickly by symmetrically arranging a plurality of squeegee of different lengths.

Hereinafter, a preferred embodiment of a bidirectional multi-squeegee device according to the present invention will be described in detail with reference to the accompanying drawings. Throughout the accompanying drawings, the same or corresponding components are referred to by the same reference numerals, and redundant descriptions are omitted. In this specification, terms such as first and second are used to distinguish one component from another component, and a component is not limited by the terms.

3 is a schematic structural diagram of a bidirectional multi-squeegee device according to a preferred embodiment of the present invention. As shown in the drawing, the bidirectional multi-squeegee device according to the present embodiment includes a central squeegee 310, a first squeegee 330, a second squeegee 350, and a squeegee holder 500 spaced apart from each other at regular intervals. ) Is a configuration that includes.

The squeegee holder 500 is configured to fix the squeegee so that the squeegee moves linearly along the guide rail 200. The squeegee holder 500 according to the present embodiment includes a plurality of fixing parts to fix the plurality of squeegee.

Meanwhile, a pivot shaft 550 in a direction perpendicular to the guide rail 200 is installed at one side of the squeegee holder 500 so that the squeegee holder 500 can be rotated. The squeegee holder 500 may be driven to rotate about the pivot shaft 550 by a driving motor (not shown). In detail, the squeegee holder 500 rotates about the pivot axis 550 to be positioned at the first position in the forward direction along the guide rail 200 and the second position in the reverse direction along the guide rail 200. Can be fixed in position. Here, the first position may be defined as a position at which an angle formed by a center axis of the squeegee holder 500 and a line perpendicular to the guide rail 200 forms α, and the second position is a line perpendicular to the guide rail 200. It can be defined as a position symmetrical with respect to the first position with respect to. At this time, α is determined in consideration of the material constituting the squeegee and the viscosity of the solder paste 400 to be applied is not limited to a specific value.

The squeegee holder 500 rotates only between the first position and the second position, and the squeegee holder 500 does not rotate in a range outside of the squeegee holder 500. To this end, the pivot shaft 550 may be configured with an anti-rotation jaw (not shown), whereby the squeegee holder 500 can firmly support the squeegee from the load transmitted to the squeegee.

The squeegee passes through the solder paste 400 on the substrate 100 through the opening 630 formed in the mask 600 while passing through the mask 600 disposed on the substrate 100 on which the solder paste 400 is to be applied. It is a structure to print. The squeegee may be made of rubber or a metal having elasticity, for example, a metal of SUS series.

The squeegee device according to the present embodiment includes a central squeegee 310, a first squeegee 330, and a second squeegee 350. In this case, the first and second squeegee 350 is disposed with the center squeegee 310 interposed therebetween, and the length of the first squeegee 330 and the second squeegee is shorter than that of the center squeegee 310. That is, the central squeegee 310 may take the form of protruding between the first squeegee 330 and the second squeegee 350. Here, the long length of the squeegee is used to mean that the length of the squeegee itself is not only long, but also includes a long protrusion from the squeegee holder 500 by a position fixed to the squeegee holder 500. That is, by changing the position of fixing the squeegee of a predetermined length to the squeegee holder 500 can be used as the central squeegee 310 or the first and second squeegee 350.

In this case, an angle formed by a line perpendicular to the center squeegee 310 passing through the end of the center squeegee 310 and a line connecting the end of the center squeegee 310 and the first squeegee 330 is perpendicular to the guide rail 200. One line and the center line of the squeegee holder 500 may be defined the same as or similar to the angle (α) formed.

Meanwhile, as illustrated in FIG. 5, the central squeegee 310 of the bidirectional multi-squeegee device according to the present embodiment includes two squeegees spaced at regular intervals including a first central squeegee 310a and a second central squeegee 310b. It can be configured as.

When the central squeegee 310 is composed of one squeegee, as will be described later, since the central squeegee 310 is continuously used when the squeegee holder 500 moves forward and backward along the guide rail 200, In comparison with the first and second squeegee 350, damage due to abrasion of the central squeegee 310 may be increased. Therefore, by configuring the central squeegee 310 into two, the squeegee holder 500 can be distinguished from the squeegee used in the forward direction and the squeegee used in the reverse direction, and the first squeegee ( When the 330 and the first central squeegee 310a proceed in the reverse direction, the second squeegee 350 and the second central squeegee 310b may print uniformly in such a manner as to print.

Hereinafter, the use state of the bidirectional multi-squeegee device according to the present embodiment will be described in detail.

A substrate 100 to which the solder paste 400 is to be applied is prepared, and a mask 600 having an opening 630 is positioned above the substrate 100 at a position where the solder paste 400 of the substrate 100 is to be applied. do. Thereafter, the solder paste 400 is applied on the mask 600 and the squeegee device is moved to print the solder paste 400 on the substrate 100 through the opening 630 of the mask 600.

3 is a view showing a state in which the squeegee device is advanced in the forward direction (left to right direction) along the guide rail 200. In this case, as shown, the first squeegee 330 and the center squeegee 310 contact the mask 600 to perform printing of the solder paste 400. Since the first squeegee 330 and the central squeegee 310 print in duplicate, a good printing process can be performed even if any one is damaged.

When the forward printing process of the squeegee device is completed, the squeegee holder 500 is rotated from the first position to the second position about the pivot axis 550 by a driving motor (not shown), which is not shown. At this time, the squeegee holder 500 does not rotate the angle formed by the line perpendicular to the guide rail 200 by the anti-rotation jaw formed on the pivot shaft 550 more than α. That is, the squeegee device according to the present embodiment can be placed in a state capable of performing the reverse squeegee process only by 2 α rotation of the squeegee holder 500.

4 is a view showing a state in which the squeegee device is advanced from right to left along the guide rail 200. When the holder 500 is rotated and fixed to the second position, the squeegee holder 500 reversely proceeds. In this case, as shown, the second squeegee 350 and the center squeegee 310 are printed in duplicate. Since any one of them is damaged, a good printing process can be performed.

As such, when the squeegee device according to the present embodiment is used, the same effect as that of performing the squeegee process four times with one squeegee by one reciprocation of the squeegee device can be achieved.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

1 is a diagram showing a process of printing a solder paste on a substrate by a screen printing method using a conventional squeegee device.

FIG. 2 is a view illustrating an aspect of a defect that may occur when printing a solder paste with the squeegee device shown in FIG. 1.

3 is a view showing a process state of printing a solder paste in the forward direction by using a squeegee device according to a preferred embodiment of the present invention.

4 is a view showing a process state of printing a solder paste in a reverse direction using a squeegee device according to a preferred embodiment of the present invention.

FIG. 5 shows another embodiment of the squeegee device shown in FIG. 3 with two central squeegees.

<Description of the major signs>

100 Board 200 Guide Rail

310 Center Squeegee 330 First Squeegee

350 second squeegee 400 solder paste

500 Squeegee Holder 600 Mask

Claims (4)

An apparatus for applying a solder paste to a substrate along a guide rail using a mask placed on the substrate, A central squeegee and a first squeegee and a second squeegee disposed between the central squeegee and shorter than the central squeegee; And A squeegee holder for fixing the central squeegee, the first squeegee, and the second squeegee at regular intervals; Bidirectional multi squeegee device comprising a. delete The method of claim 1, A pivot shaft installed in the holder in a direction perpendicular to the guide rail such that the holder is rotatable; And A drive motor for rotationally driving the holder about the pivot axis; Bidirectional multi squeegee device, characterized in that it comprises a. The method of claim 1, The central squeegee is a bi-directional multi-squeegee device, characterized in that consisting of two squeegee of equal length spaced apart.

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