Dual track stenciling system with solder gathering head

Coating apparatus – Projection or spray type – With mask or stencil

Reexamination Certificate

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Details

C118S213000, C118S313000, C101S044000, C101S114000, C101S127100, C427S096400, C427S282000, C198S817000

Reexamination Certificate

active

06663712

ABSTRACT:

FIELD OF THE INVENTION
This invention relates generally to the field of circuit board manufacturing and more specifically to a method and apparatus for improving the performance of circuit board stenciling operations.
BACKGROUND OF THE INVENTION
As it is known in the art, the success of circuit board manufacturers is measured in terms of the number of defect-free products they are able to supply in a given time period. Unfortunately, the achievement of desired productivity levels is hampered by the accuracy requirements inherent in providing such defect-free products. The accuracy requirements become even more difficult to attain as technological advances command smaller component sizes and more pins per package fitting on a circuit board with very closely spaced pads. Defective boards may be either rejected outright or reworked, both of which costs time and increases expense.
For example, the typical circuit board manufacturing process includes three basic operations, each of which is usually performed by an independent machine. These operations include stenciling of a pattern of solder onto the pads of an incoming circuit board, placement of components on the pads of the board, and heating the board to establish the integrity of the contact between the solder and the board, the pins of the components, and the pads.
The stenciling and the placement operations must be performed in a precise manner to ensure that a defect-free product is provided. The stenciling operation is typically performed by a stencil machine. Boards that are fed into the stencil machine have a pattern of pads or other, usually conductive surface areas onto which solder will be deposited. In addition, one or more small holes, or marks, called fiducials, are provided on the board for alignment purposes. The stencil machine also typically includes a stencil (or screen) having a pattern of apertures etched through the stencil that matches the expected solder pattern to be placed on the circuit board.
When the circuit board is fed into the stencil machine, it first must be aligned with the stencil to make sure that the circuit board is appropriately aligned with the apertures of the stencil. One apparatus for performing this task is an optical alignment system that is introduced between the circuit board and the stencil for aligning the fiducials of the board with one or more fiducials on the stencil. For example, optical alignment systems provided by MPM™ Corporation, such as those described in U.S. Pat. No. 5,060,063, issued Oct. 21, 1991, by Freeman and in U.S. Pat. No. RE 34,615 issued Jan. 31, 1992 by Freeman, each of which is incorporated herein by reference, may alternatively be used.
When the board has been aligned with the stencil, it is raised to the stencil, solder is dispensed on the stencil, and a wiper blade (or squeegee) traverses the stencil to dispense the solder through the apertures of the stencil onto the board. After stenciling is complete, the board is lowered and forwarded to a pick and place machine that places electrical components at specific locations on the board.
The pick and place machine provides the components that are required by the board. Components are placed at the appropriate locations (the location of solder deposition performed by the stencil machine) and with the proper orientation on the circuit board. Because of the number of pins of a component and the proximity between the pins, it is essential that the pick and place machine operate to precise standards to ensure the correct placement of the component upon the soldered connections. Thus the pick and place machine must also perform alignment checks before operation.
The next step in the process is to forward the circuit board having the components laid upon the stenciled solder to a reflow machine. The reflow machine heats the existing solder to cause the solder to form tight connections with the pins of the components that were placed by the pick and place machine and the pads or other surfaces of the board.
In the systems described above, the accuracy required in the printing of solder on circuit boards and in the placement of components on the printed solder leads to the use of alignment procedures for the circuit board which cause delays in the manufacturing process. In addition, there is an added element of delay, referred to as ‘dwell time’ at the pick and place machine as the pick and place machine waits to receive a board from the stenciling machine. Each of these delays reduces the overall performance and productivity of the manufacturing process. It would be desirable to develop a method and apparatus for increasing the throughput of the circuit board manufacturing process.
SUMMARY OF THE INVENTION
According to one aspect of the invention, a stenciling system for use in a circuit board manufacturing process includes a plurality of sets of rails, each of said plurality of sets of rails for supporting and advancing a plurality of circuit boards through said stenciling system and a solder gathering squeegee arm, disposed over the plurality of sets of rails, for depositing solder on a screen during the stenciling of a first circuit board on a first one of the plurality of sets of rails, and for removing excess solder from the screen after the stenciling of the first circuit board. With such an arrangement, a flexible dual track stenciling system is provided that is not restricted to any particular processing sequence because solder is retained in the solder head rather than left on the screen.
According to another aspect of the invention, a method for processing circuit boards in a stenciling system having two tracks is provided. Each track has a loader for accepting circuit boards and advancing said boards to like positions within the tracks. The stenciling system includes a solder dispensing mechanism for dispensing solder on a stencil disposed over the tracks and for removing excess solder from the stencil. The method includes the steps of receiving a pair of boards, each one of the pair of boards on a different one of the tracks, engaging the pair of boards, the stencil and the solder dispensing mechanism, advancing the solder dispensing unit over the stencil over a first one of the pair of circuit boards on a first one of the tracks to dispose solder through the stencil onto the first one of the pair of circuit boards, removing, by the solder dispensing unit, excess solder from the stencil, advancing the solder dispensing unit to a second one of the tracks, and advancing the solder dispensing mechanism over the stencil over the second one of the pair of circuit boards on the second one of the tracks to dispose solder through the stencil onto the second one of the pair of circuit boards. With such an arrangement, by using a solder dispensing mechanism that is capable of both dispensing and removing excess solder, both circuit boards may be simultaneously engaged and serially stenciled in the dual track stenciling system, thereby increasing the overall performance and flexibility of the system.
According to another aspect of the invention, a stenciling system for use in a circuit board manufacturing process includes a plurality of sets of rails, each of the plurality of sets of rails for supporting and advancing a plurality of circuit boards through the stenciling system, and a solder dispensing head, disposed over the plurality of sets of rails, for depositing solder on a stencil during the stenciling of a first circuit board on a first one of the plurality of sets of rails.
According to another aspect of the invention, a method for processing circuit boards in a stenciling system having two tracks is provided. Each track has a loader for accepting circuit boards and advancing the boards to like positions within the tracks. The stenciling system includes a solder dispensing mechanism for dispensing solder on a stencil disposed one the tracks. The method includes the steps of receiving at least one boards on one of the tracks, engaging the at least one board, the stencil and the solder dispensing mechanis

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