Metal working – Means to assemble or disassemble – Means to assemble electrical device
Reexamination Certificate
2000-03-24
2004-08-17
Trinh, Minh (Department: 3729)
Metal working
Means to assemble or disassemble
Means to assemble electrical device
C029S743000, C029S281100, C029S790000, C269S903000, C269S266000
Reexamination Certificate
active
06775904
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention is directed to a method and an apparatus for supporting substrates in automatic equipping units, and more particularly to a method and an apparatus for supporting substrates that can adapt to particular substrate characteristics and then be set or fixed during equipping of the particular substrate with components.
When equipping substrates, such as printed circuit boards, with surface-mountable components, such as SMD components, automatic equipping units take the SMD components from delivery units and place them onto substrates in a predetermined position. Firmly clamped at two sides, a substrate usually rests on a conveyor belt within the automatic equipping unit. The substrates, particularly the printed circuit boards, are not ideally planar in practice, but instead sag either upward or downward by up to approximately 3 mm. Due to the mass of the substrates, very large and especially thin printed circuit boards usually sag down. Also, since the components are pressed onto the substrate with a certain placement force in order to adhere them to the substrate via an adhesive medium (for example, a solder paste, an adhesive or a fluxing agent), the suction pipette of the equipping unit presses the substrate down and thereby bends it downward. Dependent on the desired placement force and rigidity of the substrate, this sag can be on the order of millimeters. Due to ever increasing machine outputs, additionally, the placement speed of the suction pipette is so high that the substrate can be excited to vertical oscillations as though hit by a hammer. These oscillations are harmful for the component that is being equipped or placed by the suction pipette because the rebound of the substrate in an upward direction causes additional impact on the component that is not controllable and can destroy sensitive component parts.
The effects on the placement precision are not beneficial given larger component parts having a fine grid of terminal legs. When the substrate bends down, the component is often torn from the pipette when the adhesion of the adhesive medium on the plate is higher then the suction force of the pipette. Alternatively, the substrate is often whipped upward again by the adhesive medium when the suction force of the pipette exceeds the adhesion. This is particularly the case given components that are placed in low-adhesion agents (for example, a thin-bodied fluxing agent). When component parts move laterally or are not accurately or precisely positioned, the substrate can become unuseable in the worst case or can fail during later operation.
In addition, there is a risk that components already seated on the substrate will move laterally or loosen due to the jolts during equipping. This again applies to components using the low-adhesion agents or given especially narrow, high or heavy components having a relatively small adhesion surface area.
Rigid substrate supports have been previously employed in automatic equipping units. As a rule, a plurality of vertically upwardly residing supporting pins of identical length are arranged on a base plate. Before the equipping event, these approach the printed circuit board from below in order to support it. This support, however, only functions when the pins press directly against the printed circuit board. The supporting pins must therefore be moved up to such an extent with an accurate, reproduceable and adjustable drive until they just touch the substrate. This, however, is not possible in practice due to the addition of the aggregate tolerances of substrate seating height of the lifting drive, and of the planar surface tolerance or variation of the base plate over the entire surface.
For supporting a specific substrate, the supporting pins must be positioned at only those locations on the substrate that are free of components. No components can be equipped where the substrate is supported because the supporting pins could otherwise strike the components and damage them. When this happens at the edge in the proximity of the clamping, the substrate is forceably pressed up by the component height and is potentially likewise damaged.
The employment of fixed substrate supports is therefore difficult, inaccurate and labor intensive for the user which requires trained and especially conscientious operating personnel. This is all the more complex when, for example, anywhere from three to ten different substrate types are to be produced daily, whereby the arrangement of the supports must be changed exactly as often at every automatic equipping unit of a line.
SUMMARY OF THE INVENTION
One object of the present invention is to provide a method for supporting substrates in automated equipping units that can adapt to substrate surface and position variations. Another object of the present invention is to provide an apparatus for supporting substrates in automated equipping units that can adapt to surface and positional variations of the substrates. A further object of the present invention is to provide a method and an apparatus for supporting substrates in automated equipping units that utilizes supporting pins that initially can float or move in order to accommodate substrate variations and can also be locked in place during a particular placement operation.
These and other objects, features and advantages are provided by the method and apparatus of the invention. In one embodiment, a method for supporting substrates in automated equipping units includes first fixing the substrate in an equipping position. A base plate having vertically moveable supporting pins is provided whereby tips of the supporting pins each ride or bear on springs so that the tips can move relative to the base plate. The base plate and supporting pins are resiliently pressed against an underside of the substrate from the beneath the substrate. The height position of each of the tips of the supporting pins is then fixed in place.
In one embodiment, the method also includes the step of cancelling or releasing the fixed height positions of the tips of the supporting pins, moving the base plate downward and away from the substrate, and then releasing the substrate from the equipping units.
In one embodiment, the method also includes arranging the supporting pins in a fixed grid on the base plate.
In another embodiment of the invention, an apparatus for supporting substrates in automated equipping units includes a base plate having a plurality of supporting pins arranged thereon. Each of the supporting pins has a tip that is resiliently seated relative to the base plate so that the tip can move relative to the plate. Means are provided for independently and releasably fixing the position of each supporting pin tip relative to the base plate.
In one embodiment, the means for fixing the position of the supporting pin tips comprises a pneumatic break. In another embodiment, the base plate includes compressed air conduits for supplying compressed air for the pneumatic break.
In one embodiment, the supporting pins are arranged in a fixed grid on the base plate.
In one embodiment, each of the supporting pins includes a compressed air connection that is connected via a hose to a central compressed air supply.
In another embodiment of the invention, a base plate is provided for fastening supporting pins in a predetermined grid thereon. The base plate includes compressed air conduits through which the supporting pins arranged on the base plate are supplied with compressed air. This type of base plate is utilized in automated equipping units.
In another embodiment of the invention, supporting pins are provided for supporting substrates in automatic equipping units. The supporting pins are height adjustable in a telescoping manner and can be fixed in a set position.
In one embodiment, each of the supporting pins includes a height adjustable tip that is seated longitudinally and displaceable relative to a foot part of the supporting pin. The height adjustable tip can be fixed relative to the foot part with a switchable clamp mechan
Bell Boyd & Lloyd
Trinh Minh
LandOfFree
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