This application claims the priority of German Patent Application, Ser. No. 102 43 663.0-53, filed Sep. 20, 2002, pursuant to 35 U.S.C. 119(a)-(d), the disclosure of which is incorporated herein by reference.
The present invention relates, in general, to a method and apparatus for making bonded discs of two substrates, in particular for making DVDs (DVD audio, DVD video, DVD-R, DVD-D and other DVD formats), UDOs (Ultra Density Optical) discs or blueray discs or other types of optical data carriers.
In producing a DVD, UDO or blueray disc two substrates are bonded to obtain a finished optical data carrier. Both substrates are hereby made in an injection molding machine, transferred to one or more metallizing stations in correspondence to the format of the respective data carrier, for application of one or more metal coatings, and immediately thereafter or following a temporary storage of both substrates supplied to a bonding station. The substrates pass in the bonding station initially an adhesive application station in which one or both substrates to be joined together are coated with an appropriate adhesive. Subsequently, the substrates are advanced to one or more joining stations in which the substrates are placed upon one another and bonded together. Examples of adhesives used by adhesive application station typically include hot melt, molten hot-melt adhesive, or a liquid, normally low-viscous UV-curing adhesive. Hot-melt adhesive is applied by a roller system equipped with a doctor blade, whereby the substrates move side-by-side or in sequence under the doctor blade. The UV-curing adhesive is applied by a metering needle onto one or both substrates. The substrates are joined together in the joining station and the adhesive is cured. In the case of the UV-curing adhesive, the application of UV radiation is additionally needed.
European Pat. No. EP 0 735 530 A1 discloses a bonding station in which two DVD substrates are initially moved side-by-side to an adhesive application station of the hot melt type. Once the adhesive has been supplied, one of the substrates (substrate A) is transported to a station in which a UV-curable adhesive is filled in a recess of the substrate. The other substrate (substrate B) is then transferred from a substrate transfer device (so-called pick-and-place tool) to a turning device, also called flip station, and rotated there by 180°, so that the side of the substrate having the applied adhesive faces downwards. This substrate is then moved by the turning device over the first substrate and stacks it thereon. The so-joined DVD substrates are seized by a further pick-and-place tool and placed in a press where both joined DVD substrates are pressed together under pressure to make the finished DVD. Pressure application is implemented in a vacuum chamber having a bottom part with a glass window which is transparent to UV-radiation so that the DVD can be irradiated with ultraviolet for curing the UV-curing adhesive in the recess. Subsequently, the finished DVD can be extracted from the press station. Normally, the DVDs are then carried onto a quality inspection station to check for defects and, depending on the inspection, placed onto spindles for acceptable products (spindles for good parts, called “good-item spindles”) or onto spindles for parts of poor quality (called “bad-item spindles”). This type of conventional bonding station has many drawbacks. Since the DVD substrates are transported through the bonding station side-by-side before being joined together, there is a great demand for space. Moreover, the bonding station requires the use of several pick-and-place tools between the stations for adhesive application, joining, pressing and quality inspection. Each pick-and-place tool requires space so that again the demand for space is great. Also, as the transport devices and the pick-and-place tools must be synchronized to one another during operation to provide the joining station with an A substrate and a B substrate in the correct production cycle, possibly simultaneously, the electronic control and the software become complex in order to accomplish a proper interaction of the mechanical components in the correct production cycle. Further, the roller system in the hot-melt adhesive application station has to be sized wide enough to enable a simultaneous coating of both substrates A and B with adhesive. As the doctor blade becomes slightly bent hereby during application of the adhesive onto the neighboring substrates, the adhesive is applied at an uneven pressure onto the substrates. The pressure is higher in the middle of the doctor blade than at the margins so that the substrates are coated unevenly with adhesive, leading to unbalances during bonding of the substrates.
International publication no. WO 01/63605 A1 discloses a bonding station which applies a hot-melt adhesive by a roller system with a doctor blade onto the DVD substrates, whereby the DVD substrates are transported to the adhesive application station in a row behind one another (A-B-A-B-A-B- . . . ). After leaving the adhesive application station, the substrates coated with adhesive are simultaneously seized by a tandem gripper and transferred to one of two joining stations. The joining stations are made of two closeable halves, with one half forming the bottom part and the other half forming the lid. The A substrate is placed in one half and the B substrate is placed in the other half. The substrates are suitably fixed and centered in both halves, e.g. on vacuum plates with centering pins. Subsequently, the lid part is moved onto the bottom part and both halves form a chamber which can be evacuated. The substrates A and B are joined together in this chamber and subjected to additional pressure to compress them. After the hot-melt adhesive has cured, the chamber can be opened and the finished DVD can be removed by a pick-and-place tool. Then, the DVD undergoes a quality inspection, normally a scanner, and is deposited, in dependence on the result of the inspection, onto a spindle for acceptable items (good-item spindle) or a spindle for unacceptable item (bad-item spindle). This bonding station has the drawback that after the adhesive application, several gripper systems, such as tandem gripper and a pick-and-place tool, are needed during transfer to the individual work stations. These gripper systems require a large operating area in the bonding station. Moreover, the movements of the tandem gripper and the pick-and-place tool must be synchronized to suit the production cycle.
European Pat. Nos. 0 791 666 A2 and 0 791 667 A2 disclose the provision of a central handling system implemented as turntable which has several gripper arms with gripper elements for receiving, holding and depositing substrates. The gripper arms have a same radial length and are mounted in a plane at a certain angle relative to one another to the turntable. Thus, the gripper elements are disposed on a circle with a certain radius. Arranged on the circle are various transfer and processing stations. Through vertical movement of the turntable, the substrates can be lifted from or deposited on the respective transfer or processing station. As the turntable rotates, the individual gripper arms are moved in circumferential direction to transport the substrates from station to station. One of the gripper arms may be moved separately in circumferential direction in relation to the simultaneous movement of the remaining gripper arms so as to allow this gripper arm to target alternatingly two stations situated on a circle, typically the good-item spindle, on the one hand, and the bad-item spindle, on the other hand. This type of central handling system is unsuitable for bonding DVD substrates, because there are no provisions to transport two DVD substrates in suitable manner or to allow simultaneous grabbing of two substrates in a transfer station and to deposit them in a joining station.
It would therefore be desirable and advantageous to provide an improved method and apparatus for making bonded discs, to obviate prior art shortcomings and to enable a bonding of DVD substrates in a simple manner within minimum space requirements and short cycle periods.
According to one aspect of the present invention, a method of making bonded discs, in particular optical data carriers such as DVD, UDO disc or blueray disc, includes the steps o producing two substrates, coating at least one of the substrates with an adhesive, placing the substrates in standby position in a transfer station, transporting the substrates from the transfer station to a joining station, depositing the substrates in the joining station, bonding the substrates, opening the joining station and withdrawing the joined disc, inspecting the joined disc for compliance with quality standards, and placing the disc on a stack of acceptable discs or on a stack or rejected discs in dependence on the outcome of the inspection, wherein the substrates and the joined disc are handled in a circular manner for transport along two concentric circular paths of different diameter, thereby defining an inner circle and an outer circle, with one substrate transported on the inner circle and the other substrate transported on the outer circle.
In this way, several processing stations can be targeted within a shortest possible time and operated simultaneously. This has a positive effect on the cycle period.
According to another feature of the present invention, at least one of the substrates can be metallized before executing the adhesive application step.
According to another aspect of the present invention, an apparatus for making bonded discs of two substrates, in particular for making optical data carriers such as DVD, UDO disc or blueray disc, includes an adhesive application station for coating at least one of the substrates with an adhesive; a plurality of processing stations, disposed downstream of the adhesive application station, for further handling the substrates, said processing stations arranged about a circle and including a transfer station for placing the substrates in a standby position for further processing, at least one joining station for joining and bonding the substrates to produce a finished disc, at least one quality inspection station for checking the disc for acceptance or rejection, a first delivery station for receiving the disc, when the disc is acceptable, and a second delivery station for receiving the disc, when the disc is unacceptable; and a central handling system in the form of a carousel which includes a plurality of gripper arms and is constructed to move the gripper arms in horizontal and/or vertical direction into a number of indexing positions, wherein a first type of the gripper arms has two gripper elements arranged behind one another in radial direction so as to enable the second gripper arm to sweep with the gripper elements over two concentric circles of different diameter, when the gripper arms are moved in circumferential direction.
According to another feature of the present invention, the two gripper elements of the second gripper arm have a distance from another to allow a simultaneous seizing of the substrates.
As alternative, or in addition thereto, the carousel may have a gripper arm constructed for telescopic movement in radial direction or including a part that moves in radial direction.
According to another feature of the present invention, there may be provided one or more additional joining stations, wherein each of the joining stations is comprised of two halves which are provided for receiving the substrates and configured to open up and close, wherein the joining stations are so positioned that their halves extend behind one another, when the halves are in open position, with one half situated on the inner one of the two concentric circles and the other half situated on the outer one of the two concentric circles.
According to another feature of the present invention, the first and second gripper arms number a total of five gripper arms which are positioned in spaced-apart relationship in such a manner that four gripper arms are spaced from one another at an angle of 60° and two gripper arms are spaced from one another at an angle of 120°.
According to another feature of the present invention, the processing stations are disposed on a circle in spaced-apart relationship at an angle of 60°, whereby the carousel is indexed to rotate the gripper arms in clockwise direction as well as counterclockwise direction to pause by these processing stations as well as to pause in neutral in-between positions.
Depending on the DVD to be produced, it may be necessary to supply so-called dummy substrates, i.e. uncoated substrates, or spacers to the central handling system. Spacers are necessary when the DVD is configured without stacking blocks to maintain stacked DVDs at a distance on the spindles.
According to another feature of the present invention, the drive of the carousel may be constructed to move the first and second gripper arms in the horizontal direction, and there may be a further drive for separately moving the first and second gripper arms in the vertical direction. In this way, the flexibility of the bonding station can be enhanced.
Other features and advantages of the present invention will be more readily apparent upon reading the following description of currently preferred exemplified embodiments of the invention with reference to the accompanying drawing, in which:
Throughout all the Figures, same or corresponding elements are generally indicated by same reference numerals. These depicted embodiments are to be understood as illustrative of the invention and not as limiting in any way. It should also be understood that the drawings are not necessarily to scale and that the embodiments are sometimes illustrated by graphic symbols, phantom lines, diagrammatic representations and fragmentary views. In certain instances, details which are not necessary for an understanding of the present invention or which render other details difficult to perceive may have been omitted.
Turning now to the drawing, and in particular to
As shown in
The vacuum joining stations 5, 6 have each two halves 33, 34 which can be moved into an open position and moved into a closed position and which are arranged in relation to the carousel 20 in such a manner that the half 33 is situated on the inner circle and the half 34 is situated on the outer circle. In this way, the substrates A, B can be placed simultaneously in both halves 33, 34 of the joining stations 5, 6. The mode of operation of the joining stations 5, 6 is generally known to the artisan (e.g. International publication no. WO 01/63605 A1) so that a further discussion thereof is omitted for the sake of simplicity.
The substrate transfer station 19, the vacuum joining stations 5, 6, the quality inspection station 7, one good-item spindle 9 as well as the substrate receiving point of the flip station 10 are arranged along a circle in six positions that are separated by one another by a 60° angle. The five gripper arms 22, 23, 24, 25, 26 are arranged on the carousel 20 in spaced apart relationship such that four 60° angles and one 120° angle are defined, whereby the bisecting line 35 of the 120° angle is in alignment with the center line of the long gripper arm 26.
The mode of operation of the apparatus according to the invention will now be described in more detail with reference to
In
Next, the carousel 20 is indexed by 30° clockwise to halt the gripper arms 22, 23, 24, 25, 26 again in the 60° processing stations and the joining station 6 is opened. This stage is shown in
Next, the carousel 20 rotates clockwise by 60° to position the long gripper arm 26 over the new substrates A3, B3, which have been moved in the meantime to the standby position on the centering pins of the substrate transfer station 19, while the short gripper arm 24 is halted over the previously bonded disc AB1. Thus, the substrates A3, B3 as well as the disc AB1 can now be handled by the central handling system 4, as shown in
The carousel 20 is then indexed counterclockwise by 30° to move the gripper arms 22, 23, 24, 25, 26 to the respective 60° processing stations, whereby the gripper arm 24 with the bonded disc AB1 is halted adjacent the quality inspection station 7. At the same time, the joining station 5 is opened and the previously bonded disc AB2 is readied in the inner half 33 for further processing. This stage is shown in
Subsequently, the carousel 20 is indexed clockwise by 30° to move the gripper arms 22, 23, 24, 25, 26 into the neutral position between the processing stations so that the space above the joining station 5 is cleared to enable the inner half 33 to move over the outer half 34 (
The carousel 20 is now rotated clockwise by 30° so that the disc AB2 can be carried onto the quality inspection station 7, while the previously inspected disc AB1 is held in the joining station 5. The joining station 6 is opened again, with the produced disc AB3 readied in the inner half 33 for subsequent transfer. This stage is shown in
Subsequently, the carousel 20 is indexed clockwise by 60° so that the disc AB1 is positioned by the gripper arm 22 over the good-item spindle 9, while the long gripper arm 26 is halted over the substrates A5, B5 and the short gripper arm 24 has reached the joining station 6. When disc AB1 has passed inspection and is considered acceptable, the disc AB1 is stacked on the good-item spindle 9, as shown in
In the next step, the carousel 20 is indexed counterclockwise by 30° to move the gripper arms 22, 23, 24, 25, 26 into their neutral position so that the joining station 6 can now be closed to join and bond the substrates A5, B5 to form disc AB5, as shown in
Next, the carousel 20 is indexed counterclockwise by 120°, as shown in
Turning now to
Referring now to
While the invention has been illustrated and described in connection with currently preferred embodiments shown and described in detail, it is not intended to be limited to the details shown since various modifications and structural changes may be made without departing in any way from the spirit of the present invention. For example, is, of course possible, to use adhesives other than hot melt, and/or to use joining stations of different configuration commensurate with the adhesive being used. The embodiments were chosen and described in order to best explain the principles of the invention and practical application to thereby enable a person skilled in the art to best utilize the invention and various embodiments with various modifications as are suited to the particular use contemplated.
What is claimed as new and desired to be protected by Letters Patent is set forth in the appended claims and their equivalents:
Number | Date | Country | Kind |
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102 43 663.0-53 | Sep 2002 | DE | national |