|Numéro de publication||USRE40383 E1|
|Type de publication||Octroi|
|Numéro de demande||US 10/786,915|
|Date de publication||17 juin 2008|
|Date de dépôt||25 févr. 2004|
|Date de priorité||7 juin 1999|
|État de paiement des frais||Caduc|
|Autre référence de publication||US6349832|
|Numéro de publication||10786915, 786915, US RE40383 E1, US RE40383E1, US-E1-RE40383, USRE40383 E1, USRE40383E1|
|Inventeurs||Tiang Fong Han|
|Cessionnaire d'origine||E.Pak Resources (S) Pte Ltd|
|Exporter la citation||BiBTeX, EndNote, RefMan|
|Citations de brevets (11), Classifications (15), Événements juridiques (3)|
|Liens externes: USPTO, Cession USPTO, Espacenet|
This invention relates to carriers for objects and more particularly to the easy identification and/or orientation of such carriers during manufacturing processes. The invention has particular relevance to the semiconductor industry.
In the semiconductor industry semiconductor chips such as microprocessors and the like are packaged on carriers called matrix trays. The matrix trays carry a number of semiconductor chips which are passed along a production line for assembly of completed circuit boards. The matrix trays are typically injection moulded plastics having a height of about 1 cm.
The trays carry technical information relevant to the tray, the chips carried or the process, such as temperature rating, part number, date code, etc. This technical information is usually embossed on the edge of the trays, which is typically about 1 cm high. As the trays flow through the production line the following inconveniences occur:
It has been proposed to use coloured stickers to help differentiate certain trays from others. However, the stickers need to be removed before delivery to customers and this sometimes leaves adhesive material on the tray.
In an attempt to overcome at least some of the disadvantages of existing matrix trays, in one broad form the invention provides a carrier for supporting one or more articles, the carrier including:
In a preferred form, the invention is a semi conductor matrix tray having at least one removable indicator means. The indicator means may be positioned prominently along one side of the tray and be assigned different colours, shapes or numbers to indicate technical information. Preferably the colours used for the indicator means contrast with the colour of the tray adjacent the indicator means.
Preferably the indicator means slides into a receptacle on one side of the tray. Preferably the receptacle and the indicator means are shaped so that only one orientation of the indicator means relative to the receptacle is allowed. The indicator means may have a receptacle which receives a protrusion on the tray.
Preferably the indicator means includes a first part which engages in or on the edge of the tray and a second part mounted on the first part. The first part may then be made of one of a series of different colours whilst the second part may also be made of one of a series of different colours and/or shape.
One or both of the first and second parts may be of a contrasting colour to the tray or the same colour. The second part may partially or totally obscure the first part when the indicator is mounted on the tray.
More than one indicator may be used on the one tray.
The invention will be more easily understood from the following non limiting description of a preferred embodiment and the drawings in which:
In the tray of
The bottom edge 44 of the rider has a semicircular recess 48 which corresponds to the protrusion 36 in the slot 28. The protrusion 36 and recess 48 prevent the rider being fully inserted into the slot 28 upside down.
Protruding from the front face 50 of the rider are three identical circular protrusions 52a, b and c. These protrusions 52 are preferably equally spaced from each other with the middle protrusion 52b located at the horizontal centre of the rider. Preferably the protrusion 52 extend horizontally along a line slightly below the vertical centre of the rider. The thickness of the main portion of the rider is equal to that of the slot 28, so the protrusions 52 extend proud of the end wall 30.
The width between the side peripheral walls 74 and the distance between the pin 72 and the end walls is very slightly less than the diameter of the pins 52 of the rider 40 so that the stud may be mounted on the rider 40 by pressing the stud onto two of the pins 52 in an interference fit. This interference fit is preferably loose enough to enable easy separation and assembly of the two parts but tight enough to prevent accidental separation. The rider may be placed on the centre pin 52b and left hand pin 52a or the centre pin 52b and right hand pin 52c. Whilst a “two pin” stud has been shown, it will be appreciated that a “three-pin” stud which obscures all of the rider 40 may be used.
Because the rider has the same depth as the slot 28, the stud sits proud of the end wall. Further, because the protrusions 52 sit slightly below the centre-line of the rider, the bottom of the stud overlaps the end wall 30. The stud also overlaps the edge of the end wall, due to the angling of the ends of the slot 28. This overlapping of the end wall is neither essential or disadvantageous. If desired, the rider and stud may be made so that the stud overlaps the end wall 30 to a greater extent or not at all.
The tray 10, rider 40 and stud 60 can be manufactured either of low or high temperature material, which is able to withstand baking temperatures from 0 degrees to 200 degrees Celsius. For low temperature materials ABS plastics can be used. For high temperature materials, preferably compounded fiber plastics are used. Preferably the parts are manufactured in different colours to provide immediate visual information to the user. Preferably, the same material is used for all components to avoid problems with different rates of thermal expansion, but this is not essential. As examples, the tray may be manufactured of a blue plastics material with the rider being manufactured in red, yellow and orange colours. The stud may be manufactured in white and blue colours. This gives six different rider/stud colour combinations.
The colour of the rider may be used to indicate a temperature rating whilst the colour of the stud could be used to indicate the status of the chips to be housed. One colour could mean good chips and another colour could mean reject chips requiring further analysis.
A second rider/stud may be provided to indicate the specific chip in a family of chips which is carried by the tray. Additional recesses and indicators as needed fall within the scope of the invention.
The use of contrasting colours also aids the user in both segregating different “types” of trays from each other but also aids in corrected alignment. For example, a yellow rider with a red 2 pin stud may be provided. The user will be educated to align the trays with the rider/stud combination at one end with the exposed part of the yellow rider to the right of the red stud.
It will be appreciated that the rider may be provided with more than three pins. For example, a four pin rider will allow a “two pin” stud to be placed centrally, with a pin exposed on either side or to be located to one side, with two pins exposed on either the left or right. Use of a three pin stud would allow one or two pins to be exposed, to either the left or right side of the stud. Thus the number and position of the exposed pins may be used in sorting and alignment, as well as the colours of the pin and stud.
Whilst the engagement of the rider with the tray in the preferred form of the invention utilises a recess into which the rider slides, the invention is not limited to this specific format. For example, the same pin/recess interference fit type engagement may be utilised to attach the rider to the tray.
It will be appreciated that many modifications may be made to the embodiment described herein to those skilled in the art without departing from the spirit or scope of the invention.
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|Classification aux États-Unis||206/724, 206/459.5, 206/725|
|Classification internationale||B65D1/36, H01L23/58, H01L21/00, H01L21/673, B65D85/90|
|Classification coopérative||H01L21/67294, H01L2221/68313, B65D1/36, H01L21/67336|
|Classification européenne||H01L21/67S8H, H01L21/673E1, B65D1/36|
|7 juin 2006||AS||Assignment|
Owner name: E.PAK RESOURCES (S) PTE LTD, SINGAPORE
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:WENG, CHOK CHUN;REEL/FRAME:017735/0514
Effective date: 20010918
Owner name: WENG, CHOK CHUN, MALAYSIA
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:FONG, HAN TIANG;REEL/FRAME:017735/0452
Effective date: 19990610
|5 oct. 2009||REMI||Maintenance fee reminder mailed|
|28 févr. 2010||LAPS||Lapse for failure to pay maintenance fees|