EP2593283A1

EP2593283A1 - Carrier for a silicon block, carrier arrangement having such a carrier and process for producing such a carrier arrangement

Info

Publication number: EP2593283A1
Application number: EP11730315.6A
Authority: EP
Inventors: Michael Essich; Marc Schuster
Original assignee: Gebrueder Schmid GmbH and Co
Current assignee: Gebrueder Schmid GmbH and Co
Priority date: 2010-07-15
Filing date: 2011-07-08
Publication date: 2013-05-22
Also published as: TWI538775B; TW201208808A; WO2012007381A1; MY162295A; US20130112185A1; DE102010031364A1; CN103140336B; JP2013531388A; JP5869566B2; KR20130127973A; CN103140336A

Abstract

A carrier (13) for a silicon block (31) is designed to be firmly connected as part of a carrier arrangement (11), together with a lower carrier part (25), to the silicon block (31), and to be moved together therewith for machining by sawing, cleaning or the like. The underside of the carrier (13), which points towards the silicon block (31), has a plurality of channels (29), as does the lower carrier part (25) bonded thereto, the channels (29) in each case lying one above another. Water is introduced into the channels (29) in the carrier (13) from above and can run through sawing slots in the lower carrier part (25) between the wafers of the sawn-up silicon block (31) for cleaning purposes.

Description

, ,

description

Support for a silicon block, carrier arrangement with such a carrier and method for producing such a carrier arrangement

Field of application and state of the art

The invention relates to a support for a silicon block, a carrier assembly and a method for producing such a carrier assembly.

It is known from DE 102009023121 A1 and DE 102009023122 A1, to produce a support for a silicon block made of plastic or ceramic. The carrier is used for better handling of the silicon block in various steps, especially when sawing, wherein the silicon block is adhered to the underside. In such a carrier continuous inner longitudinal channels are integrated. These longitudinal channels are sawn from below when sawing the silicon block. This makes it possible to introduce water or other cleaning liquid in the longitudinal channels, so that it then enters from above into the interstices between the individual sawed wafers and rinses there sawdust residues.

The cleaning effect achieved thereby is very advantageous. However, the introduction of the integrated longitudinal channels in the carrier of the materials mentioned is a considerable expense.

Task and solution

The invention has for its object to provide a support mentioned above, a corresponding carrier assembly and a method for producing such a carrier assembly with which probable The prior art can be achieved and, in particular, an advantageous, inexpensive and process-reliable method can be created for producing and using such a carrier.

This object is achieved by a carrier with the features of claim 1, a carrier assembly with the features of claim 9 and a method for producing such a carrier assembly with the features of claim 14. Advantageous and preferred embodiments of the invention are the subject of further claims explained in more detail below. Some of the following features are mentioned only for the carrier or only for the carrier arrangement or only for the method. However, they should be able to apply independently to both the carrier and the carrier assembly or method. The wording of the claims is incorporated herein by express reference.

It is envisaged that the carrier is designed to be fixedly connected as part of a carrier arrangement with a silicon block, which is usually quite heavy and weighs a few kg. In this case, the carrier does not even have to be firmly connected directly to the silicon block or it is envisaged that it will not be connected directly to the silicon block. For this purpose, a later explained in more detail carrier base is advantageously provided, which is attached to the bottom of the carrier, and on this support base in turn, the silicon block is fixed, in particular glued in a known manner. The carrier assembly is therefore divided into two parts in the sense that the one-piece carrier in the aforementioned prior art now consists of two parts, namely the carrier and the carrier base. The carrier as part of the carrier assembly may be connected to the carrier base and this unit in turn may be connected to the heavy silicon block. - -

This can be moved with the carrier assembly for processing by sawing, cleaning or the like.

Advantageously, the carrier itself can be designed to be attached to movement devices, with which it is retracted into a saw or a cleaning device, advantageously by fastening means such as screwing or the like. At its pointing to the silicon block underside, the carrier has a plurality of wells, Channels or cuts on. These are open at the bottom at the bottom. They are then later closed or covered by the carrier base and, so to speak, are transformed from open channels that are easy to produce to integrated inner longitudinal channels, which in turn are much more difficult to produce on their own. The carrier lower part with the silicon block in turn is intended to be sawn during sawing down to the recesses mentioned and in any case until complete separation of the individual wafers. Thus, the carrier with a carrier lower part together forms a carrier arrangement, as is known in one-piece form from the aforementioned prior art.

Advantageously, a plurality of parallel open channels are provided in the manner of grooves in the underside of the carrier. Particularly advantageous they run along the longitudinal direction of the carrier and may preferably have regular distances from one another. Thus, for example, it may be 4 to 10 depressions or channels, which advantageously extend at the same distance from one another along the longitudinal direction of the carrier.

In an advantageous embodiment of the invention, the underside of the carrier is flat or flat except for the recesses, channels or cuts mentioned. It can be provided that the carrier has a substantially constant thickness and in particular is a kind of plate. It is advantageous as in the known carrier arrangements - - oblong and rectangular, as otherwise usually the silicon blocks.

On the upper side of the carrier fastening means may be provided in an embodiment of the invention, with which the carrier can be attached to an aforementioned movement device or a handling device. The composite of carrier assembly and silicon block can then be gripped and moved on the attachment means. In a preferred embodiment of the invention, the fastening means are designed as fastening projections with threaded holes. In this case, they can particularly preferably point upwards for a screwing-in direction perpendicular to the carrier. However, various other fastening means are conceivable and known to the person skilled in the art.

Advantageously, the carrier may be made of metal. It is particularly advantageous from steel or stainless steel. Its dimensions may correspond to conventional carrier arrangements in terms of length and width and, above all, depend on the silicon blocks with which it is to be connected. The thickness of the support may vary between 1 cm and 3 cm, for example about 2 cm. This allows the heavy silicon blocks to be well held and transported. Its length can be between 20 cm and 50 cm, under some circumstances even more. In general, it can be advantageously provided that the carrier or at least one rectangular carrier plate, which essentially forms it, is in one piece and in one piece. The aforementioned fastening means can then be subsequently attached to the support plate or already worked in one piece or molded.

A cross-section of the recesses, channels or cuts can basically be arbitrary. Advantageously, they are rectangular or round, in particular semicircular. They can be made by milling. - -

In yet another embodiment of the invention, the wells, channels or incisions may be closed down, but liquid-permeable closed. This can be done just above the bottom. Advantageously, a closure can be done by a type of perforated grid or perforated plates. This liquid-permeable closure serves essentially as a kind of diffuser or distributor. Thus, water introduced into the depressions can emerge downwards out of the depressions in approximately evenly distributed manner and enter into the intermediate spaces between the wafers via the sawing gaps in the carrier lower parts fastened to the carrier at the bottom. Thus, it can be ensured that even when water is introduced at only one or two points per well or channel, there is an approximately uniform entry of water into the kerf between the wafers.

One way known from the prior art to introduce water into the wells of a finished carrier assembly is to access the initial and final apertures of the resulting longitudinal channels. A further advantageous possibility is that the depressions in the carrier and thus the integrated longitudinal channels are accessible from above or from its upper side. For this purpose, supply channels may be provided in the carrier. Advantageously, such inlet channels connect several recesses, channels or cuts with each other. This means that they are formed, for example, transversely to the direction of the depressions and are also incorporated at the bottom. They can be accessible through holes through the top. In a further embodiment, projections may be provided on the upper side, which have such an inlet channel and for connecting a water supply or the like. can serve. - -

The said distribution effect of introduced water on the various wells, in particular with the aforementioned feed channels, based on the fact that in the finished carrier assembly then the carrier base is attached to the carrier. An advantageous possibility here is a bonding of the carrier with the carrier base. The carrier base is a wear part used only once, since it is also sawed when sawing the silicon block itself. To remove it from the carrier, the bonding can be solved in a conventional manner, for example chemically or thermally. Then the carrier can be cleaned on its underside of adhesive residues and then glued back to a new carrier base. With this new carrier assembly, a new silicon block can be connected, in particular also be glued to it, for subsequent processing steps such as sawing or cleaning.

In a carrier assembly according to the invention, the carrier is metallic and on its underside a carrier base is attached to which in turn a heavy silicon block can be attached, for example, durable and stable by sticking. The carrier base is made of non-metallic material and has recesses, channels or grooves on its upper side connected to the carrier. These may correspond to the form or from the training forth the depressions, channels or notches or grooves, as they have been previously described for an advantageous embodiment of the carrier. In this case, the carrier itself need not necessarily be provided on its underside with such wells. It is quite obvious that, after the connection of the carrier to a carrier base, there is a carrier arrangement in the form of a plate which, like the known and initially mentioned carrier arrangements, identifies one or more advantageous integrated longitudinal channels which are sawed when sawing a silicon block fastened to the carrier arrangement at the bottom , By introducing water into the longitudinal channels, it is then possible to - - Made the already described and known beneficial cleaning effect. Even with this relatively simple design of the carrier and the lower carrier part, it is possible to remove the sawed and used carrier base from the carrier and attach a new carrier base to it. So not only the wearer can be used again. Above all, it is also much easier to produce the depressions, channels or cuts in the lower carrier part and in particular on the carrier itself on its underside, if this is a freely accessible surface. With a metal support, they can be milled. In a carrier base made of non-metallic material, preferably glass or ceramic, they can be produced in the production by extrusion with a corresponding profile. By connecting the carrier and the lower carrier part, recesses present on an open side become an integrated channel or longitudinal channel. So important are the wells, channels or cuts in the carrier base or here they are essential. Although they are advantageously provided in the carrier or on its underside, this need not be the case.

Generally, said depressions, channels or cuts may have a depth of a few millimeters, for example 3 mm to 12 mm. Their width can also be a few millimeters, advantageously 3 mm to 15 mm.

Such a carrier base is used particularly advantageously in a carrier arrangement according to the invention with a carrier mentioned at the outset, which has recesses of corresponding design on its underside. This means that they run exactly one above the other and in particular also have exactly the same width. Furthermore, it is possible that they have exactly the same shape. - -

The carrier base should occupy the same area as the carrier itself, so be about the same size. Advantageously, they also have similar thickness, for example, the few centimeters mentioned above.

These and other features will become apparent from the claims but also from the description and drawings, wherein the individual features each alone or more in the form of sub-combinations in an embodiment of the invention and in other fields be realized and advantageous and protectable Represent embodiments for which protection is claimed here. The subdivision of the application into individual sections and subheadings does not restrict the general validity of the statements made thereunder.

Brief description of the drawings

Embodiments of the invention are shown schematically in the drawings and are explained in more detail below. In the drawings show:

1 is a sectional view through a carrier assembly a carrier and not yet arranged on the underside carrier base,

2 shows a representation of the underside of the carrier of FIG. 1 with individual outlet holes, FIG.

3 is a plan view of the carrier base with matching to the outlet holes of FIG. 2 longitudinal channels,

4 is a sectional view similar to FIG. 1 with carrier and lower carrier part joined together as a carrier arrangement and silicon block on the carrier lower part, FIG. - -

Fig. 5 is an illustration of the underside of a modification of the carrier similar to FIG. 2 with continuous longitudinal channels, which are covered with a perforated grid and

Fig. 6 is a section similar to Fig. 1 in high magnification showing a perforated grid over an outlet channel.

Detailed description of the embodiments

In Fig. 1, a carrier assembly 1 1 is shown as it is being assembled or manufactured. The carrier assembly 1 1 has a carrier 13 in the form of an elongated rectangular plate, wherein the carrier 13 is cut along its width, for example, is halved in length. It has a carrier upper side 14 and a carrier lower side 15, the latter being essentially planar. The stable support 13 is advantageously made of steel or tool steel or stainless steel and may generally be between 20cm and 50cm long, sometimes longer.

On the support base 15 a plurality of outlet holes 17 are provided, which are recognizable from the representation in Fig. 2 as round holes. So they break through the carrier base 15 so that it is flat or flat except for the outlet holes 17. The outlet holes 17 are connected to each other by means of feed lines 18 in the carrier 13, which are shown in dashed lines in FIGS. 1 and 2. The connection pattern may be as shown here, but may also deviate therefrom, in particular towards the center region, significantly more outlet holes 17 for a particularly improved cleaning there. To produce the leads 18 can for example be drilled from the side into the carrier 13 and these openings are then closed outside again.

In the upper region of the carrier 13, the leads 18 go up into two ports 19 left and right over. The connections 19 are - - in the fastening projections 21 and can be connected in a manner not shown with water or Reinigungsflüssigkeitszuleitun- gene. Furthermore, the fastening projections 21 each have a central thread 22 on which the carrier assembly 1 1 can be fixed in a known manner.

Advantageously, the carrier 13 has four such fastening projections 21 on its upper side 14 of the carrier. Thus, four terminals 19 may be provided to the leads 18, but it may also be more or less. The outlet holes 17 may have a diameter of a few millimeters, for example 1 mm to 6 mm, advantageously about 3 mm to 5 mm.

The carrier base 25 shown in Fig. 1 is advantageous in terms of length and width similar to the size of the carrier 13, wherein a top 26 and a bottom 27 are basically flat. However, while the bottom 27 is advantageously designed completely flat and without interruptions or recesses or projections, the top 26 has a plurality of open channels 29. These extend with advantageously straight extension over the entire upper side 26 from the front to the rear end of the carrier base 25 and extend parallel to each other, although at different distances. This can be seen from the top view of the carrier lower part 25 according to FIG. 3. The carrier lower part 25 advantageously made of a glass or ceramic material, particularly advantageously made of glass, alternatively of plastic.

As shown in FIG. 1, the channels 29 are arranged exactly so that they correspond to the rows of the outlet holes 17 in the longitudinal direction of the carrier 13 or, in the assembled state, are located exactly below the channels 29. This can be seen below from FIG. 4. The width of the channels 29 may also be approximately in the range of the diameter of the outlet holes 17, alternatively, some of it may differ. Among themselves However, the channels 29 are each the same and advantageously have a rounded cross-section, for example semicircular or semi-oval. Advantageously, they are even a little deeper than wide.

In Fig. 4, the composite or assembled carrier assembly 1 1 is shown in a simplified representation. Here, the carrier base 25 is attached or glued with its upper side 26 to the carrier base 15 of the carrier 13.

Due to the combination of materials steel for the carrier 13 and glass or ceramic for the carrier base 25, a conventional adhesive can be used for the gluing, which also in the prior art so-called beams made of glass or ceramic are glued to a support made of steel. Later, these beams will be replaced again, which will be explained below.

The outlet holes 17 in the carrier 13 are located exactly above the channels 29 of the carrier base 25. At the lower carrier part 25 and its bottom 27 is a heavy silicon block 31 is fixed, and in turn glued. Also, this sticking is done, as known in the art and has the advantage of secure support of the heavy silicon block and the possibility of subsequent detachment. The carrier base 25 is then no longer usable, only the carrier 13th

The carrier assembly 11 of FIG. 4 thus substantially corresponds to a carrier arrangement known from the prior art mentioned at the beginning, namely with internal and quasi-integrated longitudinal channels. These are essentially generated by the channels 29. They may be closed at the ends or openings at the end to the outside, for example by plugging or the like, to the water only - - but not through the crevices between the wafers for improved cleaning.

By sawing the silicon block 31, this is separated into individual silicon wafers or wafers. Shown dashed is a sawing line 32, to which a sawing wire extends or is sawn up to the sawing. It can be seen that all longitudinal channels 29 are sawn from below and thus the same cleaning effect can be achieved, as it is also known from the aforementioned prior art. In this respect, it is referred to.

One of the advantages of the invention, which is also shown in this embodiment, is that these channels 29 can now be supplied or flooded with water or cleaning liquid by means of the connections 19, supply lines 18 and outlet holes 17 above them. A feed can be made much more uniformly by the distributed outlet holes 17, whereas in the aforementioned prior art it was only possible via the two ends or openings of the channels 29. Thus, a better cleaning effect is possible. It can also be advantageously provided that the beginning and end openings of the channels 29 to be recognized in FIG. 4 are closed, so that water or cleaning liquid can only actually escape through the sawn wafer of the silicon block 31.

Another great advantage of the invention is that a carrier base 25 may be formed as a wear part because it is sawn, ie in turn made of glass, ceramic or a similar material or even plastic. By providing the channels 29 on its upper side 26, their production is also much easier than with closed integrated longitudinal channels as known in the prior art, the channels 29 are advantageously introduced even during the preparation of the carrier base 25. This can be - - Without any additional step in a continuous casting or the like. respectively.

The carrier 13 itself is not a wearing part and can be reused frequently. After removing the sawed-out wafers, it is only necessary to remove the used or sawed-off carrier lower part 25 by releasing the adhesive bond. Then the carrier base 15 can be cleaned and glued to a new carrier base 25.

Furthermore, the production of the water supply is easier, so the attachment of the outlet holes 17 and the leads 18 together with terminals 19 in the support 13 made of steel. They can each be drilled in a known manner. Since the carrier 13 can be reused frequently, it is also worthwhile to provide the relatively complicated system of outlet holes 17 together with feed lines 18 and connections 19.

In Fig. 5, an alternative embodiment of a support 1 13 is shown similar to FIG. 3, namely as a view of a carrier base 1 15 of the carrier 1 13. Here, instead of the individual outlet holes 17 as shown in FIG. 2, a plurality of long outlet channels 1 17 provided along the Thus, these outlet channels 1 17 correspond to the channels 29 in the carrier lower part 25 corresponding to FIGS. 1 and 3. These outlet channels 1 17 are even easier to manufacture than the plurality of outlet holes 17 according to FIGS. 1 and 2, for example appropriate milling or cutting.

On the one hand, it is possible in a variant that the outlet channels 1 17 are simply open and water, which is introduced by supply lines, not shown here, exits arbitrarily in the outlet channels 1 17 and from there into the directly adjacent channels 29 in the top of the carrier base 25th , - -

For a somewhat better distribution of supplied water can be provided, as Fig. 6 shows in an enlarged sectional view shows that a perforated grid 120 is used, so to speak, in the outlet channels 1 17. This may be a press fit, alternatively gluing or screwing. The perforated grids 120 thus cover, as it were, all the outlet channels 17, ie are located between them and the channels 29 in the upper side of a suitable carrier lower part 25. The perforated grids 120 have a multiplicity of holes with advantageously quite a small distance. For example, the holes may have a diameter of about 1 mm and a distance of 1 mm to 3 mm, but in some cases also slightly more or less.

The advantage of these holes in the perforated grid 120 is that they have a strong distributing effect on the water introduced from above, so that they are evenly distributed over the length of the channels 29 regardless of how far a certain point away from a feed line Effect an influx of water. From Fig. 6 it can be seen that in the space in the outlet channel 1 17 above the perforated grid 120 water can freely distribute over the length of the outlet channel for an approximately uniform outlet down. Thus, the cleaning effect on all sawn wafers of the silicon block 31 is the same. Thus, while still a plurality of mutually branched leads 18 may be provided according to FIGS. 1 and 2, but it does not have to be so complex. Under certain circumstances, even a supply line extends transversely to the outlet channels 1 17, which has an opening to each of them, whereby this transverse feed line must have only a single connection. So not only the connection is simplified, but also the production of the carrier 1 13 itself. - -

In a not shown here, with reference to FIG. 4 but easily imaginable embodiment, a carrier above no holes or channels or the like. on its underside, but is a closed or massive steel plate with a flat and closed bottom without recesses. This is a carrier base according to FIG. 4 attached by gluing. Because the carrier base has longitudinal channels on its upper side, as described above, integrated longitudinal channels as described in the aforementioned prior art can also be produced. Their production is considerably simpler, however, since it is only the lower part of the support that needs to have the channels on its upper side and thus on the outer side, which simplifies production. The introduction of water or cleaning liquid then takes place at the ends of the channels via their local openings, as also described in the prior art.

Claims

claims

A support for a silicon block, wherein the support is adapted to be fixedly connected to the silicon block as part of a support assembly and to be moved therewith for machining by sawing, cleaning or the like, the support being at its to the silicon block pointing bottom several recesses, channels or cuts has.

2. A carrier according to claim 1, characterized in that a plurality of parallel channels are provided in the manner of grooves in the bottom, preferably along the longitudinal direction of the carrier, in particular at regular intervals from each other.

3. A carrier according to claim 1 or 2, characterized in that the bottom is flat except for the depressions, channels or cuts, wherein in particular the carrier has a substantially constant thickness.

4. Carrier according to one of the preceding claims, characterized in that on its upper side fastening means are provided for attachment to a moving device such as a saw or a cleaning device, wherein in particular the fastening means are designed as upwardly facing fastening projections with threaded holes.

5. Carrier according to one of the preceding claims, characterized in that it consists of metal, in particular steel or stainless steel.

6. A carrier according to any one of the preceding claims, characterized in that the carrier consists essentially of a rectangular support plate, which is in particular in one piece and in one piece, to which preferably the aforementioned fastening means according to claim 4 are placed or are present on its upper side.

7. A carrier according to any one of the preceding claims, characterized in that the depressions, channels or cuts or grooves are closed liquid-permeable down, in particular just above the bottom, they are preferably closed by perforated grid or perforated plates.

8. Carrier according to one of the preceding claims, characterized in that the depressions, channels or notches or grooves in the bottom are accessible from above, in particular by inlet channels, wherein preferably the inlet channels a plurality of recesses, channels or notches or grooves interconnect and accessible to the top or in protrusions on the top.

9. A carrier arrangement with a carrier, in particular with a carrier according to one of the preceding claims, wherein the carrier is metallic, wherein on the underside of the carrier, a carrier base is attached to attach a silicon block thereto, in particular is glued, which consists of non-metallic material , Wherein the carrier base has depressions, channels or notches or grooves on its upper side connected to the carrier.

10. A support arrangement according to claim 9, characterized in that the carrier base consists of glass or ceramic.

1 1. A carrier assembly according to claim 9 or 10, characterized in that the depressions, channels or notches or grooves have a depth of a few millimeters, in particular 3 mm to 12 mm, and have a width of a few millimeters, in particular 3 mm to 15 mm.

12. Carrier arrangement according to one of claims 9 to 1 1, characterized in that grooves or depressions are provided both on the underside of the carrier and on the upper side of the carrier base, which run exactly one above the other, in particular with exactly the same width.

13. A carrier assembly according to any one of claims 9 to 12, characterized in that the carrier and the carrier base are congruent or are the same size, preferably having similar thicknesses.

14. A method for producing a carrier assembly according to any one of claims 9 to 13, characterized in that a carrier according to one of claims 1 to 8 is glued to a carrier lower part.

15. The method according to claim 14, characterized in that a used carrier assembly is cleaned after detachment of the sawn silicon block and the bond between the carrier and carrier base is dissolved, in particular chemically or thermally, wherein subsequently the carrier, in particular on its underside, of adhesive residues odgl , is cleaned and then glued to a new carrier base.