DE1009883B - High vacuum evaporation system - Google Patents

Description

GERMAN

In the case of an ongoing, if possible non-stop coating of a long, in particular tape-shaped Material, such as foils made of plastic and metal, paper and fabric webs, by vapor deposition or cathode sputtering of metal or dielectric materials in a vacuum results in both regarding the placement of the supply rolls as well as the gas release of most of these substances Difficulties caused by high vacuum, which allow rapid production and maintenance of the Prevent high vacuum during operation, thus reducing the cost-effectiveness of the process and have a disruptive effect on the quality of the vapor-deposited layers.

In order to ensure that when certain materials are coated, the gas is released in the evacuated working area remains within tolerable limits, according to a further suggestion, the band-shaped good became very tries to pass quickly through the working space with the lowest pressure. Not to mention The fact that the material is very stressed in the process is often the reason for this rapid passage impossible, because sometimes several layers have to be vapor-deposited one after the other, and this one cannot be done in a short period of time.

Since an exchange of goods bales placed directly in a high vacuum is a complete Removal of the vacuum requires and thus each time restoring the high vacuum Means a great loss of time, it has been proposed that the unwinding and winding reels in particular To accommodate spaces and the strip-shaped material through narrow slots in the evacuated To lead work space in and out of it. It has also been proposed that the material by a Pass a series of lock chambers with resilient sealing rollers.

In the process, however, the compact, closed design was lost, as was the technical and practical The value of such an investment is largely determined. In addition, the width of the feedthrough slots was of the lock chamber system cannot be adapted to the circumstances caused by the variable belt thickness and also vary greatly depending on the pressure and the gas release of the material passed through.

According to the invention, such a product in the form of a strip for vacuum coating is in particular by vapor deposition or cathodic sputtering suitable system with at least one for recording Unwinding or unwinding rolls of goods serving chamber, at least one other in the operating state high vacuum pressure chamber containing the vapor deposition or sputtering device contains, and with one both chambers both

High vacuum evaporation system

Applicant:

W. C. Heraeus

Limited liability company, Hanau / M., Heraeusstr. 12/14

Johannes Schwindt, Langendiebach (Kr.Hanau / M.), has been named as the inventor

The lock chamber system that connects the entrance and exit side is gradually sloping or sloping. increasing pressure, much improved. According to the invention, significant advances are made in that the partitions of the lock chambers are designed as externally adjustable slides to the Height of the narrow feed-through slots, the thickness and the operating condition of the channel to be passed through to be able to adapt ribbon-shaped good.

To further illustrate the invention, FIGS. 1 and 2 are two embodiments shown schematically in cross section.

With a design of high vacuum coating systems that is favorable taking into account the basic idea of the invention According to Fig. 1, in one of the two outer cylindrical frames, both the unwinding and the rewinding rolls 16 are located of the band-shaped work item 21 accommodated, while

Ȇ rend the other outer, stationary in the operating condition under high vacuum printing frame 1 contains the known Beschichtungsvorrichturtgen 14 and 15, however, the average frame 11, the input and output side lock chamber system 6 a or 6 b

receiving, by a concentrically within said frame a rotatably mounted cylinder 12 serves the band-shaped work material with its shell halves for supporting and guiding the up and unwound portions 21 and the remaining portions 6a and 6b of the annular space between the Zargeninnenwandung 1 and the surface of the Guide cylinder 12 is subdivided by radial partitions Ta and Tb , leaving a small amount of play forming the respective lead-through slot,

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which are adjustable in height from the outside to provide that a sufficient seal between the To be able to adapt the slot width to the work piece. individual chambers 6 α and 65 occurs without the

In another very advantageous embodiment, the surface of the strip-shaped material being formed, which is illustrated in FIG. 2, takes the middle one, which is damaged. At the beginning of Beschichtungsvorunter high vacuum pressurized frame 1, the loading 5 transition is the beginning of the to be vapor-deposited tape layering devices 14 and 15, while those with an at least paramagnetic metal strip both Außenzargen 2a and 2b connected to the establishment and which without difficulty by the unwinding of the goods rollers 16 serving Vorrichtun- lock chamber may be passed, contain rings and input it and the output side which is under the influence of the magnetic force lock chamber system 6 a and 6b, in the two i ° a angeordkurzen inside of the drum-like support prismatic joints 22 α or 22 ?; neten system from the electromagnet 19 to the top of the three frames. area is drawn. It can then be in the lock

In the embodiment according to Fig. 1 there are chambers 6 a and 6 b and the high vacuum chamber 1 in a cylindrical, either by lifting one of the low pressure, as it is required during operation of the front cover or a part of the front 15 is maintained while The frame 2, which is accessible in the supply cylinder jacket and which forms the antechamber, is used to replace the rolls of goods.

shaped good 21, which during the work process- The guide cylinder 12 is preferably double

ges runs off a role and is formed walled over guide rollers so that it can be cooled. 17 passes into the vacuum frame 1, which contains a guide cylinder 12 for the strip material and is expediently also a heating device for it. It is possible to connect two opposite ways according to the invention on the input side in individual intermediate chambers of the input and output chambers 6 α and on the output side in individual chambers 6 b side of the lock chamber system via the end with gradually decreasing or increasing pressure sides of the drum and is only divided by one . 25 common pump set to evacuate.

In the frame 1, the lowest pressure, such as In the high vacuum frame 1, the band 21 of the

maintained between 10- ² and 10- ⁵ Torr by coating work material on both sides, for example its interior by means of a poppet valve 5 to an out-heated by vacuum vapor deposition of the electrically beeiner diffusion pump 4 and a pre-vacuum pump 3, is connected to be vapor-deposited Good charged existing pump unit connected . They 30 evaporation crucibles 14 and 15. A protective screen 20 contains, for example, the evaporation crucible 14 attached underneath the belt that prevents splashes of the evaporating crucible 15 and the above rials from falling onto the foil strip 21, which are one of the two after

side coating of the passed band 21 Fig. 2 are used to allow the two outer frames 2α and 2b . 35 to accommodate the to be processed or the

The intermediate chambers 6 α and 6 b are also winding rolls of goods 16 of the strip-shaped goods via tubes 13 with suitable vacuum pump units 21. In the middle, under high vacuum pressure, gates 9 a and 9 b are connected. After a main the frame 1, the electrically heated melting ideas of the invention are the partitions Ta crucible 15 for coating from below and the melting or. 7 & between the individual lock chambers 6 a 4 ° crucible 14 arranged for coating from above. Above or 6 & formed so that they are simultaneously the lips of the latter, deflecting screens are attached, which form those of the feed-through slots and the height of the molecular beams of the evaporated material can be adjusted downwards from the outside to deflect the width of the through-holes. Adapt the two, compared to the frame feed-through slots, to the thickness of the knife to be coated, which are relatively short prismatic bandage-shaped workpieces. The medium-45 binding portions 22 and 22, respectively α b between the three sides moving guide cylinder 12 forms the other loading 2a, 2b and take 1 in this embodiment, the limitation of the lock slots. In a preferred entry-side lock chamber system 6 a and the embodiment shown in Fig. 1, there are exit-side lock chamber systems 6 b . The partition walls made of relatively thick strips subdivision into the individual lock chambers of a resilient material, mainly made of rubber, 5 ° is on the one hand by the fixed strips 10 α and 10 b whose edges at the slots by an elastic and on the other hand by the adjustable in height Covering made of rubber, plastic, but mainly from parts 7 α and 7 b achieved, which the lips are stiffened on metal and whose lateral extension worked in this way in their width of the tape thickness and the passage slots adaptable to regulate the sluice slot width by pressure conditions , form adjustable 55 that can be operated from the outside. The individual lock chambers can be regulated by pressure screws 23 so that pump units 9 are tightly held on the resilient lining at the most favorable pressure levels, but not too tightly. On the input and output sides, metal strips 21 that have been passed through are still pressed on. Α on the inlet as in our special vacuum chambers 11 and 11 b as on the discharge side of the tape is interposed in each case, the α by pump units Evain a chamber a Glimmkathode 18 or be kuiert 18 b ⁶ °, which in addition to mechanical backing pumps for advancement and After limiting the strip material or 9 α and 9 b , diffusion pumps 8 α and 8 b are also installed around the applied layer 1, which is their own. The glow cathodes 18 are positively influenced in various ways in the Vorratsschaf. frame 2α or 2b included. The latter are kept at a pre-pump pressure of at most a few meters per maintenance of a glow discharge and one second through the Vacuum chambers passed through - extensive degassing of the strip-shaped material. For this purpose, the supply rolls are driven.

adjustable and by means of the pressure screws 23 both for vapor deposition of thinner metallic

one can adjust the width of the feed-through slots as one-70 or dielectric layers as well as for application

gen suitable such coatings by sputtering on band-shaped material systems in accordance with the proposals of the present invention have properties that are wertvo ll for the practice extremely nd an enrichment of the art represent. For example, the system does not have the phenomenon that the air cushions formed in the high vacuum by escaping gas make the subsequent rolling up of the coated tape more difficult because these air cushions reduce the friction and cause the individual layers to slide sideways Band locations can give rise to. Rather, the majority of the escaping gas is sucked off in the chambers upstream of the high vacuum space or finally in the high vacuum space itself, and finally, even in the lock chamber system on the exit side, the passage time of the strip is so long that either adhering gas layers can diffuse again or evaporate. The measure known from an earlier proposal of avoiding the formation of gas cushions by very rapid passage through the high vacuum spaces, which can easily lead to damage to the tape or the applied layer, is therefore not necessary.

The system according to the invention, which is used for the continuous coating of strip-shaped material, is characterized is also characterized by a particularly compact spatial construction with the most economical use of space, without that the clarity as well as the possibility of simple operation and handling suffers. However, this also makes production relatively simple. In particular, the operating handles are for the sluice gate easily accessible from the outside and adjustable during operation so that the width of the Lock slots are not only adapted to the belt thickness, but also to the prevailing pressure conditions can be. As soon as a high vacuum is reached, the slot width can be adjusted on the high vacuum side be larger, so that the surface of the strip material is not mechanically stressed in a damaging manner will.

The operation of the plants according to the invention takes place in such a way that before opening the supply chambers 2 and 2a and 2b, the gate valve 7 are completely closed, so that the vacuum in the individual lock chambers 6 a and 6 b and 11a and 11b and in the high vacuum chamber 1 is not interrupted. The supply rolls are then exchanged by connecting the newly inserted tape to the end of the pretreated tape or, in the case of complete re-coating, to the end of a metal tape used for guidance. The sluice gate 7 are then to be adjusted from the outside to a slot width corresponding to the strip thickness. After the beginning part of the new strip has passed through the lock chambers and the high vacuum chamber, it arrives in the storage chamber 2b , where the end of the strip that has already been treated is cut off, its roll is removed and the beginning of the strip to be treated is connected to the supply roller . After closing the reservoir chamber 2 a and 2fc the evacuation of the reservoir chamber and the lock chamber and the high vacuum chamber can begin using the corresponding pump units and are made to achieve the required pressure conditions the coating. The strip-shaped material to be vaporized is replaced without any disturbance or interruption of the high vacuum in the vaporization chamber.

Claims (9)

Patent claims: 1. For vacuum coating of belt-shaped goods in particular by vapor deposition or sputtering suitable system with at least a chamber serving to receive rolls of goods to be unwound or wound up, at least one other chamber, which is under high vacuum pressure in the operating state, which the evaporation or cathodic sputtering devices, and having both chambers both inlet and outlet also on the exit side connecting lock chamber system gradually descending or ascending Pressure, characterized in that the partition walls of the lock chambers as of externally adjustable sliders are designed to match the width of the narrow feed-through slots To be able to adapt the thickness and the operating conditions of the strip-shaped goods to be carried out. 2. Plant according to claim 1, characterized in that in an outer cylindrical Frame both the unwinding and the unwinding supply rolls of the strip-shaped work item, in the other frame, which is under high vacuum pressure in the operating state, the coating devices are housed, whereas the middle frame is the one on the entrance and exit side Lock chamber system accommodates by a concentrically rotatably mounted within this frame Cylinder with its two shell halves for supporting and guiding the winding and unwinding Sections of the band-shaped work item is used and the remaining parts of the annular space between the inner Frame wall and the surface of the guide cylinder leaving a small, the respective Du-rchführungschlitz forming game is divided by radial partitions, the are adjustable in height from the outside in order to adapt the slot width to the thickness of the work item to be able to. 3. Plant according to claim 1, characterized in that a medium, under high vacuum pressure standing frame contains the coating devices, while two outer frames for the Take up and unwind the rolls of goods serving devices and a connecting Entrance and exit-side lock chamber system in the two short prismatic connecting pieces the three frames is misplaced. 4. Plant according to claim 2, characterized in that within the concentric in the central frame arranged guide cylinder for the strip-shaped work material a system of Electromagnet is attached, through which an additional guide tape from at least paramagnetic metal, which is connected to the beginning of the band-shaped work piece, firmly is pulled on the guide cylinder. 5. Plant according to claim 1 to 4, characterized in that the carrier for the rolls of goods can be heated and cooled. 6. Plant according to claim 1 to 5, characterized in that in the under high vacuum pressure standing frame facilities for coating on both sides are available. 7. Plant according to claim 2, characterized in that at least one lock chamber Glow cathodes are present, which are used in a manner known per se for pre- and post-treatment of the work item to be coated. 8. Plant according to claim 3, characterized in that glow cathodes in both outer frames are available for the per se known pre- and post-treatment of the work item. 9. Plant according to claim 1 to 8, characterized in that that means are provided by which the speed of the work material through the system on the drive for the Rolls of goods can be regulated. Considered publications:
U.S. Patent Nos. 2,384,500, 2,405,662. 1 sheet of drawings