DE549776C - Process for the continuous production of a gold strip on a carrier strip made of inert material - Google Patents

Description

Process for the continuous production of a gold strip a carrier strip made of inert material The invention relates to a method for continuous production of a gold strip on a carrier strip made of inert Material by electrolytic deposition of a gold layer on an endless one Silver streak and subsequent chemical detachment of the latter as well as the one after products obtained using the new process.

The invention aims to achieve an over the whole area and in particular the length of the strip - uniformly thick gold layer, the thickness of which is approximately corresponds to that of beaten gold leaf. Such a uniformity of Thickness can not be achieved in those known methods, which of single sheets from slender metal (e.g. gold leaf), because here at the overlapping points always greater thicknesses occur. According to the invention, a continuous strip is obtained of the inert carrier material with the gold side of the silver stripe through an in the Heat-softening binder combined and the composite strip produced in this way the cold treated with the bath dissolving the silver layer, so that a continuous Gold strips on a base of the inert carrier material results. Another one The feature of the invention is that the composite strip with the silver layer after is guided down along the surface of the stripping bath, preferably in such a way that that the bath liquid only wets the underside of the strip. This is according to the invention achieved by the edges of the composite strip during the peeling of the Silver layer bends upward, preferably such that the composite strip rests against a guide plate arranged above the bath level and the edges be guided by rods running parallel to that guide plate. In the latter In the case, it is advantageous if the width of the carrier strip is chosen larger than those of the metal strips and only the mutually protruding edges of the carrier strip be bent up. For certain purposes it is advantageous if the binder only applied along two edge strips on the carrier tape and optionally the edge strips covered with adhesive are cut off after removing the silver, so that the gold strip rests loosely on the carrier strip. Over other Proposals for the continuous production of so-called embossing papers or The new process differs from strips of gold leaf of any length in that the precious metal is constantly during the entire period of its manufacture is supported by a carrier, which allows the thickness of the gold strip down to that of the struck gold leaf. The novelty of the invention is that the electrolytic gold deposit on the silver cathode tape without the use of insulating coatings the latter and also without using a nitric acid-resistant auxiliary carrier tape, e.g. B. from celluloid, generated and with the gold side on an inert - carrier, z. B. paper applied whereupon the silver layer of the paper, gold and silver is first The composite strip is detached with nitric acid and the gold is left on the paper backing will. Further advantages of the invention are that it enables great savings of valuable precious metal by reducing the waste to a minimum value and also in the purely mechanical implementation of all process stages, whereby in none of these does the thin gold layer remain free of any solid support.

The invention is illustrated in the accompanying drawings.

Fig. I shows schematically the different process stages of the electrolytic Precipitation of gold on a metallic cathode tape and the application of one Strip of greaseproof paper or other inert carrier onto the knocked down Gold surface of the cathode band using a waxy intermediate layer which softens in the heat.

Fig.2 shows schematically the treatment of the combined cathode strip with the electrolytic gold deposit and the inert carrier for removal of the cathode ribbon and creating an endless strip of electrodeposited Gold, which with the help of the heat-softening material on a endless carrier strip is applied.

Fig. 3 is a partial section along line 3-3 of Fig. I in essential enlarged scale.

Fig. 4 is a partial section along line 4-4 of Fig. 2 also in essential enlarged scale.

Fig.5 is a partial section similar to that of Fig. 4 and shows one Another embodiment according to the invention with removal of the cathode tape.

Fig. 6 is a cross-section through an assembled strip, as it emerges from the procedure according to Figure 5. This figure shows the dimensions for trimming lengthways in order to obtain the desired product.

Fig.7 gives a top view of a strip of paper on which his a water- and acid-proof adhesive was applied to the opposite edges. This strip represents an intermediate stage in the production of unlimited lengths of free gold applied to an inert carrier.

Fig 8 is a cross section through an assembled strip, the process stage shown in Fig. 7 was used in its production.

Figure 9 illustrates a modified procedural stage when used of tissue paper and the strip shown in Figure 8.

Fig. Io shows a roll of tissue paper of indefinite length with it on glued or freely applied gold film of indefinite length.

In Fig. I, i o denotes an electrolytic gold bath, for example a solution of potassium gold cyanide. The anode is labeled i i and consists preferably made of an insoluble metal, for example platinum. The cathode can in the form of an endless belt 12 preferably made of silver in a Thickness of the order of 0.0254mm, preferably even less, and more desirable Width, e.g. B. from i o i, 6 mm. Such a cathode band 12 is constantly through the bath passed through and the desired for the purpose of deposition of a gold film Thickness on one side of the tape of suitable electrolytic exposure subject. Such an endless belt can be drawn off from a supply roll 13 and is then guided over a rotatably mounted drum 14. That from the Bath emerging gold-plated silver tape 12a is treated in a suitable manner, to remove adhering electrolytes. Usually a bath is used for this 15 made of alkali and then a bath 1.6 made of water to wash out the alkali. That Belt 12a is then preferably heated, e.g. B. with the help of the electric heater 12b. Any number of pulleys 17 or the like is used to guide the belt 12a through the baths 15 and 16 to pass through.

The silver band 12 is by means of the spring or sliding contact 18 connected to the negative pole of a suitable power source. The drum 14, around which the cathode silver ribbon 12 is guided within the electrolyte is, can consist of hard rubber or a similar material, which is made of electrolytes i o is not attacked.

Appropriate tools are used to prevent this from happening see the gold precipitate forming on the opposite edges of the silver ribbon can. A? such an aid is given in general in. Fig. i and in Fig.3 can be seen in more detail. It consists of a pair of belts i9, 20, which with its upper Part iga around the circumference of the drum 14 over one side of the cathode belt 12 and with its other part igb over a role igc runs. Both straps 19 and 2o cover the opposite edges of the cathode band. The belts 19, 2o are preferably made of rubber and are in their position with the help guided by rollers 21, 22 arranged on both sides of the drum 14 and in the Direction of arrow 23 held. One of these rollers can be roughly in the direction of the Arrow 23 be driven directly, whereby the drum 14 in the corresponding direction (Arrow 24) is rotated. If desired, of course, the drum 14 in the specified Direction to be driven directly.

There are suitable aids are provided to substantially to achieve uniform thickness of the precipitate. These tools consist of the circulation of the. Electrolyte from a suitable, not shown storage container to the trough 1o and in. a gentle movement of the anode 11, which z. B. rotatable an arm 25 .befestigt, whose upper end 26 by a curve 27 on the drum 14 is swung back and forth by means of the link 28. The arm 25 is rotatably mounted on the holder 29, which in turn on a wall of the container 1o is attached.

Fig. 1 also illustrates the application of the adhesive Solution freed and dried gold-silver tape on an endless tape 3o or similar inert material, e.g. B. parchment, foils made of hydrate cellulose and the like, which can be pulled off a roll 31 and from here between loose rolls 32 is passed over an applicator roller 33 for the coating, whereby the lower side of the paper strip 30 is covered with a suitable binder.

@As mentioned above, the new product is preferably called a heat transfer medium for stamps or other embossing machines used and serves to decorate objects with gold ornaments in high or Low relief. For this purpose, a bath 34 of the material which is plastic in the heat is used used in liquid form, such as by heating the same. For example, can a mixture of beeswax, rosin or other resin, or coumarone resin a suitable phenol condensation product, a furfural product or the like is used will. The material in question is in liquid form from the bath 34 by the Rollers 35 and 33 applied to one side of the paper strip carrier 3o.

The latter is then, after the applied binder layer has cooled, z. B. along route 36, between a pair of pressing rollers 37, 38 against the gold-plated Surfaces of the silver tape 12a pressed so that a composite silver-gold binder carrier tape 39 forms of indefinite length, which are wound onto a reel 4o can.

Such a composite strip is now in a suitable manner treated to remove the silver layer: Such a treatment is in Fig. 2 illustrates and consists of the strip 41 being unwound from the spool 4o and passed through a bath 42 containing nitric acid or other Solvent for the silver layer, while the gold layer, contains the binder and the inert carrier will not be attacked. Passing through is preferably done such that the bath liquid only comes into contact with the silver while the remaining layers of the tape are protected from contact with the acid.

In Fig. 4, a part of the band according to Fig. 2 shown. As can be seen, the composite tape 41 is passed through the bath 42 passed essentially in the bath level 42a. It is noted that the Silver layer 41a is located on the underside of the belt and in direct contact got with the nitric acid. The gold film 41v lies behind the silver layer 41a. In order to properly advance the assembled belt 41 through the bath 42 To enable a guide 43 in the form of a horizontal plate or several such plates are provided, which are mounted on holders 44, 44 at opposite ends are, which in turn extend over the upper edges of the container 45 to the opposite Ends of the same extend. This guide works preferably with the front and rear rollers 46 and 47 together, each of which in appropriate stores in containers 45, e.g. B. at 47a (Fig. 4) is stored.

It is advantageous to choose the paper tape 41d wider than the silver layer 41a, so that on the opposite side edges the paper over the gold-silver layers protrudes and finitely interacts with the opposite guide rods 48, 49, which are arranged above the level of the bath liquid, so that the two-sided Side edges of the paper strip 41d are bent from the bath, thereby preventing is that the surface of the paper tape is wetted. In this way one can paper other than parchment paper can be used with success because the lower one Surface of the same with a water-repellent layer, e.g. B. with layer 4 1c the end Beeswax, rosin or other resins or the like is.

After passing the assembled strip q.1 through the The stripping bath 42 becomes the band 50 from which a silver layer has been removed in an alkali bath 51 or the like treated to neutralize any excess nitric acid, and then passed through other baths 52, 53 of the desired number in order to achieve the Remove alkali or other liquid from tape 5o, which after leaving of the last bath is dried at 5oa. The band 5o now consists of one outermost (bottom in the position of Fig. 3) gold layer, a subsequent one Layer of the binder and an overlying layer of paper. A radiator 50e can be used to dry this tape.

When a transfer tape is to be formed, use the usual one outer adhesive layer, the strip 5o- can continue in a continuous manner be treated by going through a bath after desilvering, washing and drying 54 is guided by shellac or another adhesive, which is in the desired thickness is applied to the gold layer of the strip in any manner, e.g. B. with With the aid of applicator rollers 55 and 56, the strip is placed under suitable guide rollers 57, 58 is passed through. Then one draws the strip on a curved one Path along the heating surface of a steam jacket 61 of the oven 59. The dried strip can then be wound onto a roll 62.

If desired, the shellac or the like can be sprayed onto the gold layer. During the desilvering, the composite strip according to Fig. 5 can be passed through the nitric acid, 12, preferably at the level of the bath q.2a, so that a part. the opposite side edges of all four layers is bent up with the help of the guide rods 48, so that the band (see Fig. 6) on each of the two edges has a residual strip of the original silver coating. Such residual strips are removed by suitable cutting machines or the like, in such a way that the gold layer is also provided with straight edges. The cutting width is indicated in Figure 6 by the double arrow 63.

When using electrodeposited films it possesses the gold has a luster and hue that is superior to that of ordinary gold leaf. is. The electrodeposited gold also has the entire length the gold stripe has a uniform transparency, which is not the case with gold leaf Fallist. In Fig.7 the process step of a modified form of the Invention exemplifies. The strip 65 is made of a suitable material, e.g. B. Parchment paper, sheets of hydrate cellulose or the like, which are taken from a supply roll analogous to the roll 3 i of Fig. i can be withdrawn. In this modified procedure however, the adhesive, e.g. B. shellac, applied by an applicator roller 33a; with which the adhesive is supplied in a manner similar to that of the roller 33 according to FIG is, but only on the two protruding edge parts, so that the shellac applied only along two narrow strips on the edges of the paper strip will. Such a shellac strip 65- is in contact with the gold surface of the Silver ribbon, in a manner similar to that illustrated in Fig. I. The usage Such a modified form of the applicator roller 3 requires that the guide roller 32 is arranged from that applicator roller at a distance, corresponding to the Height of the lateral annular surfaces of the roller 33a. Then the silver layer with Help remove the nitric acid in a manner similar to that illustrated in Fig. 2 and treated further. At this moment the strip, see Fig. 8, is put together from the paper tape 65, with which by the two mutually separated shellac strips 66 the gold foil 67 is connected. Such a composite strip can now cut to the desired width, as indicated by the double arrow 68 so that the shellac-coated outer edges of the paper and those on it adhering outer edges of the gold layer are removed. Which when winding up resulting roll 69 (see. Fig.9) consists of windings of the carrier strip, z. B. of parchment paper, sheets of hydrate cellulose and the like, between which the continuous gold stripe is freely coiled.

A roll of tissue paper or the like with a continuous strip of freely applied electrolytic or other gold films can be produced by bringing the composite strip of parchment paper, shellac and gold according to Figure 8 tightly together with a roll 70 of the tissue paper according to Figure 9 . Here, the tissue paper strip 7o is placed on the gold surface 67 of the assembled strip and conveyed into the cutting machine, so that a roll 71 of tape of the desired width is obtained, each winding of which consists of a layer of tissue paper 70, an intermediate layer of gold 67 and a layer 65 consists of parchment paper. When unwinding such a roll 7 i, the parchment paper 65 can be removed, so that a roll 72 is now created (see Fig. 10), the band of which consists of the carrier strip 70 and tissue paper and the one continuous strip 67 made of gold, which is free lies between the wraps of paper.

With 'the previously commercially available, gold leaf in roll form the individual gold foils applied to one surface of a paper strip, which was then rolled. Here, iron oxide red or the like was usually used, to prevent the gold foil from sticking to the back of the rolled paper strip adhered. Gold leaf produced by the gold beater process is only available in limited quantities Dimensions available, the largest possible dimensions being around 152.4 or i77.8 mm for foils with a thickness of 0.0254 mm or less. This maximum length is limited by the ductility and other physical properties of gold. With the help of the new process, however, a gold film of unlimited length are generated, i.e. of a length that is significantly greater than that of the gold leaf.

Claims (6)

PATEN TA NS PIZÜCIIL: i. Process for the continuous production of a gold strip on a carrier strip made of inert material by electrolytic deposition of a gold layer on an endless silver strip and subsequent chemical detachment of the latter, characterized in that a continuous strip of the inert carrier material with the gold side of the silver strip by a heat-softening binder combined and the composite strip produced in this way is treated in the cold with the bath dissolving the silver layer, so that a continuous gold strip is produced on a base of the inert carrier material. 2. The method according to claim i, characterized in that the composite strip, with the silver layer down along the. Surface of the stripping bath is performed. and preferably in such a way that the. Bath liquid only the underside of the strip, wetted. 3. The method according to claim 2, characterized in that the edges of the The composite strips are bent upwards during the peeling of the silver layer, preferably in that the United, bund strips against one above the B.adspiegel arranged guide plate (43) rests and the edges through parallel to that guide plate running rods (48, 49) are heard (Fig. 4 and 5). 4. The method according to claim 2 and 3, characterized in that the width. of the carrier strip selected larger is considered to be those of the metal strips and only the protruding edges of the Carrier strip are bent open. 5. The method according to claim i, characterized in that that the binder is only applied to the carrier tape along two edge strips and optionally the edge strips coated with adhesive after the silver has been removed be cut off so that the gold strip rests loosely on the carrier strip (Fig.7 to i o). 6. Product prepared by the method according to claim i to 5.