DE327219C - Metal container for liquid foodstuffs, in particular milk, and method and device for the production of such - Google Patents

Description

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CLASS 48 b GROUP

· Max Schulz in Oldenburg.

Patented in the German Empire on June 18, 1919 .

For the storage and shipping of liquid foods such as beverages, canned Fruits and other canned foods, but especially milk, are usually available for smaller quantities in glass bottles or bottles Bottle-like vessels are used because of hygienic reasons such Fruits and especially the sterilized milk in such glass bottles are particularly desirable is. Unfortunately, this wish finds its limit in the fact that during the treatment through Pasteurize a great many glass bottles. But it is also not accessible, the glass bottles tinned sheet iron cans corresponding to the known tin-plated cans to replace, as the external tin-plating is exposed to the action of warm water, which is mostly iron and other additives that attack the tin, do not resist and quickly permeate

ao rusts. According to the invention, these difficulties are eliminated by the fact that the

■ tall bottle on the inner wall according to the Regulations for food containers with a

injected coating layer of tin and

as on the outer wall with a coating layer made of zinc, which is known to be extremely protective of the rust, so that such Tin bottles easily handle the. Pasteurization tolerated and also: im others are economically superior to glass bottles because of their unbreakability.

Attempts have already been made, larger ones Metal vessels, in particular kegs for beer or other liquids, with a coating on the inside made of tin and on the outside with a coating of zinc or lead in the Way to provide that tin is introduced into the interior and the closed barrel in that heated lead bath or zinc bath is rolled, whereby the melted by the external heat Tin is supposed to spread as a coating over the inner surface of the barrel. While focusing on this Wise, internally tinned metal barrels with external lead can be produced flawlessly this is not flawlessly possible for external galvanizing, since. Because of the high melting temperature of zinc, the easily melting tin burns. On the other hand, it is possible to use such barrels or other larger metal vessels further opening by known processes, for example the Schoop metal spray process, to manufacture. For the manufacture of the metal bottles which are the subject of the present Invention, such processes come, in particular Schoop's metal spray process, practically less in question, because for the commercial production of such Bottles in large the Schoopsche method is too costly. Takes place according to the invention the production of these 'metal bottles by that the internal tinning is carried out by injecting liquid tin with air under pressure, namely after the external galvanizing, which is achieved by immersing the bottle in upright position up to the edge in a zinc bath. Furthermore, the

(3rd edition, issued on November 13th igaoj

Finding the special design of an immersion device suitable for “this process. The drawing shows an example of an advantageous embodiment of the immersion device.

Fig. Ι is a side view, Fig. 2 is a Front view of the immersion device, while FIG. 3 is a natural size section through a bottle to the end of the dip rod is.

In addition to the container α (shown broken off) for the zinc bath, a rod c is rotatably mounted on tin stand b, adjustable in height, which carries a cantilever frame d. At

. 15 whose upwardly extended front part is mounted a pulley e for a rope with a counterweight f , a pivot g and a curved plate with peg h attached. A guide i for the plunger rod is suspended pivotably on the pin g. A curved slot plate j is attached to the guide i , the slot of which leads to the pin h. The plunger rod consists of a tube k, which moves in the guide i and is provided with a handle Z. A bushing m is screwed into the lower end of the pipe and two, three or four joints η are rotatably mounted on its lower edge. These are articulated with joints 0 , the free ends of which are mounted on supports p of the head of a tie rod r. The pull rod r emerges from the top of the tube k and is pulled upwards by a spring s, so that the hinge knees press against the inner wall of a bottle i pushed onto the dip tube end and hold it in place by clamping. The rope of the counterweight f is attached to the head nut u of the tie rod r. The joints n, 0 are guided in slots of a pipe section ν , against the edge of which the curvature of the bottom of the bottle abuts, in this way limiting the sliding. If the tube k is pushed up by means of the handle I , the head nut u hits the end of the frame front part, the pull rod r is pushed down and the joints η, ο step back into the inside of the tube, so that the The bottle can be pulled off with a pair of pliers or the like and a new one can be pushed on after the dip rod with the extension frame d has been pivoted out to the side over the bath while rotating the rod c. The immersion of the new bottle after swiveling back the frame with the immersion rod over the bath is not done vertically, but at an angle by tilting the guide i , which is rotatable about the pin g , sideways on the slot guide h, / so that the air can escape from the cavity of the curved bottle bottom . The heated air from the inside of the bottle can escape through holes W of the tube k. The bearings of the rod c are set on the stand b at such a height that when the handle / the plunger rod that has been straightened and pushed downwards against the bottom of the guide i hits, the extended edge of the bottle protrudes from the mirror of the zinc bath; so that no zinc can get inside the bottle. This rim is then tinned together with the inside of the bottle.

With the help of this immersion device, such bottles are externally galvanized extremely quickly, flawlessly and with the least amount of manpower. To If the bottles have cooled down sufficiently, the internal tinning takes place in the introduction mentioned way by injecting liquid tin by means of air under pressure. To at this process of external galvanizing by dipping and internal tinning Injection, in any case an oxidation of the heated inner surface under the influence of the To prevent warming and the air during the galvanizing in the bath, it is advantageous to Before dipping into the zinc bath, preliminary internal tinning with just a touch make a thin layer of tin by the injection process. Although this melts provisional coating for external galvanizing, but keeps the internal wall going due to its delicacy the sheet metal nose covered, so that pickling takes place dispensed with by acid injection; In addition to bottles, this procedure is also applicable to smaller ones Pitchers or can-like vessels can be used.

Claims (4)

Patent Claims: 1. Metal vessel with tin-plating and External galvanizing for liquid foodstuffs, in particular milk, characterized in that the inner wall with a sprayed-on coating layer of tin and the outer wall with a coating layer made of zinc. 2. A method for producing the metal hashes according to claim 1, characterized in that that the internal tinning is done by injecting liquid tin with air takes place under pressure, while before -the external galvanizing by dipping the Bottle in an upright position to near the rim in a zinc bath 3. Emtauchvorrichtung for the method according to claim 2, characterized by a plunger rod that can be swung out horizontally and moved vertically against stops, which consists of a tube, through the inside of which a spring or weight effect or both upright tie rods, with the connection of pipe and tie rod through expansion joints., which iao in any position other than the highest position, the bottle is pushed open by the clamping effect hold on, release in the highest position by stepping back into the pipe. 4. Immersion device according to claim 3 for bottles with an inwardly curved bottom, characterized in that the plunger rod in addition to its pivoting and longitudinal movement still has a lateral tilting movement, which causes the bottles to be slanted and held in place Allowing it to be pushed into the zinc bath. 1 sheet of drawings.