DE2310328A1 - Glass cladding the bore of a metal tube - cooling with gas probe after treatment - Google Patents

Abstract

Method of cladding the bore of a metal (steel) tube with glass in which the tube is heated and glass bulbs are expanded against the inner tube surface by means of the increasing pressure of the contd. gas until the tubes burst, as described in the parent patent, whereby as the clad tube leaves the hot zone it is cooled with gas sprayed from a probe placed centrally inside the bore of the tube to gain improved adhesion.

Description

METHOD OF COATING THE INNER SURFACE OF TUBE ~ SHAPED METAL PRODUCTS WITH GLASS.

The invention relates to a method for glass coating the inner surface of tubular metal products, for example: metal pipes, cylindrical Container etc.

The tubes covered with glass are successful in extracting and used in the transportation of paraffinic oils; can with equal success They are transported by aggressive media, which cause intensive corrosion of the metal evoke, find their application. The glass-covered tubes and cylinders Tea holders also prevent food like milk from spoiling.

It is a method of glass coating the inner surfaces from Metal pipes known, which provides that one as a workpiece at both ends Serving metal pipe, which is to be covered with glass, pipe socket attached and that a glass bottle open at one end is inserted through one of the nozzles wird0 The length of the glass bottle to be used should ensure that one end of the glass bottle in a neck and the other end of the glass bottle after placing the glass bottle in the tube, it will heated together with the nozzle and the glass bottle. After softening the glass bottle compressed air is supplied through its open end.

In doing so, the glass bottle is inflated and its walls come into contact with it pressed against the inner surface of the metal tube. The glass bonds firmly to the Pipe walls. (See, for example, Japanese Patent Publication 26473-38, 1963).

According to another method of glass coating the inner surface from metal pipes, a glass bottle is inserted into a pipe that serves as a workpiece, which is open at one end, this end of the glass bottle in the form of a flange is designed to connect to this a system for supplying compressed air to be able to (S., for example, the Japanese patent specification 15.371-36 from the Year 1961).

A method is also known which consists in d3 relatively short glass bottles placed one on top of the other in a tube serving as a workpiece introduces which, with the exception of the first glass bottle, which is sealed at both ends is, all one country are open.

The Rohrenae on which the glass bottle closed at both ends is arranged, is introduced into a heater and heated in this as long as until the glass softens and the tightness of the glass bottle due to the expansion of the in the air contained in the glass bottle is destroyed. Then the one that has become leaky will be Glass bottle is supplied with compressed air to create a connection between glass and metal to manufacture. The pipe is pushed out of the heater a little, and on the pushed out At the end, a system for supplying compressed air is connected. Then you start that Move the pipe through the heater. After the glass has softened, it will leak now blown glass bottle by compressed air, and the veite face of this Glass bottle is destroyed, then the next glass bottle is inflated and destroys the closed land of this glass bottle, etc. (S., for example, UdS; 3R copyright certificate 1720062.

According to another known method, the inner surface of Metal tubes covered with glass by placing glass bottles in the tube and then the tube and the glass bottles are heated, the glass bottles being one gaseous medium is supplied under pressure. Doing this will be the front end one Each subsequent metal pipe with the rear end of the previous metal pipe connected by means of an airtight connection, for example, by means of a Eupplun6, The d; e glass bottles are continuously placed in tubes on the side of the to be connected Pipes are introduced, and the latter pipes are passed through the heater at the same time Rotation of the pipes around their longitudinal axis moves in a direction that allows for screwing corresponds to the pipes. The glass bottles are open at one end. An exception is made the first glass bottle that is open at both ends. (See e.g. the USSR registration <P. 1947340.6) <in the FRG> In all of the above procedures, the glass cover is held on the Lietali tube by compressive forces resulting from the difference between the thermal expansion coefficient of glass and the thermal expansion coefficient be evoked by metal.

It is known that the coefficient of thermal conductivity of steel is higher than the coefficient of thermal conductivity of glass is. According to the method, the conditions for the dissipation of heat on the outside of the metal pipe surface when it emerges from the heat are significantly better than inside the pipe.

In this context, the glass cools down a glass-coated metal tube in the initial period no resistance to the pressing forces of the cooling metal.

Therefore, the metal of the pipe at the point where the Glass gains elastic deformation when it cools down to the extent that it has sufficient compressive forces can not generate.

For this reason, the coating of the pipe is insufficient mechanical strength.

The known methods also do not allow the To regulate high (the pressing force) in relation to the glass.

The purpose of the invention is to eliminate the disadvantages mentioned.

The invention is based on the object of a method for covering glass to create the inner surface of tubular wetall products, in which at leakage of the product from the heater is such a technological operation is used, which makes it possible to increase the quality of the Glastiborzuges to improve the pressing force of the metal product with respect to the glass and also to regulate this pressing force in the required range.

The task at hand was solved by covering the glass the inner surface of tubular metal products, which is realized thereby is that within the product used in a heater at least introduces a glass bottle, the glass bottle after the softening of the glass and the Destroying the tightness of the glass bottle and then supplying gas under pressure the product from the Heater pulls out, according to the invention, accordingly As the product emerges from the heater, the inner surface of the withdrawn product Part of the product is cooled with a gaseous medium.

The following can be used as gaseous medium: air, nitrogen and any inert gas.

The essence of the invention consists in the following: An intensive cooling the glass coating leads to the hardening of the glass. At that time, the metal pipe still a high temperature. As the metal tube tries to cool down, its assuming the original measurement, it begins to compress the glass cover, whereby the glass coating, which is in the stage of elastic deformation, has resistance perform. As a result, the pressing forces of the metal pipe with respect to the Glass a great height, this makes it possible to produce a quality glass coating, which has a high mechanical strength. This procedure also allows the amount of pressing force of the metal product with respect to the glass coating by regulating the Znderun & the intensity of the cooling. That is through the Relief of the consumption of the gaseous medium reached, and is of the state of 1 system for the supply of the gaseous medium, more precisely, the distance between the gas-feeding head of this system and the outlet opening of the heater dependent.

The higher the pressing force, the greater the Temperature of the i.retalls of the tube at the time where the glass is elastic Properties wins.

It is necessary to regulate the amount of pressing force in order to achieve a certain mechanical strength of the bond between glass and metal product to produce, which is required for different loads, which by the pipe can be included in its operation.

The method for glass coating according to the invention is described below the inner surface of metal pipes explained in detail using an example.

For a better understanding of the weave of the invention, the description A drawing is enclosed showing the metal tube to be covered with glass at the outlet the same from the heater represents schematically.

A soldered glass bottle 2 is inserted into a metal tube 1 and advanced to the end of the pipe. The end of the tube with the one attached to it The glass bottle is inserted into an electric heater 3 in the sense of width A.

Depending on the heating of the metal tube 1 and the glass bottle 2, it expands the gaseous medium contained in the glass bottle 2, and the glass is softened at a temperature of 600-800 ° C. The softened part of the glass bottle 2 is under the action of the internal pressure of the gaseous medium5 inflated and pressed tightly against the inner surface of the metal tube 1, the front end wall the glass bottle is opened in violation of the tightness. Then vird the metal tube 1 pushed forward until its front end emerges from the heater is fastened in the pipe 1 by means of the on the front land of the metal pipe 1 Stub 4 introduced a system for supplying the gasförLiOen Ledium, which from a hollow rod 5, a perforated air supply end head 6 and centering rollers 7 consists. The hollow rod 5, which is immobile during the movement of the metal tube 1 remains, air is supplied at room temperature.

The air emerging from the perforated head 6 cools the softened glass coating that emerged from the heater Pipe part intensively. Depending on the cooling, the glass reaches a temperature at which it gains elastic deformation. The metal tubes, which cool down as they emerge from the heater, endeavor to assume their original dimensions and compress the glass coating.

The pressing force with which the glass acts through the metal tubes the earlier the glass has elastic properties, the greater it will be the exit of the metal pipe from the heater 3 # will gain.

At the other end of the metal tube 1 is a glass bottle 8 with its open end used in such a way that this open end of the glass bottle in the previous glass bottle t at the rear end of the same. Then the metal pipe 1 together with the glass surfaces through the heater 3 with moves at a speed sufficient to soften the glass, wherein the pipe is rotated around its own axis at the same time.

So, for example, for a pipe with a diameter of 2.5 " the speed of the advancing BeegLn 18 to 20 cm / min, and the speed of rotary motion - be one revolution per 1 m of displacement of the pipe. During the movement of the pipe through the heater, the remaining part of the Glass bottle heated, inflated under the action of compressed air and attached to the inner surface of the metal pipe 1 pressed tightly. This glass bottle is in the front The end wall of the glass bottle 8 is opened in, with which it forms a whole.

Depending on the movement of the Ltetallrohres 1 with glass bottles through the Heater 3 are connected to this pipe by means of couplings 9 other metal pipes 10 in succession connected, these metal pipes at the same time as described above Procedure to be filled with glass bottles.

After all of the first metal pipe 1 came out of the heater 3 is, the system for air supply is removed from this pipe, the pipe 1 is cut off from pipe 10 and the air supply system is connected to the Tube 10 connected.

Maintaining the required pressure inside the lethal pipe, the creation of certain conditions for the cooling of the glass, and that with it Connected regulates the pressing force of the metal pipe, by which the glass is affected are due to the change in the consumption of air by the perforated head 6, as well as by changing the arrangement of the same along the axis of the metal tube 1 made.

The one produced by the method according to the invention on a glass coating the inner surface of metal pipes has high mechanical properties; the tensile strength of the tubes covered with glass is larger than the tubes that are covered with Glass coated without cooling by 7 to 8%.

The procedure described above was also used for glass coating the Inner surface of individual tubular metal products that contain multiple glass bottles are filled as well as from individual tubular metal products that are filled with a glass bottle are completely filled with success.

Regardless of whether the tubular product when coated this product with glass remains immobile or is moved in the oven, becomes the Cooling of the inner surface of the part of the product withdrawn from the heater enable the creation of the genaniiten effect.

Claims (2)

PATENT CLAIMS: 1. Method of coating the inner surface of tubular glass Metal products, in which there is at least one glass bottle inside the product, which is inserted into a heater, accommodates the glass bottle according to the Erl softening of the glass and the destruction of the tightness of the glass bottle gas under Applying pressure and then pulling the product out of the heater, thereby characterized in that corresponding to the emergence of the product from the heater the inner surface of the extracted part of the product with a gaseous Medium is cooled, which is fed through the front end of the product. 2. The method according to claim 1, characterized in that the temperature of the cooling medium to room temperature in order to avoid deformation of the product is held. L e r s e i t e