DE889479C - Method for fastening a body inside a glass vessel - Google Patents

Description

Method for fastening a body inside a glass vessel In technology, the task sometimes occurs of holding a body made of metal or some other material in a certain position relative to the glass wall in a glass vessel. So it is B. sometimes necessary to fasten an anode designed as a metal cylinder in a cylindrical glass part of the tube in Braun tubes. As is well known in such glass jars, e: n,?. B. glass tubes, the internal dimensions are not constant, makes it particularly difficult to fix the metallic cylindrical anode tube axially and radially centrically in your Glasrobrteil. 1 egen. The invention solves the problem described in a surprisingly simple manner in that the glass vessel is pressed in so far at various points with the supply of heat that it extends inward from the inner surface of the glass vessel: the glass feet against which the body to be used is supported. One can. Carry out this process in such a way that the body to be inserted into the glass vessel is itself brought into the desired position relative to the glass vessel by suitable holders and then by pressing the glass vessel at various points, the support feet are made, which are a very specific distance from the surface of the body to be used pause from the glass wall. In some cases one can proceed in such a way that first a charcoal corresponding to the outer dimensions of the body to be inserted is introduced into the glass vessel to produce the above-mentioned glass feet and that the body itself is only then inserted after removing the charcoal. To z. B. to set a cylindrical body, for example a metal tube, inside a cylindrical part of a glass vessel, you can proceed according to the further invention, that first od into the 'glass tube a cylindrical body made of coal has a diameter corresponding to the outer diameter of the cylindrical body to be inserted later and in which at least one end has a widening that extends transversely to the axial direction and fits into the glass tube, and that then the glass tube at the beginning and at the end of the center piece at at least three points up to to plant the glass. is pressed in on the carbon, so that the radial position of the cylindrical body to be used is determined by these impressions of the glass. The expansions of the coal that fit into the glass tube are expediently dimensioned in such a way that after the production of the inwardly pressed glass feet, the plank can be pulled out of the cylindrical part of the glass vessel without further ado. After the cylindrical glass part has been provided with support rafts, the actual metal cylinder can then be inserted.

On the body to be inserted into the glass container, for example on the metal anode, means will be provided in accordance with the further invention for this To hold the body in a certain position after its insertion in the glass vessel. So you can, for example, at least one point where a glass base is against the cylindrical shell of the body to be inserted, on this body a Fasten the bracket, which after inserting the body its axial displacement prevented in the glass vessel. Another possibility, an axial displacement of the to be used To prevent the body against the glass cylinder, is that at least. a place where a glass base is to be inserted against the cylindrical jacket of the: the Body attaches, a bayonet catch is attached to this body, which is designed in this way is that the cylindrical body by an axial movement in the cylindrical glass tube introduced and by a subsequent rotary movement into the through the bayonet catch locked operating position is brought.

The figures show exemplary embodiments of the invention: FIGS 2 initially show a longitudinal and a cross section through a glass tube and the Auxiliary device for pressing in glass feet that extend into the interior. With 2 a coal is referred to, the center piece exactly the outer dimensions of the corresponds to the cylindrical body to be inserted later in the glass tube i, An .den at both ends this charcoal has extensions 3 and q .; : the one according to FIG. 2, for example can have a star-shaped plan shape. -To the support feet for later use to produce a cylindrical body, the glass red will i. in those places, other glass feet are to be pressed in, heated, and then the feet are 5 depressed. One is going to check the radial and axial location of the cylindrical body to be precisely defined, preferably in the manner shown in the figure at the beginning and at the end of the middle section of the coal three make such impressions. Form the extensions 3 of the coal allows the coal after making the glass feet easily pulled out of the cylindrical tube i.

Fig. 3 shows, as an example of the application of the invention, a Braunsches tube rii, which has a luminescent screen 12, a radiation apparatus 13 and a deflection coil -1, q. owns. The cylindrical metallic anode of the irradiation apparatus is denoted by -5. This is supported against the cylindrical glass part 16 of the Braunsehen tube according to the invention by the glass feet 5 made in the above-treated white. Fig. Q. shows part of the anode tube 15; According to this figure, means are provided on the anode to hold it in a certain position after it has been inserted into the glass tube 1 (6 A clamp T7 is attached to the surface of the anode, which prevents axial displacement of the anode in the glass vessel after the anode tube has been inserted. At the points where the glass feet 5 touch the anode tube, there are mica plates.iS with the help of narrow retaining plates% i.9 , 2o; these mica platelets have the purpose of allowing the anode tube to anneal under vacuum without damaging the glass tube.

In Fig. 5 is similar to Fib. q. part of the anode tube 15 shown, whereby again a special means is provided on the anode, in order to hold them in a certain axial position after they have been inserted into the glass tube. As far as the items with those in Fig. Q. match are given the same reference numerals used. To hold the anode in place axially, the anode is on the surface a locking piece 2 1 attached, for example made of mica or metal can be. This locking piece acts in the manner of a bayonet lock a glass base 5 together. The anode tube is here .by an axial movement inserted into the glass tube until the further axial movement through .das locking piece ? i is prevented. During this movement -the foot .5 in the slot 22 of the locking piece zi led. The anode tube is then rotated into the position shown in FIG. 5 operating Brought in; in this position there is an axial one Movement of the anode tube through the. special design of the locking device 2-2 prevented.

Claims (6)

PATENT CLAIMS: i. Method of attaching a body from any rMaterial inside a glass vessel, characterized in that the Gla@s.- vessel is pressed in so far at various points with the supply of heat, that this glass feet extending inwardly from the inner surface of the glass vessel arise against which the body to be attacked is supported. 2. Procedure according to Claim, i for fixing a cylindrical body, in particular a metal pipe, inside a cylindrical part of a glass vessel, in particular for fastening a cylindrical anode in a cylindrical part of a brewing ash tube, characterized in that a cylindrical body is initially made in the glass tube Coal or the like. Is introduced, the middle part of which has an outer diameter the diameter of the cylindrical body to be used later, and its ends a transverse to the axial direction extending into: the glass tube Have a suitable extension that then the glass tube at the beginning and at the end of the middle piece pressed in at least three places until the glass touches the carbon is, so the radial position of the cylindrical body to be inserted through this Indentations of the glass is set. 3. Facility to exercise. of the procedure according to claim i or 2, characterized in that on the one to be inserted into the glass container Body means are provided to this body after its insertion in the glass tube to keep fat in a certain situation. q .. Device according to claim 3, characterized marked, .that at least one point where a glass base against the cylindrical Coat of the body to be inserted puts a clamp attached to this body which prevents the axial displacement of the body after its insertion. 5. Device according to claim 3, characterized in that at least at one point where a glass base lies against the cylindrical jacket of the body to be inserted, a bayonet lock is attached to this body, which is designed so that the cylindrical body is inserted into the cylindrical glass tube by an axial movement and by a subsequent twisting movement into the one locked by the lock Operating situation is brought. 6. Device according to claim 3 or one of the following, characterized in that ß a direct contact with the metal surface of the to be used Body with the glass feet through mica interlayers attached to the body to be inserted is prevented.