CS224277B1 - Glass object cementing process - Google Patents

Description

The invention relates to a method of bonding glass articles by cementing from one substrate and bonding to another in one sequence.

The purpose of the invention is to shorten the production times during re-sealing.

Resintering is a manufacturing operation in which small glass moldings, such as machine cut stones or chandelier trimmings, cemented, i.e. fixed with mastic on the apparatuses of the apparatuses on one side, are machined from the other side, e.g. It is then sealed, i.e., bonded with a sealant of the same thermo-mechanical properties, to the sealants of the second apparatus with the machined side and the first side machined. This technology was derived from grinding natural gems.

This known bonding method is applicable to relatively thick glass articles, in which the desired temperature difference between the bonded and bonded sides can be achieved when bonding.

Flat, relatively thin glass objects, such as chandelier trimmings, are held manually by grinding or the like or are cemented with cements and cemented indirectly, ie the glass object is cemented after the first side has been worked, cleaned of binder residues, re-spatially orient and bond to the second sealant in the same way as before the first machining.

The disadvantage of this method is the time loss associated with separate double bonding of one glass article and the difficulty of ensuring proper spatial orientation during bonding.

According to the invention, these disadvantages are overcome by the method of sealing the glass articles which are bonded on at least one of the first apparatus of the first apparatus by the first side. SUMMARY OF THE INVENTION After the second side has been worked, the first apparatus is moved over at least one of the second apparatus having a heated mastic at a higher softening point than the first side cementing temperature, and then the sealed glass article is pressed onto the mastic. of the second apparatus, the sealant cools and solidifies, while the sealant cools, it is simultaneously heated and softened by the heat transfer through the glass article to soften the mastic of the first apparatus so that the glass article is secured to the mastic of the second apparatus before being released from the mastic of the first apparatus.

If the heat transfer from the putty on the putty of the second apparatus is insufficient to heat the putty on the putty of the first apparatus to a softening temperature, the putty of the first apparatus is preferably heated.

Another suitable bonding is that the glass article cemented on the putty of the first apparatus is released by cooling the mastic to a temperature of 15 to -40 ° C after the glass article is put on the putty of the second apparatus.

In order to cement the first side of the glass article, a sealant is used whose heat-mechanical properties are different from the heat-mechanical properties of the sealant used to seal the second, already treated side.

The advantages of the inventive refinement method are that it allows the refinement of relatively thin vitreous objects whose refinement cannot be carried out in a manner known per se, and that it reduces the need for precision in adhering to the thermal regime and glass objects refilled in a known manner.

The method of sealing according to the invention is explained in more detail in the accompanying drawing, in which an axial sectioning apparatus for sealing is schematically illustrated.

The way of sealing is as follows:

The glass molding 10, for example a chandelier trimmings, is sealed with putty 10 onto the heated first party apparatus 3, which is held in the movable fixture 8. The putty is allowed to cool, whereby the molding 10 in the putty 3 is fortified and machined. first page. After processing, the first-side apparatus 3, held in the movable jig 8, is moved over the putty of the second-side apparatus 3, which is provided with a heated putty 2 for sealing. The other side apparatus 6 is mounted in a stationary fixture 3 attached to the frame 2. Then the apparatus 3 with the sealant 3 is pressed against the sealant 4 of the apparatus 6, thereby pressing the molding 10 spatially oriented into the heated sealant 3, which cools. After cooling, the mastic 3 of the apparatus 3 is heated to the softening temperature of the mastic 3, thereby releasing the molding 10 from the mastic 3, and the first-party apparatus 3 is removed. The sealed compact 10 on the putty 4 of the apparatus 6 is ready to be machined on the other side thereof.

Example 1

(a) the putty for cementing the first side, ie the putty with a lower softening temperature, shall have a composition by weight:

3b% resin Polyester 881% rosin% calcium carbonate

(b) the putty for cementing the other side, ie the putty with a higher softening temperature, has a composition by weight:

% trans 1,4 polyisoprene 5% polystyrene Krasten 126% rosin% calcium carbonate

Example 2

(a) mastic for sealing the first side, ie a mastic whose adhesion to the glass at low temperatures is low, consists of Ester EF 7 5

(b) the putty for cementing the other side shall have a composition by weight:

% polyvinylbutyral% rosin% calcium carbonate

Claims (3)

PREFACE THE INVENTION CLAIMS 1. A method for sealing glass articles which are bonded on at least one of the first apparatus of a first apparatus, characterized in that after machining of the second side, the first apparatus is moved over at least one of the second apparatus provided with a heated mastic at a higher softening temperature than the softening temperature. the sealant with which the first side is sealed, whereupon the sealant with the sealed glass article is pressed against the sealant of the second apparatus, the pre-heated sealant cools and solidifies, while cooling the sealant simultaneously heats and softens the sealant on the sealant of the first apparatus. the glass article is fastened to the putty of the second apparatus before being released from the putty of the first apparatus. 2. A method according to claim 1, wherein the sealant of the first apparatus is heated, thereby softening the sealant applied thereto and releasing the glass article. 3. A method according to claim 1, characterized in that after the glass article is bonded to the binder of the second apparatus, the binder applied to the binder of the first apparatus is cooled to a temperature of 15 to -4 [deg.] C., thereby releasing the glass article. 1 drawing