SE176815C1 - - Google Patents

Description

Inventors: 0 Karsten, P Agren and B Nilsson The present invention relates to a salt for providing a gaseous connection between a metallic bushing bolt and an insulation surrounding it.

It is possible to provide a bushing provided with a surrounding insulation, in which the connection between the insulation and the bushing bolt is oil and gas, in such a way that the bushing bolt is encapsulated with a completely polymerizable plastic. In this case, the bushing bolt is placed in a mold. After the plastic has been held in the mold and thereby brought around the bolt, the plastic is subjected to a hardening. If the bolt and the surrounding plastic have heat expansion coefficients, which differ greatly from each other, it can e.g. in the event of a sudden strong heating of the bushing bolt, something which may occur, for example, in the event of a short circuit of the bushing bolt, in the event that malfunctions occur between the bolt and its insulation. In order to prevent the occurrence of such impurities caused by thermal stresses, it has been proposed to apply a thin layer of slack in the spruce surface between the bushing bolt and the surrounding plastic. This layer does not extend along the entire spruce surface but a small portion around the surface of the bolt Or free frail slack. In this way it is achieved that the plastic and the bolt, apart from the part where there is no slack agent, during heat exchanges karma ran in relation to each other, so that the risk of the occurrence of inertia due to thermal stresses is reduced. However, there is still a risk that catheters will arise in the area of the spruce surface where the plastic and the bolt are bonded together. In particular in the case of strong temperature fluctuations and after prolonged operation, there may be a risk that the connection between the plastic and the bolt will loosen. Another key part of the described insulated bushes The fact is that their production posed problems with regard to the risk of cracking which exists due to the fact that the plastics shrink and are transferred from uncured to hardened condition. Cracking can not only occur precisely in saraband with the actual manufacturing but also after a period of operation. Namely, the internal stresses which are generated in the plastic due to the shrinkage during curing can give rise to karma on this salt only after the insulated bushing bolt has been subjected to packing jugs. Particularly large problems exist in the treated respect and the lead-through bolt has a large diameter in relation to the material thickness of the insulation. If the gas to which the compound is to be made consists of very small molecules, as in the case of hydrogen gas, the problems of tightness are particularly difficult to master due to the ability of such gases to pass through the smallest cracks or gaps.

Another aspect that must be taken into account is that the insulated bushing bolts can be exposed to large mechanical seals. An insulation consisting of an unreinforced plastic can therefore sometimes cause an unsatisfactory mechanical half-strength.

To prevent cracking caused by the shrinkage from occurring in a plastic and to increase the mechanical inertness of plastics at the edge of continuing it with a reinforcing material. When it comes to completely polymerizable plastics, such as e.g. unsaturated polyester plastics and epoxy plastics, fiberglass products are conventionally used as reinforcement materials. It has been found, however, that insulated lead-through bolts, which are formed by applying the said plastics and a decoration consisting of a glass wax around the bolts with subsequent hardening of the plastic, give connections which show inaccuracies either already from the beginning or after 2— - for a time, after being subjected to thermal packing.

According to the present invention, the disadvantages of the aforementioned insulated bushing bolts are avoided and one is obtained. connection between the bolt and the insulation, which is completely gassed, even after the bolt has been exposed to temperatures above 100 ° C for a long time and has repeatedly been subjected to rapid temperature fluctuations between temperatures above 100 ° C and room temperature.

According to the invention, the gas-tight connection between the bushing bolt and its surrounding insulation is provided which comprises a fully polymerizable plastic on such salt that the fully polymerizable plastic and a synthetic organic fiber reinforcing material for the plastic are applied around the bushing bolt, after which the plastic is transferred in the hardened state.

Sometimes, before applying the plastic and reinforcement material, it may be appropriate to apply a thin layer of an elastic material, hi. a. silicone rubber, pa bultens yta. A thin silicone rubber layer can be obtained, for example, by Waring of silicone rubber paste (eg »Silastic Adhesive 2007» Iran DOW Corning Corp. USA) on the bolt.

Examples of suitable fully polymerizable plastics are unsaturated polyester plastics and epoxy plastics. These plastics are often referred to as solvent-free plastics. A distinguishing feature has them Or that they harden without cleavage of volatile constituents. To a limited extent, for the purpose of the invention, they can be continued with powdered or granular fillers such as quartz flour, mica flour, etc. Examples of usable organic fibers for the reinforcing material are polyethylene terephthalate fibers ("Terylene", "Dacron"), polyvinylidene chloride (sarphide) polyacrylonitrile fibers ("Orlon"), polyamide fibers ("Nylon", "PerIon") and similar fibers, which are usually produced by drawing from a melt or a solution. Such fibers have the property of shrinking upon heating to a temperature at which the molecules can move out of their stretched state obtained during manufacture. The reinforcement material can. advantageously have the shape of a warp, a warp band, or a yarn which is wound around the bushing bolt suitably with some tightening. The plastic can be supplied in different ways. One can e.g. apply the plastic by impregnating the reinforcement material with it, before applying the reinforcement material to the bolt. You can too. adhere the plastic at the same time as or in connection with the reinforcement material being wound around the bolt, e.g. by habit palindat vary of the fibrous material coated with plastic before Riljande vary paThres. Pet Or () ask possible to first apply the fibrous material and then add plastic through an impregnation process, with or without. use of vacuum. According to a very advantageous embodiment of the invention, the organic fibers consist of polyethylene terephthalate and the completely polymerizable plastic of an epoxy resin.

In some cases, gas-tight connections can be obtained between the bolt and a surrounding insulation by recasting the bolt with a. with short fibers of the reinforcing material continued plastic.

The invention is explained in more detail with reference to the appended figure by 101st description of an exemplary embodiment. The. bushing bolt 1, which is to be insulated, is wrapped with half overlap with a 0.13 mm thick and 20 mm wide, vvv band of terylene fibers weighing 120 g / m2. After the bolt is provided with a layer of such tape, the layer is coated with a solvent-free epoxy plastic (eg »Araldit F» continued with equal amount »Ilardare 905» and 0.5% by weight «Accelerator 905», calculated on the total amount of resin and harder , which products are manufactured by Ciba AG, Switzerland). A new layer of terylene tape is then wound on, after which it is coated with the said plastic. The procedure is repeated until an insulation of the desired thickness is obtained. The insulated bolt is then heated to harden the plastic, in this case to 130 ° C for 1 hour. Dot has been found to be suitable to, after an ordinary hardening of the plastic, subject the insulated bolt to a continued heat treatment in order for a post-hardening of the plastic and to perform this at the same or a slightly lower temperature than the one at which the ordinary hardening was performed. In the specially described embodiment Or dot it is convenient to perform the post-curing at 120 ° C for 36 hours. Ellen hardening forms the insulation a casing 2 around the bolt. The surface of the tail can be surface treated if necessary. In figure Or the insulated bushing bolt is fitted in a bore 3 in the cradle 4 of a water-gas-cooled electric machine. The seal between the insulated bushing bolt and the rocker of the hole is provided with rubber seal rings 5. The sealing rings are pressed against a base ring 6 by the nut 7 via a spacer ring 8, which Or is provided with a stop screw coated in a vertical groove 10 in the bore.

Although the invention is not bound by any theory, it can be assumed that it. The extremely tight connection obtained when using the set according to the invention is due to a shrinkage which the threads in the reinforcing material undergo during the hardening of the completely polymerizable plastic. According to Donna's theory, the shrinkage pressure created by the contraction of the trades would contribute to the bonding and tightening against the bolt.

It is obvious that an insulated bolt - —3 stand according to the invention jute only with advantage can be used in accordance with the given example in hydrogen gas-cooled electrical machines without the doyen in other gas-cooled machines, as well as in many other machines and apparatus, in which it is important that the connection between a bushing bolt and a ambient insulation is tat against gases and water shoes.

Claims (4)

Patent claim: Wear to provide a tight connection between a metallic bushing bolt and a bushing surrounding insulation, which comprises a fully polymerizable plastic e.g. a polyester plastic or an epoxy plastic which has hardened after the plastic has been applied around the bushing bolt, characterized in that the fully polymerizable plastic and a synthetic organic fiber reinforcing material for the plastic are applied around the bushing bolt, after which the plastic is transferred in the cured state. 2. A kit according to claim 1, characterized in that the bushing bolt is provided with a thin layer of an elastic material, e.g. silicone rubber, before applying the plastic and reinforcement material. 3. A kit according to claims 1 and 2, characterized in that the reinforcing material is applied in the form of a woven or wavy band, which is wound around the bushing bolt. 4. According to patent claims 1-3, characterized in that the reinforcing material there is made of polyethylene terephthalate fibers. 5. Insulated bushing bolt according to any one of patent claims 1- 4. Request publications: Stockholm 1961. liungl. Boktr. P. A. Norstcdt & Saner. 610089