DE2514039A1 - PASS-THROUGH FOR INSTRUMENT CONVERTER - Google Patents

Description

The invention relates to instrument transducers and more particularly on a new type of bushing for instrument converters or transformers.

In measurement and control technology it is known to use instrument transformers such as current transformers and voltage transformers, to ensure a separation of high voltage circuits and a means to transform high voltages or currents to values, which are suitable for measuring and for use in control or regulating circuits. With the usual known Instrument transducers 13t the high voltage connection with a

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Sheet or other device provided 'around the high voltage conductor to be clamped to the connector. An example of this is described in US Pat. No. 2,997,526. Lately there are final degrees or separable connectors have become known in power distribution technology. With such devices it is It is desirable to have instrument transducers that can be used with such separable connectors. However are currently available feedthrough bodies that are used in conjunction with separable connectors or end termination modules such as those described in U.S. Patent No. 3,539,972 for use with instrument transducers not suitable. In particular, those instrument transducers, the exterior of which is a molding or casting material that provides the insulation of the instrument converter, cannot be used with the bushing bodies currently available.

The main object of the present invention is therefore to to avoid the disadvantages of the known bushing body.

In short, there is a molded grommet according to the present invention created, which is preferably cast from an epoxy material. The bushing body has a cylindrical shape Mold having a first or outer end portion of one diameter and a second or inner end portion of one larger diameter. On the outer surface between these sections of different diameter is a groove or Recess formed. The outer surface of the first or outer section is provided with a conductive coating, the extends into the recess to be used as an earth shield to become. The inner surface of the bushing body is provided with a beveled or conical wall that leads to Receiving a connection module is formed and an opening on the Has base to a contact piece from the high voltage conductor of the To record the instrument converter. Have the surface of this opening and the rear portion of the grommet a conductive coating that works together with the contact piece to reduce high voltage stresses in this end of the

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Eliminate guide body. According to a further feature of the invention, the bushing body is in the surface of a Instrument converter molded or cast. The groove or recess is used to the bushing in the To attach instrument transducers, and the bushing body forms a means for attaching a terminating module to the in- ' instrument converter.

The invention will now be based on further features and advantages the following description and the drawing of a preferred embodiment explained in more detail.

Figure 1 is a perspective view, partly in section Front end view of the preferred embodiment of a cast grommet shown in FIG the invention.

Figure 2 is a perspective view, partly in section View similar to Figure 1, but seen from the inner end, and shows the preferred embodiment of the cast bushing body according to the invention.

Figure 3 is a partial sectional view showing the grommet according to Figures 1 and 2, as it is cast in an instrument transducer.

Figure 4 is an end view of one embodiment of one Instrument converter and shows an application example for the bushing according to the invention.

According to the preferred exemplary embodiment of the invention, a molded or cast bushing body for instrument converters is provided of the dry type. In the various figures, the same reference numbers are used to denote the same parts used. First of all, FIGS. 1 and 2 will be discussed, which represent the preferred exemplary embodiment of the cast bushing body show according to the invention. The bushing body 10

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is a substantially cylindrical body having a first outer surface 12 of a first diameter and a second outer surface 14 of a larger diameter. The surface 12, which forms the outer end section of the feedthrough IO, and the surface Ik _3, which forms the inner end section of the feedthrough 10, fit together in a groove or a recess 16. The recess 16 is used to snap the feedthrough body 10 into the body of an instrument transducer, as will be described in more detail below. The bushing body 10 is preferably cast from an epoxy resin material filled with silicon dioxide, which provides good dielectric strength and dimensional stability. However, other electrically insulating synthetic resin materials can be used if desired. For example, if the instrument transducer with which the grommet is to be used is molded from a butyl material, as described in US Pat. No. 2,997,526, the grommet can also be molded from a similar butyl material.

As shown in FIGS. 1 and 2, the surface 12 and that forming the outer portion of the grommet 10 are End 18 provided with a conductive material 20. The conductive material 20 may be a conductive adhesive that allows the attachment the material of the feedthrough body on the insulation of the instrument transducer is improved. The conductive coating 20 fits with the earth shield of the termination module (not shown) and relieves any stress at the interface of the grommet 10 and the insulation of the instrumentation transducer .

The bushing body 10 is provided with an inwardly conical inner surface or a bore 22 and has a groove or recess 24 at the lower end or base 26 which is shaped to receive a termination module. Examples of this are described in U.S. Patents 3,593,972 and 3,763,461. The base 26 has an opening 28 which is a conductor connection of an instrument transducer can accommodate. The surface of the mouth

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is provided with a conductive coating 30. The conductive one Coating 30 works with the contact piece of an instrument transducer together to create a high voltage shield the any high voltage stress on the inner surface of the opening 28 and the contact piece of the conductor is eliminated, as is evident from the following becomes even clearer. In the described embodiment of the invention is at the outer end of the bushing body 10 a recess 32 is provided for receiving a support disc. The surface of the recess 32 is also provided with a conductive coating 34, which is electrically connected to the conductive Cover 30 is connected.

Figure 3 shows the bushing 10 as it is in an instrument converter 40 is cast or molded, wherein in Figure 3 only part of the transducer is shown. As can be seen from Figure 3, the feedthrough body 10 is in the body 42 of the instrument transducer 40 molded. The isolation 44 of the instrument transducer 40 surrounds almost the entire outer surface of the grommet 10 and fills the recess 24 completely, whereby the feed-through body 10 is firmly inserted into the body 42 of the instrument transducer 40 is inserted or engaged. As can be clearly seen in Figure 3, the conductive coating 18 mates with the grounding coating 46 of the instrument transducer 40 and also fills the inner surface between the surface 12 of the bushing body 10 and the insulation 44 of the instrument transducer 40, which reduces the stresses between these surfaces will. It can also be seen that the conductive coating 18 also interconnects with the earth shield on any termination module which is attached to the grommet 10. A conductor contact 48 with a threaded end 50 extends through the opening 28 into the feed-through body 10. The conductor connection piece 48 is connected to the high-voltage connection or the Head of an instrument transducer 40 connected. It is also clear that the conductor contact piece 48 provides the necessary connection with an end termination module attached to the bushing body 10. In Figure 3 it is also shown that a support disc 52 in recess 32 and on conductor contact piece 48

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is attached. This support disc reduces mechanical stress on the bushing body 10.

Figure 4 shows a front view of an instrument transducer, using the bushing body according to the invention. It it is clear that the bushing 10 and 10a in the Body 42 of the instrument transducer 40 are cast. With help the lead-through body 10 and 10a, the terminating modules can be poured into this lead-through body in a simple manner and separable connection elbows can be used to to attach the high-voltage lines to the instrument converter in a known manner.

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Claims (5)

25U039 Expectations Feedthrough fitting for instrument transducers for manufacture of high-voltage connections, characterized in that a cylindrical Body (10) is formed or cast from electrically insulating material, the body (10) having a first end portion an outer surface (12) having a first diameter and a second or inner end portion having an outer Has surface (14) with a second, larger diameter, the end portions by a groove or depression (16) are interconnected, the first outer surface (12) has a conductive coating (20), the cylindrical Body (10) contains a bore (22) which is tapered inwardly from the first end portion and for receiving of an end module, and the inner end of the bore (22) has an opening (28) for receiving it a threaded connector (48) of an instrument converter (40). 2. Feedthrough fitting according to claim 1, characterized characterized in that the surface of the opening (28) in the inner end portion of the bore (22) with a conductive coating (30) is provided. 3. bushing-shaped piece according to claim 1, characterized in that the bushing body (10) is molded from a silica-filled epoxy resin. 4. Feedthrough fitting according to claim 1, characterized characterized in that the grommet (10) is formed from a butyl material. 5. Bushing fitting according to one or more of the claims 1-4, characterized in that an instrument converter (40) is provided, the insulation of which essentially all of the outer surfaces of the 509842/0754 25U039 Bushing body (10) surrounds and the recess (16) between the first outer surface (12) and the second outer surface (14) completely fills and the bushing body (10) with the instrument converter ( ¹ IO) and a conductor connector (48) of the instrument converter (40) which extends through the opening (28) and into the bushing body (10). 509842/0754 ORiQlMAL SMSPECTED