JPH04219909A - Bushing converter - Google Patents

Abstract

PURPOSE: To pass through a current in a high potential in an insulation state by embedding a duct pin and an exciting coil for measurement in an insulation body, electrically connecting the exciting coil for the measurement respectively and by forming a flat bottom part in a sealed state to the bushing of one end of the duct pin. CONSTITUTION: The bar-shaped duct pin 5 formed by conductive metal and the exciting coil 6 for the measurement for detecting the increase speed of the current flowing through the duct pin 5 are embedded in the insulation body 3, the exciting winding 6 for the measurement is electrically connected respectively, an opening part for electrically connecting both ends of the duct pin 5 is provided and the insulation body 3 is provided with a sealable flat bottom part 16 in the bushing at one end of the duct pin 5. A bush 17 for connection provided with a connection pin is installed to the outer wall of the insulation body 3 so as to electrically connect the exciting winding 6 for the measurement and the electric contact piece of an external connection member is engaged with the bush for the connection by using a screw for instance.

Description

[Detailed description of the invention]

0001

[Industrial Application Field] The present invention has a rod-shaped duct pin made of conductive metal as a primary winding, and an excitation winding for measurement disposed annularly around the duct pin as a secondary winding. Regarding bushing current transformers.

0002

BACKGROUND OF THE INVENTION The above-mentioned bushing current transformer is based on the L. Merz, “Basic Course on Measurement Technology Part 1: Measurement of Electrical Quantities” (R
．． Oldenburg Verlag, Munich, Vienna 1
968), pages 158 to 160. In the converter described in this document, the iron core is provided between the primary winding and the secondary winding. The converter is a rod current transformer, a rod current transformer with a porcelain shroud or a porcelain rod current transformer.

0003

SUMMARY OF THE INVENTION It is an object of the present invention to be suitable for insulatingly passing a current under a high potential, thereby detecting and transmitting electrical measurements, in particular the rate of increase of the current. The object of the present invention is to provide a bushing current transformer of the type described above, which is configured to ensure a gas-tight and liquid-tight seal between the electrical device and the bushing current transformer.

0004

[Means for solving the problem] The above problem is solved by the fact that the duct pin and the excitation winding for measurement are generally buried in an insulator, and the excitation winding for measurement is electrically connected to each of them, and both ends of the duct pin are electrically connected to each other. The solution is that the bushing at one end of the duct pin has a sealable flat bottom.

[0005]

[Operations and Effects] A special advantage obtained from the present invention by adopting the above configuration is that the bushing current transformer of the present invention can be easily and inexpensively manufactured using well-known casting resin technology; It is extremely robust, particularly vibration-resistant and has a very compact construction in terms of size.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings.

FIG. 1A is a side sectional view of a bushing current transformer. The figure shows that a bushing current transformer 1 is mounted, for example, on a housing wall 2 of a converter module, with its lower end projecting through a hole formed in the housing wall 2.

The bushing current transformer 1 has an insulator 3 made of casting resin (for example, epoxide resin), and is provided with an annular rib 4 that increases the electrical dielectric strength and extends the electrical creepage distance. ing. As shown in FIG. 1B, the annular rib 4 is provided with a groove 35. As shown in FIG. This is because condensate can be drained when the bushing current transformer 1 is installed vertically. Preferably, a plurality of grooves are formed so that the bushing current transformer 1 can be assembled in any position. A rod-shaped duct pin 5 made of conductive metal is installed at the center of the insulator 3. A narrow part 14 is formed in the center of the duct pin 5,
Since the insulator 3 partially engages the constriction 14 or completely surrounds the constriction 14, the duct pin 5
and the insulator 3 can be reliably bonded to each other. The end of the duct pin 5 that projects upward from the rib 4 of the insulator 3 is provided with a recess 37 .

The measurement excitation winding 6 is, for example, a measurement excitation winding for detecting the rate of increase in the current flowing through the duct pin 5, and is wound around a winding support 7 arranged in a ring around the center of the duct pin 5. The connecting pins are 8 on both sides.
is installed.

In order to attach the bushing current transformer 1 to the housing wall 2 in which the through holes are formed, a total of four fixing holes 9 are bored in the flange provided in the insulator 3. The tubular support sleeve 10 inserted into the fixing hole 9 passes through the flange and is supported by the housing wall 2, so that the blind hole 2
The mechanical stress applied via the fixing bolt 25 screwed into the housing wall 2 is absorbed by the housing wall 2. it is,
This is to prevent a large force exceeding the value from being applied to the insulator 3. Three packing rings 11, 12, 13 are provided to seal the bushing current transformer 1 against the housing interior 15, which is closed off by the housing wall 2 and filled with e.g. cooling oil or other liquid or gas. ing. The first packing ring 11 is inserted into an annular groove formed in the flat bottom 16 of the insulator 3 and seals the insulator 3 against the housing interior 15. The second packing ring 12 is inserted into an annular groove formed at the end of the duct pin 5 installed in the housing interior 15, and seals the coupling area between the duct pin 5 and the insulator 3 from the housing interior 15. ing. The third packing ring 13 is inserted into an annular groove formed in a portion of the duct pin 5 opposite to the housing interior 15, and is used to further seal the coupling area between the duct pin 5 and the insulator 3.

The connecting bush 17 with the connecting pin 8 is
It is installed on the outer wall of the insulator 3 to electrically connect the excitation winding 6 for measurement. Electrical contact pieces of an external connecting member (not shown) are engaged in the connecting bush 17, for example by means of screws, so that an electrical connection with the connecting pin 8 is obtained. In order to protect the external connection members and to obtain the necessary creepage distance between the duct pin 5 and the connection bushing 17, an eaves portion 18 is provided around the connection bushing 17 on the side outer wall of the insulator 3. - is formed in a square shape, thereby forming a connection chamber 19.

The duct pin 5 has a through hole 20 at its center. For example, a hexagonal outer wall 21 is formed on a portion of the duct pin 5 opposite to the housing interior 15, and is electrically contacted via, for example, an external roller contact. The end of the duct pin 5 installed inside the housing 15 is provided with a toothed hole 24 . As shown in FIG.
A sealing 23 placed at the transition from to the part of the toothless central bore 20 seals the housing interior 15 .

FIG. 1B is a plan view of the bushing current transformer 1. Insulator 3 with ribs 4 and four fixing holes 9
and support sleeve 10 are shown. A fixing bolt 25 passing through the fixing hole 9 is also shown. The eaves portion 18 forming the connection chamber 19 has a connection bush 17 connected to the connection pin 8.
cover. Furthermore, the hexagonal outer wall 21 and the central hole 20 of the duct pin 5 are also shown. Groove 35 suitable for draining condensate
are shown by dotted lines, and the duct pin 5 and fixing bolt 25
shall be arranged so that the required creepage distance between them is maintained.

FIG. 2 is a side view of the bushing current transformer 1. Specifically, the eaves portion 1 of the insulator 3 forming the connection chamber 19
8, the connecting bush 17 and the connecting pin 8 are shown. The support sleeve 10 projects slightly over the flange of the insulator 3. The tooth profile formed on the outer periphery of the insertion member 22 is screwed into the tooth profile hole 24 of the duct pin 5, and the packing 2 is inserted in the lateral direction.
3, the center hole 20 is sealed against the outside. In this case, the toothed nut 22 passes through a hole in the electrical connection rail 27 (contact rail, flexible strip) and connects it to the duct pin 5 in electrical contact. to press. At this time, the bolt 36 inserted into the center hole 20
is screwed in with a toothed nut 22, and the recess 37 accommodates the head of the bolt 36. The outer teeth of the nut 22 engage the teeth of the bore 24 in a splined manner so that the bolt 36
Even when the toothed nut 22 and the connecting rail 27 are being tightened,
There is no twist between the two. The bolt 36 can at the same time hold a roller contact used for external electrical contact. The roller contact is in the groove 38 (
(see FIG. 1A). FIG. 2 also shows that the other end of the duct pin 5 has a hexagonal outer wall 21 and a packing ring 13.

FIG. 3A is a side sectional view of a plastic winding support. The annular winding support has two holes 29 in which the connecting pins 8 for the measuring excitation winding 6 are accommodated. Bars are formed on both sides of both holes 29, which additionally mechanically hold the connecting pins 8. A pocket 30 is provided between both holes 29 in which a circuit element 32 for the measurement excitation winding 6 is accommodated. A gap 31 formed in the pocket 30 communicates with a respective blind hole 26 , which guides the connecting wire from the circuit element 32 to the contact pin 8 .

FIG. 3B is a plan view of the winding support 7. FIG. The connecting pin 8 inserted into the hole 29 of the winding support 7
is shown attached to the connecting bush 17. Bars 28 are formed on both sides of the hole 29. Two circuit elements 32 (resistors, chokes) are housed in a pocket 30 arranged between the two holes 29 and connected to the connecting pin 8 by a connecting wire.

FIG. 4A is a side sectional view of the bushing 33. The bushing 33 is mainly characterized in that the measurement excitation winding 6 including the electrical connection member is not provided.
This is different from the bushing current transformer 1. Consisting of an insulator including a fixing hole 9 and a support sleeve 10, a duct pin 5 having a center hole 20, a hexagonal outer wall 21, a narrow part 14, a toothed hole 24, packing rings 11, 12, 13, and a packing ring 23. Other structures to be used are shown in Figure 1 (A
). Bushing 33 is bushing current transformer 1
Since the rib 4 has an overall elongated shape compared to the
It can be replaced with the annular recess 34 of the book.

FIG. 4B is a plan view of the bushing 33. It is shown that the insulator 3 has an annular recess 34 and that the fixing hole 9 has a support sleeve 10. Furthermore, it is shown that the duct pin 5 has a central hole 20 and a hexagonal outer wall 21.

The bushing 33 is required because only one external instrument transformer is used and it becomes necessary to manufacture an insulated bushing that penetrates the converter module housing wall. This is a special case.

[Brief explanation of the drawing]

FIG. 1 consists of (A) and (B), where (A) is a side sectional view of a bushing current transformer of the present invention, and (B) is a plan view.

FIG. 2 is a top view of a bushing current transformer.

FIG. 3 consists of (A) and (B), where (A) is a side sectional view of the winding support and (B) is a plan view.

FIG. 4 consists of (A) and (B), where (A) is a side sectional view of another bushing, and (B) is a plan view.

[Explanation of symbols]

3... Insulator, 4... Rib, 5... Duct pin, 6... Excitation winding for measurement, 7... Winding support, 8... Connection pin, 9... Fixing hole,
DESCRIPTION OF SYMBOLS 10...Support sleeve, 11, 12, 13...Packing ring, 14...Narrow part, 16...Bottom part, 18...Eave part, 19...
Connection chamber, 20... Center hole, 22... Tooth shaped nut, 24... Tooth shaped hole, 27... Connection rail, 29... Hole, 30... Pocket, 3
2...Circuit element, 35...Groove, 36...Volt.

Claims (13)

[Claims] Claim 1: A bushing current transformer having a rod-shaped duct pin made of a conductive metal as a primary winding and a measuring excitation winding disposed annularly around the duct pin as a secondary winding. , the duct pin (5) and the measurement excitation winding (6) are generally made of a casting resin insulator (3).
), each of which has the measurement excitation winding (6)
and an opening for electrically connecting both ends of the duct pin (5), and the insulator (3) is sealed to a bushing at one end of the duct pin (5). Bushing current transformer, characterized in that it has a flat bottom (16). 2. The insulators (3) each have a support sleeve (3) cast into the flat bottom (16).
Bushing current transformer according to claim 1, characterized in that it has a plurality of fixing holes (9) with (10). 3. Bushing current transformer according to claim 2, characterized in that the flat bottom (16) is provided with an annular groove for accommodating a packing ring (11). 4. The duct pin (5) is provided with an annular groove for accommodating a packing ring (12, 13), and the packing ring (12, 13) is connected to the insulator (3) and the duct pin (5). Bushing current transformer according to claim 1, characterized in that the coupling area between the bushings is reliably sealed. 5. Bushing current transformer according to claim 1, characterized in that the insulator (3) has ribs (4) extending the electrical creepage distance. 6. Bushing current transformer according to claim 5, characterized in that the ribs (4) are provided with grooves (35) for draining condensate. 7. The duct pin (5) is connected to the insulator (
Bushing current transformer according to claim 1, characterized in that it is provided with a narrowing (14) in the central part provided in the bushing (14). 8. The measurement excitation winding (6) is attached to a winding support (7) provided annularly around the duct pin (5).
2. The bushing current transformer according to claim 1, wherein the bushing current transformer is wound around the bushing current transformer. 9. The winding support (7) is a circuit element (3).
Bushing current transformer according to claim 1, characterized in that it has a pocket (30) for accommodating 2). 10. The winding support (7) is characterized in that the winding support (7) is provided with a hole (29) for accommodating a connection pin (8) for electrically connecting the measurement excitation winding (6). The bushing current transformer according to claim 8 or 9. 11. The insulator (3) has an eaves portion (18) forming a connection chamber (19) for electrical connection in an opening for electrically connecting the measurement excitation winding (6). The bushing current transformer according to any one of claims 1 to 10, comprising: a bushing current transformer according to any one of claims 1 to 10. 12. The duct pin (5) has a central hole (2
0) and a bolt (20) inserted into the center hole (20).
The bushing according to any one of claims 1 to 11, wherein the bushing (36) is used to hold a connection rail (27) that is electrically connected to the duct pin (5). Current transformer. 13. The bolt (36) is a toothed nut (
22), the end surface of the center hole (20) is provided with a toothed hole (24), and the toothed nut (22) is engaged with the toothed hole (24) so as not to be twisted. ,
13. The bushing current transformer according to claim 12.