前苏联专利SU1538906A3 High-voltage current transformer

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专利摘要:
The invention relates to electrical engineering. The aim of the invention is to simplify manufacture and increase reliability by improving compaction. The current transformer comprises a housing, which is under the pressure of an inert insulating gas, mounted on an insulating column, at its upper end a closing plate 8 with a seal is fixed. Inside the case there are several annular cores 13 with corresponding secondary windings located in the ring 14 with the sheath 15 of casting resin. The secondary system is fixed through the support insulator 17 to the closing plate 8. On this plate, the primary conductor 18 is made U-shaped. Its base passes through the ring 14, and both racks 20 and 21 are fixed in the closing plate 8 by means of connecting portions 22, conducted through it with a seal. The posts 20 and 21 pass through the closing plate 8 and are connected to the external conductor by means of the connecting contacts 23. Thanks to this design, the sealing of the transformer is simplified and its reliability is improved. In additional clauses, decisions are made regarding the implementation of the locking plate and the support element. 25 hp ff, 13 ill.
公开号:SU1538906A3
申请号:SU4028451
申请日:1986-11-10
公开日:1990-01-23
发明作者:Прайсингер Норберт；Богдан Теофил
申请人:Мвб Мессвандлер -Бау Аг (Фирма)；
IPC主号:

专利说明:

The invention relates to electrical engineering, namely to high-voltage current transformers.
The purpose of the invention is to simplify manufacturing and increase reliability by improving compaction.
Figure 1 shows the high-voltage current transformer in the form of a head structure, a section; figure 2 - the head of a high-voltage current transformer, the section; on fig.Z - section aa on fgg.2; 4 shows the lower honor of the closing plate, a slit; Fig.5 - left stoic primary conductor; n 6 - the rights of the stoic primary conductor; PA 7 - connection base-rack primary conductor, top view; on Fig - VIP B in Fig, 7; 9-11 - rods of the primary conductor with a mixed inner section; 12 and 13, high-voltage current transformer with non-switchable primary conductor, variants.
Position 1 denotes a high-voltage current transformer, made in the head structure, located under the usual overpressure of an inert insulating gas, such as sulfur hexafluoride, which consists of a column 2 of insulating material (supporting insulator), such as porcelain, epoxy resin or from composite insulator - synthetic material, reinforced with fiberglass with fused silicone ribs, from the supporting part of this column, and from the head part 4 which contains the active system, with the conductive wire of the primary and secondary systems. In column 2 coax
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5 Q Q
5 n
but there is an outlet pipe 5 in it in which the secondary conductors 6 pass and are led to the secondary terminals in support part 3. A potential control device, in particular a potential control winding consisting of capacitor plates, is provided between the outlet pipe 5 and column 2.
At the upper end 7 of the column 2 a closing plate 8 is fixed with a seal in relation to the insulating material, i.e. with oil and gas seal, having a downwardly projecting rim 9 (Fig. 2), which encompasses the column 2 from the outside. The inner bearing edge 10 is located on the end surface 11 of the column 2 with the intermediate seal 12.
Several ring cores 13 with corresponding secondary windings (not shown) are located in ring 14, have a shell 15 made of casting resin, and form a secondary system 16 into which pipe 5 is inserted. Secondary system 16 is fixed through the support insulator 17 (Fig .3) only on the closing plate 8. The support insulator 17 is located passing obliquely in the outward direction and is expediently mounted centrically with respect to the discharge pipe 5. In addition, the primary conductor 18 is fixed on the closing plate 8, which is made U-o different or at least approximately U-shaped, and its base 19 passes through a concentric ring 14 respectively, the core or core 13 and the two racks 20 and 21 secured in the closure plate 8 via the connecting
sections 22, conducted through it with a seal against an insulating material. In this case, the outer flange 23 serves as a support;
on racks 2Q and 21. Contact with racks 20 and 21 can be provided outside, i.e. bottom closing plate 8.
The locking plate 5 is designed in such a way that it protrudes all active parts in all directions, i.e. for the secondary system 16 and for the entire primary conductor 18. For example, it has the shape of a bath or a dish. On these parts wear cap 24 with a hole 25, made as the body of the head. A flange 27 is provided on the edge 26 bounding the opening 25 of the cap, with which the cap 24 can be screwed tightly with respect to the insulating material to the end plate 8. The cap 24 can consist of a pipe section 29 and a cap or pot-shaped lid 30, which at the interface 31 in the case of a metallic version
The L axis of the support insulator 17, Bir / three of the support surface 35 is provided with an opening 36 through which the shaft 37 of the fastening screw 38s passes, which is screwed to the built-in threaded part 39, designed as threads. A sleeve 40 is provided between the support insulator 17 and the closing plate 8. In order to increase reliability against the leakage of compressed gas or insulating oil, over the screw head tl or above the corresponding nut can be installed
5, the cover 42, which is hermetically connected to the end plate 8, is in particular screwed to the latter.
The location of a separate support insulator 17 on the ring 14 may be
0 is also implemented in such a way that the shell 15, made of casting resin, is mounted on one threaded piece 43, made as a threaded bushing or as a threaded
5, and the support insulators 17 are screwed onto it with the aid of a built-in part 44 with a mating thread. In order to equalize possible during operation
can be connected by soldering or welding- 30 different linear temperature by cutting or, for example, in the case of execution of synthetic material, reinforced with fiberglass, at the junction can be overlapped. The cap 24 may also consist of a solid, pressed, molded or molded part.
On the ring 14 of the secondary system 16 at the periphery 32, the secondary terminals are led out in a reinforced discharge point 33 into which the outlet tube 5 is located. The ring 14 is metallized from the outside, for example, by means of galvanizing by spraying. This metal layer is grounded.
At least three G7 support insulators are provided, which for ring 14 can be made on the ring 14 itself, i.e. cast from the leaves of the resin as one. However, they can be mounted with appropriate nozzles or connected with a ring 14. The lagging free ends 34 of the support insulators 17 rest on suitably fitting support surfaces 35 of the end plate 8, arranged in particular perpendicular to the longitudinal
shnrenich on the one side of the insulating column 2, and on the other side of the lead pipe 5, as well as to simplify the assembly of the secondary system
16 on the lead-out pipe 5, the connection between the lead point 33 and the lead-out pipe 5 is mechanically made as a plug-in connection in the longitudinal direction, preferably as a connection based on the plug-in contact. At the same time, the upper end of the pull-out tube 5 is coaxially surrounded and springy held by one or more
contact springs 45, for example annular contact springs located in the ring around the outlet pipe 5, preferably a rim in which several
slots (figure 4).
The primary pris chic 13 may consist of two or more parts, for example, a corner and a stand, or of a base and two struts. In the case of angle one
the side of the corner forms the base 19, to which a 20 or 21 stand is attached. This type of design allows for easy assembly, in particular, with a small core diameter or small
the inner diameter of the ring. In the three-link version, the struts 20 and 21 are attached to the ends 46 (FIG. 2) of the rod-shaped base 19 at an angle that can be either blunt or straight. When this rack 20 and 21 can be performed as fingers. Isolation of the stand 20 and / or 21 occurs over the insulating sleeve 47 and through the ring 48, which is the flange 49 of the insulating stool 47, tightly mounted in the end plate 8, for example, by pouring or by means of o-rings, etc. The ring or flange 48 is on one side screwed tightly to the outer flange 23 of the rack 20 (21) s and on the other side is screwed to the end plate 8.
In addition, the primary conductor 18 is designed as a coaxial double conductor, in which two insulated U-shaped conductors are provided. In this case, preferably one consists of the outer 50, and the other - of the inner 51 of the conductor. They are separated from each other and fixed in a certain position by means of corresponding insulating sections, which are formed by a solid dielectric 52, such as casting resin. The dielectric 52 is provided in the region of the connecting portions 22 and thus simultaneously performs sealing. In this case, the outer conductor 50 of one rack 20 is insulated from the end plate 8 by means of the insulating sleeve 47 (Fig. 5), and the outer conductor 50 of the other rack 21 is connected to ensure the conductivity with the end plate 8, for example, fixed directly in it without insulation. At the same time, the outer conductors 50 of the uprights 20 and 21 have an outer flange 23. The inner conductors 51 of the uprights 20 and 21 are isolated to the outside and they can be fixed with the possibility of cooling rotation, for example, by means of a clamping bracket 54. be provided on an insulated outer conductor 50 of the rack 20.
By making the primary conductor 18 in the form of a double conductor, it is possible to use both conductors separately or to include them in series or in parallel. therefore
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zo
35
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45
50
55
switching is possible in a ratio of 1: 2 or when connected in parallel the primary conductor can be used for higher current load. As a separate conductor, each of the two coaxial conductors may also conduct a specific measuring current.
Parallel connection is accomplished by jointly inserting the inner 50 and outer 51 conductors of the racks 20 and 21.
The series connection occurs by attaching the connecting contact 53 to the left outer conductor 50, by electrically connecting the outer flange 23 to the pge electric wire by the clamping plate 8, by additionally electrically connecting the closing plate 8 through the auxiliary connecting contact 53 (Fig 2, represented by a dashed line) to the left the inner conductor 51, and on the right connecting section 22 there is an additional contact with the right connecting contact 53.
For connecting base 19 of primary conductor 1 & with the posts 20 and 21, clamping brackets 54 can also be used. Moreover, they can be obtained either from tubular or from filling material of the posts 20, 2 or base 19, namely both in the case of external conductors 50 and in the case of internal conductors 5 This can be accomplished by appropriate shaping and / or by machining. Here, the conductive part 55 to be clamped can be reduced in diameter (Fig. 7).
To ensure simple assembly, the outer conductor 50 of the uprights 20 and 21 in the region 56 of the inner conductor 51 of the base 19 has an opening 57 (figure 5). The outer conductor 50 is connected from the base 19 to the uprights / 0 and 2 via a flange 59 fixed on each end 58 of the outer conductor 50, with which several ends of the outer conductors 50 of the uprights 20 and 21 are located in the screw connection.
In order to achieve a compact design of a high-voltage current transformer according to the invention
the section of the rack of the primary conductor 18, coming from the outer flange 23 of the racks 20 and 21 inward into the body of the head 24, may be additionally blunted and / or displaced outwardly with respect to the longitudinal axis LS of the outer flange 23 or the connecting portion 22, however, must have same cross-section as the last (figure 10). The flat portion of racks 20 and 21 can be additionally fitted to the shape of the cap 24, i.e. may be convex (11). As a consequence, a longer distance a (Fig. 9) is obtained between the stand portion and the ring 14, so that the transformer can either be suitable for use at higher voltages, or the distance and thus the diameter of the cap can be reduced accordingly. 24, the diameter of the head part 4. FIG. 12 shows a variant of a high-voltage current transformer according to FIG. 2 for a non-switchable primary conductor 18. Similar parts are indicated by positions similar to those in FIG. and 2.
In the case of this embodiment, the primary conductor 18 is also U-shaped or at least approximately U-shaped, with its base 19 approximately centrically passing through the ring 14 or the core, or the core 13 together with the secondary windings, and one post 20 is fixed in the closing plate 9 through the connecting section 22, held hermetically with respect to the insulating material through the opening 61 of the closing plate 8. In this case, the outer flange 23, made on the rack 20, serves as a support. Contact with this station This 20 can be implemented outside, i.e. at the bottom of the closing plate 8. In this case, the connecting portion 22 is fixed insulated and tightly in relation to the insulating material by means of an insulating sleeve 47 and an insulating ring 48, which can be made in one piece with the insulating. sleeve 47. The other stand 21 is fastened from the inside by means of an external flange 23 on the inner side 62 of the closing plate 8, in particular, is screwed. No openings are provided, so there is no need to provide
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compaction. Switching off takes place with the help of an externally mounted connecting contact 63, so that the entire head in this case has the potential of the primary conductor 18. Thus, we are talking about a non-switchable primary conductor 18.
The locking plate 8 is again designed in such a way that it protrudes laterally from all sides for all active -gasti, i.e. over the secondary system 16 and the primary conductor 18 and covers them. It has the shape of a bath or a plate. On these parts on top of the cap 24, made as the body of the head. A flange 27 is provided on the edge 26 defining the cap opening 25, by means of which the cap 24 can be screwed tightly onto the end plate 8 through screw joints 28. The cap 24 can consist of a pipe 29 and a cap or pot-shaped cap 30, which, in the case of a metal version at the junction 31, spans, are welded or screwed, for example, proflanted, and in the case of the execution at the junction point 31, are overlapped. The cap 24 may consist of a single tonnage, molded or molded part,
At least two, but preferably three, supporting insulators 17 are provided, which for the ring 14 can be made together with the ring 14 itself, i.e. cast as one piece of casting resin. However, they can also be mounted using appropriate attachments or connected with the possibility of a connector with a ring. 14.
The arrangement of the individual support insulators 17 on the ring 14 can be carried out in such a way that the sheath 15 made of casting resin can be mounted with one threaded piece 43, designed as a threaded bushing or as a threaded pin, and so that the supporting insulators 17 can be screwed onto this threaded part 43 by means of an integral part 44 with a mating thread.
In order to equalize possible linear expansions of the insulating column 2 and the lead pipe 5 during operation, as well as to simplify the assembly of the secondary system 16
111538906
on the lead pipe 5, the connection between the lead point 33 and the advantageous pipe is again mechanically made as a plug connection in the longitudinal direction.
In the closing plate 8 on the inner side 62 are cast or fixed, the counter supports 63 (FIG. 13). The counterpairs 63 have for each support insulator JQ 17 one support plate 64, the support surfaces 35 of which are perpendicular to the longitudinal axis L of the bottom plate, 1X of the support insulators 17. In the reference
12
with the help of gaskets 12 in place of the flange joint with a seal against insulating material. Fastening takes place by means of a screw joint, pouring, etc.
When mounted, the secondary leads are introduced into the pipe 5 secondary leads. At the same time receive the connection on the basis of the plug contact according to figure 4. The cap 24 can be installed later. However, the outlet pipe 5 remains substantially displaced with respect to the ring 14
the plates 64 have an opening 65, th-1 j in order to avoid mechanical
a cut which passes through the bottom 37 of the fastening screw 38 and is screwed to the threaded part of the support insulator 17, which is designed as a threaded sleeve 39.
The support plates 64 can be one corner shelf, the other shelf of which is internally fastened to the end plate 8, for example, with screws.
On each side of the prism 65 is provided on one base plate 64, and prchema 65 is cast on the closing plate 8 or fixed on it. By means of this mounting of the support insulator within the space of the cap 24, it is avoided that 8 additional holes are provided in the closing plate and thus they do not have to be tightly closed against the insulating material.
20
25
thirty
35
voltages and loads on it from the active system of the proposed transformer.
In order to achieve optimal overall dimensions for the head housing, the primary conductor is designed as a U-shaped conductor with a horizontal base 19 and two vertically extending legs 20 and 21. However, this does not exclude that the angle between base 19 and legs 20 and 21 may be greater than 90 °.
Even if the primary conductor consists of two or three parts, it is possible to make it solid and, through appropriate twisting, pass it through the window of the secondary system 16 and connect it to the end plate 8 electrically and / or mechanically in order to install on the end plate 8 one after the other. , namely, in isolation with respect to each other, two similar solid primary conductors and to provide the required switching by means of appropriate strips with clamps.
The current transformer assembly is assembled in such a way that the ring 14h of the secondary system 16 is first fixed on the closing plate 8, the supporting insulators 17 are screwed onto it. Then the primary conductor 18 is passed through the ring 14 so that the base 19 of the primary conductor 18 passes in parallel through the ring 14, and the racks 20 and 21 are tightly fixed in the closing plate 8. However, you can first fix the racks 20 and 21 on the closing plate 8, and then connect the base 19 of the primary conductor 18 to the inner ends 60 of the racks 20 and 21. After that, I put on cap 24 and tightly screwed to the closure plate 8. This pre-assembled assembly forming a head portion 4 is pushed to the column 2 (the reference insulator) and fixed
6
12
with the help of gaskets 12 in place of the flange joint with a seal against insulating material. Fastening takes place by means of a screw joint, pouring, etc.
When mounted, the secondary leads are introduced into the pipe 5 secondary leads. At the same time receive the connection on the basis of the plug contact according to figure 4. The cap 24 can be installed later. However, the outlet pipe 5 remains substantially displaced with respect to the ring 14
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voltages and loads on it from the active system of the proposed transformer.
In order to achieve optimal overall dimensions for the head housing, the primary conductor is designed as a U-shaped conductor with a horizontal base 19 and two vertically extending legs 20 and 21. However, this does not exclude that the angle between base 19 and legs 20 and 21 may be greater than 90 °.
Even if the primary conductor consists of two or three parts, it is possible to make it solid and, through appropriate twisting, pass it through the window of the secondary system 16 and connect it to the end plate 8 electrically and / or mechanically in order to install on the end plate 8 one after the other. , namely, in isolation with respect to each other, two similar solid primary conductors and to provide the required switching by means of appropriate strips with clamps.
The head housing or cap 24 can be manufactured economically in terms of material costs and with low labor intensity, which provides only one flange connection to the end plate 8, the head housing 24 and exhaust pipe 5 for the secondary leads are completely unloaded from the weight of the active system 13, 14 and 18 of the proposed current transformer, along with the used insulating medium (gas or oil), no additional mixed dielectrics — solid matter and oil — are possible and a compact stand and economical in weight ratio are possible. enii structure of the head body 24, thereby loading the head of the proposed current transformer is significantly reduced.

权利要求:
Claims (10)
[1]
Invention Formula
1. High-voltage current transformer with liquid or gas insulation, having a head part with a housing and a cap, a column of insulating material, - which is carried by the head part
with a grounded sheath enclosing the secondary system, the secondary system consists of at least one winding placed on one ring core, through the middle hole of which the primary conductor passes, has a discharge pipe for secondary leads that passes through a column of insulating material on the upper end of which a horizontal closing plate is installed with a secondary system sealed on it on the supporting insulators with a fully covered head, characterized in that In order to simplify production and increase reliability by improving the seal, the primary conductor is made U-shaped with a horizontal part and vertical posts, only the horizontal part passes through the middle hole of the secondary system, at least one of the stands goes downwards through the end plate sealing with the help of insulating material outside the space bounded by the insulating column, with it the bottom can be made contact, another stand or fixed from the inside to the closing plates with the provision of electrical conductivity and with the closing plate from the bottom, direct contact can be ensured, or this stand passes in the lower direction through the closing plate with sealing by means of an insulating material, with it can be made direct contact, the head part completely covers the primary conductor and secondary system and secured with compaction using insulating material on the end plate.
2.Transformer according to claim 1, about tl and - the fact that the closing plate is made of electrically conductive material, and at least one post of the primary conductor passes in the lower direction through the circuit
[2]
Jq
jj 0 25 about -
five
conductive plate with provision of electrical insulation.
3. Transformer according to claims 1, 2, which is characterized by the fact that the shell of the secondary system is made of casting resin in the form of a ring, on the periphery of which secondary leads are led into the outlet pipe.
[3]
4. Transformer according to claims 1 to 3, which is characterized by the fact that at least two supporting insulators are mounted or cast around the exit space on the secondary system around the exit point, while their free ends from the inside rest on the back plate
[4]
and can be screwed to it.
5.Transformer on PP. 3 and 4, characterized in that threaded parts made in the form of threaded sleeves and threaded pins are mounted into a ring made of casting resin, supporting insulators are fixed by means of a threaded part on a ring made of casting resin.
[5]
6. A transformer according to claim 5, characterized in that the closing plate has supporting surfaces arranged vertically to the longitudinal axis of the supporting insulators arranged obliquely.
[6]
,
[7]
7. A transformer according to claims 1-6, characterized in that it has covers, supporting insulators are fastened to the outside plate by means of screws outside, and screw heads are closed by covers that are tightly attached to the closing plate.
8. A transformer according to claims 1-7, characterized in that the closing plate has a downwardly projecting flange with an inner bearing edge that is mounted on an insulating column, and a seal is provided between the collar and the insulating column on the wall and / or on the front side of the insulating column. .
[8]
9. A current transformer in accordance with claims 1 to 5, characterized in that the connection between the lead pipe and the lead place on the ring is designed as a plug-in device.
[9]
.
[10]
10. Transformer according to claims 1-9, T - characterized in that the primary conductor consists of two parts: from the corner shelf and from the rack attached to the corner shelf forming the base.
A transformer according to claims 1-9, characterized in that the primary conductor consists of two parts: a rod forming the base and two fingers, and at the ends of the rod forming the base are fixed at an angle, which may be straight or blunt, fingers forming racks.
12. Transformer according to claims 1-11, differing in that the posts of the primary conductor have an external flange, from which the connecting flange passes down through the closing plate
the area, the outer flange is screwed to the (end plate through the insulating sleeve and the electrically insulating ring, / abrasive seal, or directly,
13.Transformer according to claims 1-12, which is characterized by the fact that it has an insulator element made of a dielectric, the primary conductor consists of a double conductor, one of which forms an external conductor, which at the distance electrically insulates another conductor forming the inner conductor and between the two conductors in the area of the connecting sections an insulating element is placed as a means of keeping the distance and / or as a holding element.
14. Transformer according to claim 13, in which the outer conductor of one rack is insulated and hermetically passed through the end plate, the outer conductor of the other post is electrically conductively connected to the end plate.
15. Transformer according to claim 14, in which, the inner conductor of the insulated rack is electrically connected to its outer conductor or to the end plate, the inner conductor is different.
stand mounted electrically conductively on the closing plate, electrically conductively connected to its outer conductor or to the closing plate; inner conductor of another stand fixed electrically conductively to the closing plate, electrically conductively connected to its outer conductor or to the supply line,
16. The transformer according to claims 1-15, which is characterized in that the base of the primary conductor is connected to the inner ends of the posts of the primary conductor.
a conductor by means of a clamping skid, which is formed by the appropriate shaping of the rack material.
17. A transformer according to Claims 13-16, characterized in that the outer conductor of the racks in the region of the inner conductor of the base has an opening for accommodating the inner conductor of the base.
18. A transformer according to Claims 13-17, characterized in that it has flanges with which the base ends are screwed on the inner end of the outer conductor of the uprights.
19. The transformer according to claims 1-18, which is characterized by the fact that the pillars under the outer flange have a round bolt-shaped connecting section and, above it, the blunt section of the pillar, mixed outwardly with respect to its longitudinal direction, in particular extending in the direction of the cap wall and having at least the same cross section as the cross section of the connecting portion.
20. The current transformer according to claim 19, characterized in that the flat portion of the rack is made convex in cross-section and fitted
to cap shape.
2. The transformer of claim 21, wherein the other stand has a lower mounting flange, with which it is fixed to the closing plate.
22. A current transformer according to claim 1, characterized in that the closing plate has one hole for the passage of one rack and an insulator.
23.Transformer according to claim 1, 1, that is, it has an internal counter support, the secondary system by means of supporting insulators rests on each internal counter support of the end plate and inside the head housing is fixed on the end plate.
24. The transformer of claim 23, wherein the counter support has fastening bolts of the support plates, which run obliquely upwards and on the outside while the fastening bolts are screwed from the bottom into the supporting insulators.
25. The transformer according to claim 24, characterized in that the support plates are made in the form of an angled shelf shelf.
kicking in that it has prisms that are molded or rolled onto the end plate, and support plates are mounted on them.
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15.11.85 according to claims 1-13, 16-21, 23-26 according to application R3540547.E
5 03/13/86 on t.14, 15, 22 according to application W P3608391.7.
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Editor A. Motyl Tehred M. Khodanych
Order 572 Circulation 454 Subscription
VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5
Production and Publishing Combine Patent, Uzhgorod, st. Gagarin, 101
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类似技术:

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同族专利:

公开号 | 公开日

EP0232471B1|1991-12-04|

AU591398B2|1989-11-30|

AU6513686A|1987-05-21|

BR8605518A|1987-08-11|

IN169082B|1991-08-31|

US4701738A|1987-10-20|

AT70141T|1991-12-15|

TR22701A|1988-04-08|

HUT44673A|1988-03-28|

US4744138A|1988-05-17|

CN86107816A|1987-06-17|

CN1012331B|1991-04-10|

EP0232471A2|1987-08-19|

DE3608391C2|1989-12-28|

CA1264359A|1990-01-09|

YU192486A|1988-04-30|

DE3682761D1|1992-01-16|

DE3608391A1|1987-09-17|

EP0232471A3|1987-12-16|

引用文献:

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RU2696248C2|2015-06-02|2019-08-01|Сименс Акциенгезелльшафт|Current transformer and distribution device with current transformer|

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DE3540547C2|1985-11-15|1988-07-07|Mwb Messwandler-Bau Ag, 8600 Bamberg, De|

AU6734887A|1985-12-20|1987-07-15|Tyree Electrical Company Pty. Limited|Current transformers|

DE3816254A1|1988-05-11|1989-11-23|Siemens Ag|CONTROL UNIT FOR STEERING THE REAR WHEELS OF A ROAD VEHICLE|

FR2632748B1|1988-06-14|1994-04-29|Alsthom|DATA PROCESSING AND CONTROL DEVICE|

GB9101227D0|1991-01-19|1991-02-27|Lucas Ind Plc|Method of and apparatus for arbitrating between a plurality of controllers,and control system|BR8700893A|1986-03-13|1987-12-22|Messwandler Bau Ag|COMBINED HIGH VOLTAGE AND HIGH VOLTAGE CURRENT TRANSFORMER|

US5162726A|1990-09-12|1992-11-10|S&C Electric Company|Molded electrical apparatus|

GB9612504D0|1996-06-14|1996-08-14|Smiths Industries Ltd|Current transformer assemblies|

FR2774803B1|1998-02-09|2001-04-27|Gec Alsthom Ag|INTENSITY TRANSFORMER FOR A GAS INSULATED SWITCHING INSTALLATION|

FR2820540A1|2001-02-07|2002-08-09|Alstom|ARRANGEMENT FOR ASSEMBLING AN ELECTRICALLY CONDUCTIVE BAR CROSSING THROUGHOUT A METAL TANK AND METHOD OF IMPLEMENTING|

US6760206B2|2001-03-16|2004-07-06|Cooper Industries, Inc.|Current sensor supporting structure|

DE102004046134A1|2004-08-06|2006-03-16|Südkabel GmbH|Outdoor termination|

DE102007020539A1|2007-04-26|2008-10-30|Siemens Ag|Transducer arrangement|

PL2800113T3|2013-04-29|2016-09-30|High voltage dry instrument transformer|

EP2955729A1|2014-06-13|2015-12-16|Siemens Aktiengesellschaft|Supporting device for an active section of a power converter|

WO2022033687A1|2020-08-13|2022-02-17|Siemens Energy Global GmbH & Co. KG|Current transformer|

法律状态:
2005-05-10| REG| Reference to a code of a succession state|Ref country code: RU Ref legal event code: MM4A Effective date: 20031111 |

优先权:

申请号 | 申请日 | 专利标题

DE3540547A|DE3540547C2|1985-11-15|1985-11-15|

DE19863608391|DE3608391C2|1985-11-15|1986-03-13|

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