WO2017036715A1 - Rim electrode and winding arrangement of a transducer - Google Patents

Abstract

The invention relates to a winding arrangement (22) of a transducer (1). The winding arrangement (22) comprises a rim electrode (43) which has a hollow cylindrical electrode central portion (57) and two annular shielding collars (59) that form opposite ends of the rim electrode (43). Each shielding collar (59) is connected to the electrode central portion (57) and is curved outwardly relative to the electrode central portion (57).

Description

description

Rim electrode and winding arrangement of a transducer The invention relates to a winding arrangement of a transducer and in particular a rim electrode of a winding arrangement derarti ^¬ gen.

More particularly, the invention relates to voltage transformers for measuring electrical voltages and / or for protection against high electrical voltages and transducers, which are a combination of such voltage transformers with current transformers for measuring electrical currents and / or for protection against high electrical currents.

Such transducers transform electrical voltages and currents according to the principle of a transformer and have a winding arrangement with two different ones

Transducer windings on.

The invention has for its object to provide an improved electrode of a winding arrangement of a transducer, an improved winding arrangement of a transducer and a method for their preparation and an improved transducer.

The object is achieved according to the invention with respect to the electrode by the features of claim 1, with respect to the Wick ^¬ lungsanordnung by the features of claim 6, respects lent of the method by the features of claim 8 and with respect to the transducer by the features of the ^¬ claim 11 ,

Advantageous embodiments of the invention are the subject of the dependent claims.

A rim electrode of the invention a voltage Wicklungsanord ^¬ a transducer includes a hollow cylindrical Electrode center portion and two opposing En ^¬ the rim electrode forming annular Abschirmkragen. In this case, each shielding collar adjoins the electrode center section and is designed to be bent outwards relative to the electrode center section.

On the one hand, the rim electrode makes it possible to position and insert a transducer winding of the winding arrangement by applying the transducer winding to the electrode center section and, on the other hand, to shield the windings

Winding arrangement before electric fields, in particular at the ends of the winding arrangement, by the Abschirmkragen. Characterized the rim electrode has two functions in her ^¬ conventional winding assemblies by separate components imple- mented, namely by a rim for positioning and placing a transducer coil and shield electrodes for shielding electric fields. This advantageously reduces the number of components of the winding arrangement and thereby also the component costs, and simplifies and shortens the assembly of the winding arrangement.

An embodiment of the invention provides that each shielding collar is bent over the electrode center section by more than 180 degrees to the outside and designed to be open.

By more than 180 degrees outwardly bent shape of the Abschirmkragen their shielding effect is improved. The open design of the Abschirmkragen advantageously allows the introduction of a transducer winding of the winding arrangement.

A further embodiment of the invention provides that the rim electrode consists of two electrode halves, each ^¬ weils form one half of the electrode center portion and each Abschirmkragens. This embodiment of the invention simplifies both the manufacture and the assembly of the rim electrode with respect to an integrally designed rim electrode. A further embodiment of the invention provides that the rim electrode is made of a metallic material, ^¬ example, of aluminum.

These materials advantageously enable a shielding effect of the shielding collar and a stable design of the electrode middle section.

A winding arrangement according to the invention a transducer comprising a first transducer coil, the transit axis to a Wick- around passes, an inventive Felgenelekt ^¬ rode, which is arranged around the first transducer coil around, so that an inner surface of the Elektrodenmittelab- surrounding section of an outer surface of the first transducer coil, and a second transducer winding extending around an outer surface of the electrode center section. Optionally, the winding assembly further comprises a winding tube around which the first transducer winding passes.

Such a winding arrangement has the above-mentioned advantages by the embodiment with a rim electrode according to the invention. A winding tube advantageously simplifies the positioning and mounting of the winding arrangement, in particular around a core section of a measuring transducer core. In an inventive method for producing a winding arrangement of the invention, the inner surface of the electrode central portion to the rim electrode material ^¬ positively connected to the outer surface of the first transducer ^¬ development. Subsequently, the second Messwandler- winding is placed around the outer surface of the section of the rim Elektrodenmittelab ^¬ electrode. Here, the inner ^¬ surface of the electrode center portion, for example, with an adhesive cohesively with the outer surface of the connected first transducer winding. Alternatively or additionally, applying a binder onto the outer surface of the first transducer coil and / or on the inner surface of the electrode center portion and the inner surface of the electrode center portion is firmly bonded by heating the binder ^¬ means with the outer surface of the first transducer coil.

In this manufacturing method, in particular, the two electrode halves of a two-part rim electrode need not be connected to one another, since their positions are fixed by the material-locking connection with the first transducer winding. An inventive transducer has a winding arrangement according to the invention. Optionally, the transducer further comprises a transducer core having a core portion around which the winding assembly is disposed. Such a transducer has the above already advantages by the embodiment with a winding arrangement according to the invention.

The above-described characteristics, features, and advantages of this invention, as well as the manner in which they will be achieved, will become clearer and more clearly understood in connection with the following description of exemplary embodiments which will be described in detail in conjunction with the drawings. Showing:

1 shows a sectional view of a transducer,

2 is a perspective view of an active part unit of a transducer,

3 is a perspective sectional view of an active part unit of a transducer, 4 shows a perspective view of a winding arrangement of an active subunit of a transducer, and FIG 5 is a perspective view of an electric rim ^¬ de.

Corresponding parts are provided in all figures with the same reference numerals.

1 shows a sectional view of a transducer 1. The transducer 1 is designed as a gas-insulated combined voltage and current transformer. The transducer 1 comprises a transducer housing 3 with a housing head 5, a housing bottom 7 and an extending between the housing head 5 and the housing bottom 7 insulator 9. The housing head 5 is formed as a bottle-like hollow body, which is conical to a ring-shaped Gehäusekopf- end 11, which surrounds a housing head opening, narrows. At the end of the housing 11, the insulator 9 connects. The iso ^¬ lator 9 is substantially formed as a tube having on its outer side insulator ribs 13 which extend in a ring around a longitudinal axis of the insulator 9. The bottom of the housing 7 remote from closing one of the housing head 5 En ^¬ de of the insulator 9. The transducer housing 3 is for receiving an insulating gas such as sulfur hexafluoride gas-tightly formed. The housing head 5 has a printing t ^¬ lastungsventil 15, lergehäuse by the insulating gas from the Messwand- 3 can be discharged when the pressure in the

Transducer housing 3 exceeds a pressure threshold. On the housing bottom 7, a conductor bushing 17 is arranged, are guided by the electrical conductor from the interior of the Mess ^¬ converter housing 3 to the outside. On the conductor passage 17, a terminal box 19 for contacting the guided through the conductor bushing 17 conductor is arranged. In the housing head 5, an active subunit 21 with a winding ^arrangement 22 according to the invention and a current transformer unit 23 are arranged as a voltage converter, wherein the current transformer unit 23 is arranged between the active subunit 21 and the insulator 9.

The active part unit 21 and the winding assembly 22 will be described below with reference to Figures 2 to 5. The

Current transformer unit 23 comprises a primary conductor 25 designed as a busbar with primary conductor connections 27 arranged outside of the transducer ^housing 3 and a current transformer winding arrangement 29 running around the primary conductor 25 and known per se, and therefore not shown in detail, with a secondary current transformer winding.

A secondary transducer winding 41 of the winding ^arrangement 22 and the secondary current transformer winding of the current transformer winding arrangement 29 are connected to terminals of the terminal box 19 via connecting lines (not shown), wherein the connecting lines are provided by tube-like shielding ^sleeves 31 and 13 arranged in the transducer housing 3 are guided through the conductor bushing 17 to the terminal box 19. Figures 2 and 3 show the active part unit 21 of the measuring ^¬ converter 1. Here, ei ^¬ NEN Figure 2 shows a perspective illustration ^¬ lung and Figure 3 shows a perspective Schnittdarstel ^¬ development of the activated partial unit 21. The active component unit 21 comprises a transducer core 33 press frame 35 and the coil assembly 22. the coil assembly 22 includes a roller tube 37, a primary first transducer coil 39, the secondary second measuring wall ^¬ lerwicklung 41 a rim electrode of the invention 43 and four anti-rotation 45th

The transducer core 33 is formed as an annular laminated core consisting of stacked laminations consists, which are pressed by the pressing frame 35 together.

The pressing frame 35 is U-shaped with two mutually parallel legs and a leg connecting the two legs formed. The pressing frame 35 consists of two pressing frame halves 35.1, 35.2, each ei ^¬ ne half of each leg and the leg connection form and lie on different sides of a plane of symmetry, in the Pressrahmenhälften 35.1, 35.2 abut each other. The

Leg ends of each leg are ausgebil ^¬ det for attachment of the press ^¬ frame 35 in the housing head 5 of the transducer 1. In the illustrated embodiment, each press frame half 35.1, 35.2 thereto at each leg end to a connection opening 47, through which a connecting element, for example a screw for fixing the leg ^¬ of a corresponding frame holder 49 of

Housing head 5 (see Figure 1) is guided. To fix the pressing frame 35 to the measuring transducer core 33 and to clamp the laminations of the measuring transducer core 33, a plurality of clamping elements 51 are guided through the measuring transducer core 33 and the two pressing frame halves 35.1, 35.2. In this case, each clamping member 51 is rod-like and has GR nigstens a Led ^¬ tes by a press frame half 35.1, 35.2 end to which a nut screw 53 for pressing the press frame half 35.1, is screwed to the transducer core 33 35.2. The winding tube 37 surrounds a core portion 34 of the Messwand ^¬ lerkerns 33, which extends between the legs of the press frame 35 and by frame recesses 55 in the Pressrahmenhälften 35.1, 35.2. The winding tube 37 carries the primary transducer winding 39, which surrounds a central portion of the winding tube 37, the rim electrode 43, which is the primary

Surrounding transducer winding 39, and the secondary Meßwand ^¬ lerwicklung 41, which surrounds the rim electrode 43. The Fel ^¬ counter-electrode 43 has a electrode center portion 57 is formed as a hollow circular cylinder, and two opposing Abschirmkragen 59 on. Each shielding collar 59 forms an end of the rim electrode 43 and the shielding of electrical fields from ^¬ against the Elektrodenmittel- portion 57 outwardly more than 180 degrees, preferably designed by more 270 degrees bent. The rim ^¬ electrode 43 consists of two similar electrodes halves 43.1, 43.2 (see Figures 4 and 5), each forming one half of the electrode central portion 57 and each Abschirmkragens 59th

The anti-rotation 45 connect the winding tube 37 with the press frame 35 and prevent rotation of the winding tube 37 about its longitudinal axis. In this case, each end of the winding tube 37 is connected to each of the two pressing frame halves 35.1, 35.2 by a respective rotation 45, so that the winding tube ^¬ 37 is connected by a total of four anti-rotation 45 with the press frame 35. Each anti-rotation 45 connects the winding tube 37 with the pressing frame 35 by a curing compound in a manner not described in detail here.

Figure 4 shows a perspective view of the through the winding tube 37, the transducer windings 39, 41 and the

Electrode halves 43.1, 43.2 of the rim electrode 43 formed winding arrangement 22 of the active part unit 21st

In the manufacture of the coil assembly 22, the inner surface of the electrode center portion 57 of the Felgenelekt ^¬ rode 43 is firmly bonded to the outer surface of the first transducer coil. 39 For this purpose the inner surface of the electrode center portion 57 is firmly bonded with an adhesive to the outer surface of the first measuring wall ^¬ lerwicklung. 39 Alternatively or additionally, applying a binder onto the outer surface of the first transducer coil 49 and / or onto the inner surface of the Elektrodenmittelab ^¬ section 57 and the Innenoberflä ^¬ surface of the electrode center portion 57 is by heating the binder to the outer surface of the first Messwandler- Winding 39 Cohesively connected. Subsequently, the second transducer coil 41 is laid around the outer surface of the electrode center portion 57. Figure 5 shows a perspective view of the rim ^¬ electrode 43. The two electrode halves 43.1, 43.2 are made identical and are in a plane in which a longitudinal axis of the rim electrode 43 extends accurately anei ^¬ nander applied so that they together the Elektrodenmittel- section 57 and the two Abschirmkragen 59 form. Each shielding collar 59 adjoins the electrode central portion 57, wherein the shielding collar 59 in the initially bent directly at the electrode central portion 57 adjoining region ge ^¬ genüber the electrode central portion 57 to the inside and the shielding collar is then designed bent outwards 59, so that the Shielding collar 59 has the shape of a Torusmantels from which a ring around the Elekt ^¬ rodenmittelabschnitt 57 extending strip herausgeschnit ^¬ th is. The rim electrode 43 is made of a metallic material, for example of aluminum, for the purpose of shielding electric fields.

Although the invention in detail by preferred execution ^¬ examples has been illustrated and described in detail, the invention is not limited by the disclosed examples and other variations can be derived therefrom by the skilled artisan without departing from the scope of the invention.

Reference sign list

1 transducer

 3 transducer housing

 5 housing head

 7 caseback

 9 insulator

 11 housing end

 13 isolator rib

 15 pressure relief valve

 17 conductor feedthrough

 19 terminal boxes

 21 active part unit

 22 winding arrangement

 23 Current transformer unit

 25 primary conductors

 27 primary conductor connection

 29 current transformer winding assembly

31 shielding sleeve

 33 transducer core

 34 core section

 35 press frame

 35. 1, 35.2 Press frame half

 37 winding tube

 39, 41 Transformer winding

 43 rim electrode

 43. 1, 43.2 Electrode half

 45 anti-twist device

 47 connection opening

 49 Framework

 51 clamping element

 53 nut

 55 frame recess

57 electrode center section Łbschirmkrage

Claims

claims A rim electrode (43) of a winding arrangement (22) of a transducer (1) comprising the rim electrode (43) a hollow-cylindrical electrode middle section (57) and two opposite ends of the rim electrode ^¬ (43) forming annular Abschirmkragen (59),  - Wherein each Abschirmkragen (59) adjoins the electrode central portion (57) and is opposite to the Elektrodenmit- telabschnitt (57) bent outwards. 2. rim electrode (43) according to claim 1, d a d u r c h e c e n c i n e s that each shielding collar (59) is bent outwardly from the electrode center section (57) by more than 180 degrees and is designed to be open. 3. Rims electrode (43) according to any preceding Ansprü ^¬ che, d a d u r c h e c e n c i n e s that the rim electrode (43) consists of two electrode halves (43.1, 43.2) which each form one half of the electrode center section (57) and each shielding collar (59). 4. rim electrode (43) according to one of the preceding Ansprü ^¬ che, d a d u r c h e c e n c i n e s that the rim electrode (43) of a metallic material is ge ^¬ prepared. 5. rim electrode (43) according to one of the preceding Ansprü ^¬ che, d a d u r c h e c e n c i n e s that the rim electrode (43) is made of aluminum. 6. winding arrangement (22) of a transducer (1), the Wick ^¬ lungsanordnung (22) comprising - a first transducer coil (39) which extends around a winding ^¬ axis, - a rim electrode (43) according to one of the preceding claims, which is arranged around the first transducer coil (39) around, so that an inner surface of the electrode center portion (57) surrounding an outer surface of the first measuring ^¬ transducing winding (39),  and a second transducer winding (41) running around an outer surface of the electrode center section (57). 7. winding arrangement (22) according to claim 6, marked by a winding tube (37) around which the first Transducer winding (39) runs. 8. A method for producing a winding arrangement (22) according to claim 6 or 7, wherein the inner surface of the Elekt ^¬ rodenmittelabschnitts (57) of the rim electrode (43) is materially connected to the outer surface of the first Meßwandler ^¬ winding (39) and then the second transducer winding (41) is placed around the outer surface of the electrode ^¬ middle section (57) of the rim electrode (43). 9. The method according to claim 8, d a d u r c h e c e n c i n e s that the inner surface of the electrode center portion (57) is adhesively bonded to the outer surface of the first transducer coil (39) with an adhesive. 10. The method according to claim 8 or 9, characterized in that a binder is placed ^¬ introduced to the outer surface of the ers ^¬ th transducer winding (39) and / or onto the inner surface of the electrode center portion (57) and the inner surface of Elektrodenmittelab ^¬ section (57) by heating the binder with the outer Surface of the first transducer winding (39) is materially connected. 11. A transducer (1) having a winding arrangement (22) according to claim 6 or 7. 12. transducer (1) according to claim 11, marked by a transducer core (33) having a core portion (34) about which the winding assembly (22) is disposed.