CN204964597U - Electronic current and voltage combined transformer - Google Patents

Electronic current and voltage combined transformer Download PDF

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Publication number
CN204964597U
CN204964597U CN201520692784.9U CN201520692784U CN204964597U CN 204964597 U CN204964597 U CN 204964597U CN 201520692784 U CN201520692784 U CN 201520692784U CN 204964597 U CN204964597 U CN 204964597U
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CN
China
Prior art keywords
voltage
conductor
cylinder
capacitance
low
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Expired - Fee Related
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CN201520692784.9U
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Chinese (zh)
Inventor
许赞昌
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Fujian Yihui Electrical Equipment Co Ltd
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Fujian Yihui Electrical Equipment Co Ltd
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Priority to CN201520692784.9U priority Critical patent/CN204964597U/en
Application granted granted Critical
Publication of CN204964597U publication Critical patent/CN204964597U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model provides an electronic current and voltage combined transformer, include the secondary conductor of wearing to establish on a partial conductor, be equipped with an epoxy section of thick bamboo between a partial conductor and the secondary conductor, the even coating of internal and external surface of an epoxy section of thick bamboo has semiconductive varnish, coil current mutual -inductor and coaxial capacitive voltage divider have been installed to the secondary conductor lateral wall, secondary conductor lateral wall axial is provided with an internal shield section of thick bamboo and an outer shield section of thick bamboo, an internal shield section of thick bamboo, an outer shield section of thick bamboo and the coaxial setting of secondary conductor, install in the annular cavity that an internal shield section of thick bamboo, outer shield cylindric become its simple structure, convenient to use with each coil during the use, an outer shield section of thick bamboo, the cooperation of an internal shield section of thick bamboo simultaneously wrap up the coil, has solved the problem that the luo shi coil easily received external disturbance.

Description

A kind of electronic current-voltage combination transformer
Technical field
The utility model relates to a kind of electronic current-voltage combination transformer.
Background technology
Along with electric system is to Large Copacity, UHV (ultra-high voltage) and extra-high voltage future development, to power equipment miniaturization, intelligent, the requirement of high reliability is also more and more higher.Adopt two protection philosophy for national grid to the 110KV level above power station measuring system that intelligent grid proposes, voltage transformer (VT) need adopt two sense head.
Active Electronic Current Transformer mainly uses Luo-coil and low-power coil as mutual inductor, traditional electrical type current transformer holds out against screw by adjustment, by squeezing action, coil is fixed, this mounting means coil is difficult to well fix, and needing a lot of parts when installing, installation is wasted time and energy, and belongs to non magnetic skeleton due to Luo-coil, when small-signal very easily by external interference, affect measuring accuracy.
Current electronic type voltage transformer many employings capacitance partial pressure structure; use the coaxial configuration of primary shielding cover and suspension cylindrical shell as high-voltage capacitance; with the coaxial metal Rotating fields of insulating medium as low-voltage capacitance; low-voltage capacitance side and upper resistance introduces collector, after integration, amplification, double modulus conversion, by broadcasting and TV conversion equipment be converted into light signal only intelligent acess merge cells synchronously process after on measuring and protecting equipment.
Utility model content
The technical problems to be solved in the utility model, is to provide a kind of coil easy for installation, and coil current mutual inductor is not easy the electronic current-voltage combination transformer by external interference.
The utility model is achieved in that a kind of electronic current-voltage combination transformer, comprise the secondary conductor be located in Primary Conductor, be provided with epoxy cylinder between described Primary Conductor and secondary conductor, the surfaces externally and internally of described epoxy cylinder is evenly coated with semiconductor varnish; Secondary conductor lateral wall is equiped with coil current mutual inductor and coaxial capacitive voltage divider; Described secondary conductor lateral wall is axially provided with inner screening cylinder and external shield cylinder, and inner screening cylinder, external shield cylinder and secondary conductor are coaxially arranged; One end of inner screening cylinder, external shield cylinder is provided with front annular cover plate, described annular cover plate makes the annular housing forming accommodating coil current mutual inductor between the inside and outside shielding cylinder of this end, described inside and outside shielding cylinder or annular cover plate is provided with to be coaxially set to described inside and outside shielding cylinder and for being set in the coupling sleeve on corresponding secondary conductor lateral wall; Described coaxial capacitive voltage divider comprises high voltage electric capacity and low-voltage capacity, and described coaxial capacitive voltage divider is provided with at least two low-voltage capacitances, and each low-voltage capacitance forms a road voltage transformer (VT) and exports.
Wherein, described inside and outside shielding cylinder and front annular cover plate are wholely set, and perpendicular to axial direction being provided with in the rear end of coupling sleeve is turned up, described in the front end face of the rear end face that turns up and front annular cover plate fit and be fixed with joint flange.
Wherein, described low-voltage capacitance is shielded by the intermediate capacitance of coaxial laying successively from inside to outside outside secondary conductor and low-voltage capacitance shields, and the shield semiconductors paper formation between intermediate capacitance screen and voltage capacitor screen; Intermediate capacitance screen comprise at least two along same circle distribution, watt shape, nonconducting second metal level mutually, the 3rd metal level that low-voltage capacitance screen is tubular.
Wherein, described secondary conductor lateral wall is close to and is provided with the first metal layer.
Wherein, described Primary Conductor is wound on iron core, and on described iron core, wrapping has padded coaming, is coated with shield semiconductors paper outside described Primary Conductor, iron core and padded coaming.
The utility model has the advantage of:
Be installed on by each coil when one, use in the annular housing of inner screening cylinder, the formation of external shield cylinder, its structure is simple, easy to use; Coil wraps up by the cylinder of external shield simultaneously, the cooperation of inner screening cylinder, solves the problem that Luo-coil is subject to external interference.
Two, the utility model by increase separable be multiple electrical isolation part intermediate capacitance shield, for the formation of multiple low-voltage capacitance, twin voltage mutual inductor sensing head can be realized; dual output, the function of two protection, possesses miniaturization; high anti-interference, high reliability, the advantage of low cost.
Three, adopt described epoxy cylinder with low cost as shielding cylinder, and epoxy cylinder and semiconductor varnish convenient storage, draw materials easily, effectively can optimize Electric Field Distribution simultaneously, ensure that distance between Primary Conductor, secondary conductor and can not be breakdown, thus reach the life-span extending insulating material, equipment is run more safe and reliable.
Accompanying drawing explanation
Fig. 1 is the structural representation of electronic current-voltage combination transformer of the present utility model;
Figure 2 shows that the structural representation of inner screening cylinder of the present utility model, external shield cylinder.
Label declaration:
Iron core-1 Primary Conductor-2 solenoid housing-3 coil current mutual inductor-4 secondary conductor-5
Annular cover plate-9 before vessel shell-6 collecting unit-7 coupling sleeve-8
Annular cover plate-12 dead ring-13 after joint flange-10 external shield cylinder-11
Inner screening cylinder-14
Embodiment
By describing technology contents of the present utility model, structural attitude in detail, realized object and effect, accompanying drawing is coordinated to be explained in detail below in conjunction with embodiment.
Consult shown in Fig. 1,2, a kind of electronic current-voltage combination transformer, comprise the secondary conductor 5 be located in Primary Conductor 2, be provided with epoxy cylinder between described Primary Conductor 2 and secondary conductor 5, the surfaces externally and internally of described epoxy cylinder is evenly coated with semiconductor varnish; Secondary conductor 5 lateral wall is equiped with coil current mutual inductor 4 and coaxial capacitive voltage divider.
Described secondary conductor lateral wall is axially provided with inner screening cylinder 14 and external shield cylinder 11, and inner screening cylinder 14, external shield cylinder 11 are coaxially arranged with secondary conductor; One end of inner screening cylinder 14, external shield cylinder 11 is provided with front annular cover plate 9, described front annular cover plate 9 makes the annular housing forming accommodating coil current mutual inductor between the inside and outside shielding cylinder 11 of this end, the rear end of external shield cylinder 11 is connected by screw the rear annular cover plate 12 for gap between shutoff inner screening cylinder 14, external shield cylinder 11.Dead ring 13 is provided with between rear annular cover plate 12 and inner barrel rear end face.Described inside and outside shielding cylinder 11 or front annular cover plate 9 are provided with and are coaxially set to described inside and outside shielding cylinder and for being set in the coupling sleeve 8 on corresponding secondary conductor lateral wall; The rear end of coupling sleeve 8 stretches out to be provided with and turns up, described in the front end face of the rear end face that turns up and front annular cover plate fit and be provided with joint flange 10, joint flange 10 is fixed on front annular cover plate 9 by screw.
The coaxial capacitive voltage divider of described secondary conductor lateral wall comprises high voltage electric capacity and low-voltage capacity, and described coaxial capacitive voltage divider is provided with at least two low-voltage capacities, and each low-voltage capacitance forms a road voltage transformer (VT) and exports.
Electronic current-voltage combination transformer as above, it is based on traditional SF6 gas-insulated GIS electric current voltage combination transformer structure, and outside is vessel shell 6, and coil current mutual inductor 4 is fixed in solenoid housing 3.Described Primary Conductor 2 and coil current mutual inductor 4 form current sensing head, and the signal collected by current sensing head causes collecting unit 7, and Primary Conductor 2 passes secondary conductor 5, insulation processing between secondary conductor 5 and described vessel shell 6.The corresponding ganged condenser be coaxially located in Primary Conductor 2, its high-voltage capacitance is made up of Primary Conductor 2, secondary conductor 5 and the epoxy cylinder between them, and secondary conductor 5 is high-voltage capacitance screen.In the present embodiment, its inside of mutual inductor uniquely can less parallel electric field be exactly electric field between the epoxy shielding cylinder of secondary conductor 5 and the shielding paper of Primary Conductor 2.Epoxy shielding cylinder can effectively allow electric field become rounder and more smooth, and the electric field in cylinder is in smooth cylindrical plane.Primary Conductor 2 is wound on iron core 1, on described iron core 1, wrapping has padded coaming, Primary Conductor 2 and iron core 1 and padded coaming are all shielded ground connection by shield semiconductors paper, make once to secondary, secondary electric field over the ground can both concentrate between epoxy cylindrical shell and semiconducting paper, simultaneously Primary Conductor 2 surface is similar is again the circular configuration of rounding off, concentric circles cylinder is formed with epoxy shielding cylinder, make Primary Conductor 2, less parallel electric field can be produced between secondary conductor 5, make electric field intensity herein lower, equipotential principle is utilized successfully to utilize semiconductor epoxy cylinder by secondary conductor 5 like this, secondary becomes parallel electric field to once complicated electric field, electric field intensity is low, as long as the distance now controlled well between Primary Conductor 2 and secondary conductor 5, just can ensure the safe and reliable of product.
The epoxy resin adopted in present embodiment is solidifying, there is during solidification very strong shrinkability, in order to ensure forming all pole electric field symmetrically and evenly between Primary Conductor 2 and secondary conductor 5, epoxy shielding cylinder possesses very strong tensile resistance, and there is certain extensibility, epoxy shielding cylinder is selected not only to possess this two performances, well can also ensure perviousness, paint is not fallen under semiconductor varnish brushing high temperature, and make cylinder surface more smooth after brushing, evenly, thus promote that electric field improves, in addition epoxy insulation cylinder has good soft type and thermotolerance, base material thickness has washability, effectively be convenient to produce.
In yet, described low-voltage capacitance is shielded by the intermediate capacitance of coaxial laying successively from inside to outside outside secondary conductor 5 and low-voltage capacitance shields, and the shield semiconductors paper formation between intermediate capacitance screen and voltage capacitor screen; Intermediate capacitance screen comprise at least two along same circle distribution, watt shape, nonconducting second metal level mutually, the 3rd metal level that low-voltage capacitance screen is tubular.High-voltage capacitance screen and intermediate capacitance are shielded and are formed intermediate capacitance with the insulating medium between them, each second metal level and the 3rd metal level all form a sensing head interface, build-out resistor in parallel, form resistive-capacitive voltage divider circuit, overall formation multihead, sampled voltage signal circuit can be distinguished, collecting unit 7 is connected by signal wire, collecting unit 7 is arranged on vessel shell 6, export numerical value light signal, export through optical fiber, electron collection unit 7 requires to be arranged in the object of good electromagnetic screen, improve the working environment of electronic loop, reduce electromagnetic interference (EMI), power supply is that collecting unit 7 is powered on the spot, overcome Current Transformer Using Active Compensation Problems existing, the large resistance of two ends parallel connection is exported at low-voltage capacitance, form high voltage and suppress circuit, at voltage collector input end parallel low resistance, ensure voltage signal progress of disease precision.
Second metal level, 3rd metal level can adopt metal forming, between second metal level and the 3rd metal level, insulating medium between secondary conductor 5 and the second metal level can adopt insulation shielding paper, intermediate capacitance screen and low-voltage capacitance screen can adopt overall three-layer metal paper tinsel to form, insulation shielding paper is provided with between three-layer metal paper tinsel, first layer metal paper tinsel closely sticks outside secondary conductor 5, short circuit is conducted electricity with secondary conductor 5, first layer metal paper tinsel and secondary conductor 5 form high-voltage capacitance and shield, second metal forming is intermediate capacitance screen, 3rd metal forming is low-voltage capacitance screen, Primary Conductor 2 and high-voltage capacitance are shielded and epoxy cylinder between them forms high-voltage capacitance, high-voltage capacitance screen and intermediate capacitance is shielded and insulating medium between them forms intermediate capacitance, intermediate capacitance screen and low-voltage capacitance shields and insulating medium between them forms low-voltage capacitance.Described high-voltage capacitance screen shields formation two low-voltage capacitances with intermediate capacitance, such entirety just constitutes a high-voltage capacitance, two intermediate capacitance, two low-voltage capacitances, from two intermediate capacitance number of winning the confidence respectively, two low-voltage capacitance sides, parallel high voltage presses down value bleeder resistance respectively, just constitutes double-sensing head sampled voltage signal respectively.

Claims (5)

1. an electronic current-voltage combination transformer, is characterized in that: comprise the secondary conductor be located in Primary Conductor, is provided with epoxy cylinder between described Primary Conductor and secondary conductor, and the surfaces externally and internally of described epoxy cylinder is evenly coated with semiconductor varnish;
Secondary conductor lateral wall is equiped with coil current mutual inductor and coaxial capacitive voltage divider;
Described secondary conductor lateral wall is axially provided with inner screening cylinder and external shield cylinder, and inner screening cylinder, external shield cylinder and secondary conductor are coaxially arranged; One end of inner screening cylinder, external shield cylinder is provided with front annular cover plate, described front annular cover plate makes the annular housing forming accommodating coil current mutual inductor between the inside and outside shielding cylinder of this end, described inside and outside shielding cylinder or annular cover plate is provided with to be coaxially set to described inside and outside shielding cylinder and for being set in the coupling sleeve on corresponding secondary conductor lateral wall;
Described coaxial capacitive voltage divider comprises high voltage electric capacity and low-voltage capacity, and described coaxial capacitive voltage divider is provided with at least two low-voltage capacitances, and each low-voltage capacitance forms a road voltage transformer (VT) and exports.
2. a kind of electronic current-voltage combination transformer according to claim 1, it is characterized in that: described inside and outside shielding cylinder and front annular cover plate are wholely set, perpendicular to axial direction being provided with in the rear end of coupling sleeve is turned up, described in the front end face of the rear end face that turns up and front annular cover plate fit and be fixed with joint flange.
3. a kind of electronic current-voltage combination transformer according to claim 2, it is characterized in that: described low-voltage capacitance is shielded by the intermediate capacitance of coaxial laying successively from inside to outside outside secondary conductor and low-voltage capacitance shields, and the shield semiconductors paper formation between intermediate capacitance screen and voltage capacitor screen; Intermediate capacitance screen comprise at least two along same circle distribution, watt shape, nonconducting second metal level mutually, the 3rd metal level that low-voltage capacitance screen is tubular.
4. a kind of electronic current-voltage combination transformer according to claim 3, is characterized in that: described secondary conductor lateral wall is close to and is provided with the first metal layer.
5. a kind of electronic current-voltage combination transformer according to claim 4, it is characterized in that: described Primary Conductor is wound on iron core, on described iron core, wrapping has padded coaming, is coated with shield semiconductors paper outside described Primary Conductor, iron core and padded coaming.
CN201520692784.9U 2015-09-09 2015-09-09 Electronic current and voltage combined transformer Expired - Fee Related CN204964597U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520692784.9U CN204964597U (en) 2015-09-09 2015-09-09 Electronic current and voltage combined transformer

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520692784.9U CN204964597U (en) 2015-09-09 2015-09-09 Electronic current and voltage combined transformer

Publications (1)

Publication Number Publication Date
CN204964597U true CN204964597U (en) 2016-01-13

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105761913A (en) * 2016-02-03 2016-07-13 四方继保(武汉)软件有限公司 Electromagnetic shielding structure of GIS electronic mutual inductor
CN106328359A (en) * 2016-08-31 2017-01-11 刘连营 Primary winding bobbin, production method thereof and voltage transformer manufacturing method

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105761913A (en) * 2016-02-03 2016-07-13 四方继保(武汉)软件有限公司 Electromagnetic shielding structure of GIS electronic mutual inductor
CN105761913B (en) * 2016-02-03 2017-07-18 四方继保(武汉)软件有限公司 A kind of electromagnetic armouring structure of GIS electronic transformer
CN106328359A (en) * 2016-08-31 2017-01-11 刘连营 Primary winding bobbin, production method thereof and voltage transformer manufacturing method
CN106328359B (en) * 2016-08-31 2019-07-05 刘连营 A kind of first winding skeleton and its production method and voltage transformer production method

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C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20160113

Termination date: 20160909