CN205092142U - Crowning die mould combination formula electronics mutual -inductor - Google Patents

Abstract

The utility model relates to a crowning die mould combination formula electronics mutual -inductor. Including the epoxy resin casting body, the internal upper portion of epoxy resin casting sets up current transformer, lower part set voltage mutual -inductor, current transformer includes a partial conductor, measuring coil, protection coil, voltage transformer includes resistance voltage divider to and set up at the high -tension shielding ring of resistance voltage divider upper end, the shield ring of lower extreme, high -pressure wire is connected to a partial conductor one end, and the high -pressure wire other end and high -tension shielding ring are connected, measuring coil passes through measuring coil secondary signal output pin connection to secondary signal output socket, and the protection coil is through protection coil secondary signal output pin connection to secondary signal output socket. The utility model provides a 10kV combination formula electron mutual -inductor rational in infrastructure, that the performance is excellent.

Description

A kind of mesohigh type combined electronic transformer

Technical field

The utility model relates to a kind of instrument transformer, particularly relates to a kind of mesohigh type combined electronic transformer, belongs to power industry components and parts technical field.

Background technology

10kV electrical network in line current, voltage measurement, protection and monitoring, normal traditional electromagnetic current transducer and the voltage transformer device of adopting as sensing element device, or takes form of the two combination to occur.Because traditional electromagnetic transformer adopts electromagnetic induction principle to be made, the parameter such as its weight, volume, power consumption, certainty of measurement, linear, scope, frequency response is subject to great restriction, has been difficult to further development space.Along with development and the renewal of electric power network technique, the especially accelerated development of intelligent grid, the deficiency that this traditional sensing element device day by day exposes and defect can not meet the demands.In view of this present situation, the appearance of electronic mutual inductor effectively solves this series of problems.At present, middle pressure 10kV electronic current mutual inductor mainly adopts the design principle of Micro Energy Lose iron-core coil and Luo-coil.10kV electronic type voltage transformer mainly adopts the principle of electric resistance partial pressure or capacitance partial pressure.Because of the difference of design principle and manufacturing process, the electronic mutual inductor performance difference that market occurs is very large.Both, on the electronic current mutual inductor of maturation and the product basis of electronic type voltage transformer, effectively combine by the utility model.

Utility model content

To be solved in the utility model is the imperfection of electromagnetic type electric current that 10kV is traditional, the inborn deficiency of voltage transformer and the design and manufacture technique of 10kV electronic current, voltage transformer in the market, provides a kind of mesohigh type combined electronic transformer.

The technical scheme that the utility model solves the problems of the technologies described above is as follows: the utility model comprises epoxy resin poured body (15), and described epoxy resin poured body (15) internal upper part arranges current transformer, bottom arranges voltage transformer;

Described current transformer comprises Primary Conductor (1), measuring coil (2), protection coil (3);

Described voltage transformer comprises resitstance voltage divider (8), and is arranged on the high-tension shielding ring (9) of resitstance voltage divider (8) upper end, the earth shield ring (10) of lower end;

Described Primary Conductor (1) one end connects high-voltage conducting wires (11), and high-voltage conducting wires (11) other end is connected with high-tension shielding ring (9);

Described measuring coil (2) is connected to secondary singal accessory power outlet (14) by measuring coil secondary singal output lead (4), and described protection coil (3) is connected to secondary singal accessory power outlet (14) by protection coil secondary singal output lead (5);

Described measuring coil secondary singal output lead (4) measure of exterior equipment coil shielded lead (6); protection coil secondary singal output lead (5) peripheral hardware protection coil shielded lead (7); described measuring coil shielded lead (6), the protection coil unsettled setting in shielded lead (7) one end, the other end is connected to secondary singal accessory power outlet (14) and extends to and export ground connection inserts (12) and be connected.

Described measuring coil (2) is a loop coil, be followed successively by iron core layer (21) from inside to outside, interior resilient coating (22), conductor layer (23), outer resilient coating (24), outer shielding layer (25), described iron core layer (21) is a ring-shaped iron core reeled by permalloy material, described interior resilient coating (22) is one to be formed around iron core layer (21) half lap coiling by insulation crimped paper material, described conductor layer (23) be one by insulation enamel covered wire on interior resilient coating (22) around forming, described outer resilient coating (24) is for being formed around conductor layer (23) half lap coiling by insulation crimped paper material, described screen (25) for by semiconductive nylon tape around outer resilient coating half lap around forming.

Described protection coil (3) is a loop coil, be followed successively by iron core layer (31) from inside to outside, interior resilient coating (32), conductor layer (33), outer resilient coating (34), outer shielding layer (35), described iron core layer (31) is a ring-shaped skeleton processed by nylon material, described interior resilient coating (32) is one to be formed around iron core layer (31) half lap coiling by insulation crimped paper material, described conductor layer (33) be one by insulation enamel covered wire on interior resilient coating (32) around forming, described outer resilient coating (34) is for being formed around conductor layer (33) half lap coiling by insulation crimped paper material, described screen (35) be the interior side opening of and leave fracture not close aluminium ring, its cross section becomes U-shaped, tightly overlap outer resilient coating (34).

Described resitstance voltage divider (8) inside is a cylindrical ceramic rod (80), institute's ceramic rod (80) is external application resistive layer (81), resilient coating (82) successively, described cylindrical ceramic rod (80) top is divided into copper to block a shot (83), and bottom is divided into copper to block a shot (84); Described high-tension shielding ring (9) by screw to block a shot with upper copper (83) be connected; Described earth shield ring (10) by screw and lower copper block a shot (84) be connected; Described ground connection inserts (12) is made by copper material, for being connected with the ground of external electrical network, and inner connection earth shield ring (10).

Described ceramic rod (80) is coated with high-voltage arm resistive film and low-voltage arm resistance film, the global design of described height pressure arm resistance.

Be circle copper rod in the middle of described Primary Conductor (1), described round copper rod two ends connect copper bar, and described high-voltage conducting wires (11) is connected on round copper rod.

A disjunct brush wire in two ends is pressed in the inner periphery direction of the outer shielding layer (25) of described measuring coil (2), it is inner that described brush wire one end is pressed in outer shielding layer (25), the other end exports after carrying out insulation and shielding, and is welded mutually with ground connection inserts (12) by this end.

Outer shielding layer (35) welding brush wire of described protection coil (3); Described brush wire one end is welded on the outer shielding layer (35) of protection coil (3), and other end cover insulating sleeve also welds mutually with ground connection inserts (12).

The utility model has the advantages that: 1) described measuring coil is annular, and for the measurement to current signal, described electronic current mutual inductor double measurement coil innermost layer is permalloy iron core, makes measuring-signal have the characteristic of high accuracy and low-power consumption;

The interior resilient coating of described measuring coil is multilayer insulation crimped paper, additional one deck insulating tape sealing, for the protection of iron core, prevents iron core from immersing resin material and causes contraction, distortion, affect the electromagnetic performance of iron core;

The conductor layer of described measuring coil is high-temperature insulation oxygen-free copper-wire, for responding to secondary small area analysis;

The outer resilient coating of described measuring coil is multilayer insulation crimped paper, for the protection of conductor layer;

The sample resistance of described measuring coil is high accuracy, and the Alloy Foil resistance of low-temperature coefficient, for the sampling of current signal, converts current signal to voltage signal;

The outer shielding layer of described measuring coil is semiconductive nylon tape, plays shielding action, all has a meeting, an audience, etc. well under one's control strong, reduces partial discharge parameter value.

2) described electronic current mutual inductor second protection coil innermost layer is annular polyamide skeleton, makes guard signal have High Linear, the feature such as wide region, frequency response are rapid;

Described protection coil is annular, for the protection to current signal;

The interior resilient coating of described protection coil is multilayer insulation crimped paper, additional one deck insulating tape sealing, for the protection of iron core, prevents iron core from immersing resin material and causes contraction, distortion, affect the electromagnetic performance of iron core;

The conductor layer of described protection coil is copper paint envelope curve, for responding to secondary small voltage signal;

The outer resilient coating of described protection coil is multilayer insulation crimped paper, for the protection of conductor layer;

The outer shielding layer of described protection coil is the not closed circle of inner side otch, plays shielding action, all has a meeting, an audience, etc. well under one's control strong, reduces partial discharge parameter value.

3) in described electronic current mutual inductor, resilient coating is positioned at the periphery of permalloy iron core and polyamide skeleton, improves resistance to stress ability, in case permalloy iron core and polyamide skeleton contraction distortion, affects its performance.

4) described electronic current mutual inductor conductor layer is positioned at outside resilient coating, adopts the coiling of high-temperature insulation enameled conducting wire.

5) the outer resilient coating of described electronic current mutual inductor coil is positioned at outside conductor layer, for the protection of the wire of conductor layer.

6) described electronic current mutual inductor screen is positioned at the outermost of coil, for improving the screening ability of coil.

7) described electronic type voltage transformer voltage divider is porcelain matrix profile is cylindrical shape.

8) resistive film of described electronic type voltage transformer voltage divider porcelain matrix surface coating thick layer membrane material, forms resistive layer.

9) described electronic type voltage transformer buffer film is covered in resistive layer outside, makes voltage divider have bonding and resistance to stress performance.

10) described electronic type voltage transformer high-field electrode is one end that upper cap shape is located at that voltage divider body is connected with high-voltage connection, for receiving the voltage signal of high-voltage connection transmission.

11) described high-tension electricity resistance type voltage divider also comprises signal electrode, and described signal electrode is drawn by the dividing point of voltage divider body, and described signal electrode, for exporting small voltage signal, for measurement, is protected or monitoring;

Described resitstance voltage divider skin is coated on resistive layer outside for buffer film, for the protection of resistive layer, makes resitstance voltage divider have bonding and resistance to stress performance;

The block of silver-plated copper up and down of described resitstance voltage divider is respectively used to the high-voltage signal with electrical network, and earth electrode is connected;

Described high-tension electricity resistance type voltage divider also comprises signal electrode, and described signal electrode is drawn by the dividing point of resitstance voltage divider, and described signal electrode, for exporting small voltage signal, for measurement, is protected or monitoring.

The centre of described silver-plated copper cap has screwed hole, and connects high-field electrode respectively by bolt and all press radome, grounding electrode and all press radome.

12) described voltage divider body is the ceramic rod being coated with high-voltage arm resistive film and low-voltage arm resistance film, and the global design of height pressure arm resistance, for ensureing the consistency of electric parameter performance.

13) one end of described high-field electrode and grounding electrode is also respectively equipped with one and all presses radome, described electric field of all pressing radome to be used for concentrating voltage divider, and reduces the corona discharge of high-field electrode.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation of measuring coil.

Fig. 3 is the structural representation of protection coil.

Fig. 4 is the structural representation of resitstance voltage divider.

Fig. 5 is I enlarged drawing in Fig. 4.

In figure 1, high pressure Primary Conductor, 2, measuring coil, 3, protection coil; 4, measuring coil secondary singal output lead, 5, protection coil secondary singal output lead, 6, measuring coil shielded lead; 7 protection coil shielded leads, 8, resitstance voltage divider, 9, high-tension shielding ring; 10, earth shield ring, 11, high-voltage conducting wires, 12, ground connection inserts; 13, resitstance voltage divider secondary singal output lead; 14, secondary singal exports aviation socket, and 15, epoxy resin poured body, 16, sample resistance.

Embodiment

Be described principle of the present utility model and feature below in conjunction with accompanying drawing, example, only for explaining the utility model, is not intended to limit scope of the present utility model.

As shown in Figure 1; a kind of combined electronic transformer described in the utility model specific embodiment 1, comprise high pressure Primary Conductor 1, measuring coil 2, protection coil 3, measuring coil secondary singal output lead 4, protection coil secondary singal output lead 5, measuring coil shielded lead 6, protection coil shielded lead 7, resitstance voltage divider 8, high-tension shielding ring 9, earth shield ring 10, high-pressure conductor 11, ground connection inserts 12, resitstance voltage divider secondary singal output lead 13, secondary singal export aviation socket, 14, epoxy resin poured body 15.

Be a circular copper rod in the middle of described high pressure Primary Conductor 1, two ends are copper bar shape, described measuring coil 2 is loop coils, be followed successively by iron core layer 21 from inside to outside, interior resilient coating 22, conductor layer 23, outer resilient coating 24, outer shielding layer 25, described iron core layer 21 is a ring-shaped iron core reeled by permalloy material, described interior resilient coating 22 is one to be formed around the coiling of iron core layer 21 half lap by insulation crimped paper material, described conductor layer 23 be one by insulation enamel covered wire on interior resilient coating 22 around forming, described outer resilient coating 24 is for being formed around the coiling of conductor layer 23 half lap by insulation crimped paper material, described screen 25 for by semiconductive nylon tape around outer resilient coating half lap around forming, described protection coil 3 is loop coils, be followed successively by iron core layer 31 from inside to outside, interior resilient coating 32, conductor layer 33, outer resilient coating 34, outer shielding layer 35, described iron core layer 31 is a ring-shaped skeleton processed by nylon material, described interior resilient coating 32 is one to be formed around the coiling of iron core layer 31 half lap by insulation crimped paper material, described conductor layer 33 be one by insulation enamel covered wire on interior resilient coating 32 around forming, described outer resilient coating 34 is for being formed around the coiling of conductor layer 33 half lap by insulation crimped paper material, described screen 35 be the interior side opening of and leave fracture not close aluminium ring, its cross section becomes U-shaped, tightly overlap outer resilient coating 34, described measuring coil secondary singal output lead 4 is high temperature paired shield cables, its wire one end connects the two ends of conductor layer 23, other end connecting secondary signal exports aviation socket 14, screen one end of described high temperature paired shield cable is unsettled, and its other end connecting secondary signal exports aviation socket 14 and is connected with output ground connection inserts 12, described sample resistance 16 also connects and described measuring coil secondary singal output lead 4, described protection coil secondary singal output lead 5 is high temperature paired shield cables, its wire one end connects the two ends of conductor layer 33, other end connecting secondary signal exports aviation socket 14, screen one end of described high temperature paired shield cable is unsettled, and its other end connecting secondary signal exports aviation socket 14 and is connected with output ground connection inserts 12.

Described resitstance voltage divider 8 inside is a cylindrical ceramic rod 80, and described ceramic matrix 80 is external application resistive layer 81, resilient coating 82 successively, and described cylindrical ceramic rod 80 tops are divided into copper to block a shot 83, and bottom is divided into copper to block a shot 84; Described high-tension shielding ring 9 is connected with upper copper block 83 by screw; Described earth shield ring 10 is connected with lower copper block 84 by screw; Described high-voltage conducting wires 11 has resistant to elevated temperatures high voltage insulation cable, and one end is connected with the copper rod of Primary Conductor 1, and the other end is connected with high-tension shielding ring 9; Described ground connection inserts 12 is made by copper material, for being connected with the ground of external electrical network, inner connection earth shield ring 10, one end of measuring coil shielded lead 6, one end of protection coil shielded lead 7, one end of secondary output signal twisted-pair shielded wire 4,5,12 screen, secondary singal exports aviation socket 14 shell; Described resitstance voltage divider secondary singal output lead 13, the dividing point of one end contact resistance voltage divider and earth shield ring 10, other end connecting secondary signal exports aviation socket 14; Described secondary singal exports the output of aviation socket 14 for electric current, voltage secondary singal; Described epoxy resin poured body 15 carries out vacuum pouring in a mold by epoxy resin to form.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection range of the present utility model.

Restriction is made to each parameters of operating part of the present utility model below:

Described high-voltage arm resistance is 45M Ω-100M about Ω, low-voltage arm resistance is between 10K Ω to 50K Ω, the apolegamy of described high-voltage arm resistance and low-voltage arm resistance resistance should ensure that by the electric current of resistance be mA level, be typically chosen in 0.5-2mA, prevent by the electric current of voltage divider too large, long-time running causes resistance to produce superheating phenomenon.

Further, described buffer film adopts silicone material, and its thickness is 0.1-0.5mm, and thickness can be adjusted accordingly according to the size of pour mass.

Further, the cylindrical ceramic rod of described resitstance voltage divider, its diameter is 15-30mm, is highly 80-100mm.

Further, described pour mass is epoxide resin material, shaping through vacuum pouring by mould.

Described buffer film adopts silicone material, and its thickness is 0.1-0.5mm.

The sample resistance resistance of further described measuring coil is 10-40 Ω, and power is 2 ~ 5W, precision is ten thousand/and to 5/10000ths, temperature coefficient 5 ~ 20PPM.

The electric current of the conductor layer induction of further described measuring coil is 25mA ~ 200mA.

The voltage that the sample resistance of further described measuring coil produces is 1 ~ 4V.

The voltage of the conductor layer induction of further described protection coil is 150mV ~ 225mV.

After testing, the utility model can obtain following technique effect:

Electronic current mutual inductor:

Precision (accuracy): measure 0.2S level; Protection 5P20;

Rated primary current: 0 ~ 1250A;

Specified secondary exports: measure 4V or other value; Protection 200mV or other value;

The concrete scope of rated frequency: 50Hz(was not specifically tested);

Rated load: > 100k Ω.

Electronic type voltage transformer:

Precision (accuracy): 0.2/3P;

Rated primary voltage: 0 ~ 10/ kV;

Specified secondary exports: 0 ~ 4/ v;

Rated frequency: 50Hz(0 ~ 400Hz is feasible);

Rated load > 100M Ω.

Claims (8)

1. a mesohigh type combined electronic transformer, is characterized in that, comprises epoxy resin poured body (15), and described epoxy resin poured body (15) internal upper part arranges current transformer, bottom arranges voltage transformer;

Described current transformer comprises Primary Conductor (1), measuring coil (2), protection coil (3);

Described voltage transformer comprises resitstance voltage divider (8), and is arranged on the high-tension shielding ring (9) of resitstance voltage divider (8) upper end, the earth shield ring (10) of lower end;

Described Primary Conductor (1) one end connects high-voltage conducting wires (11), and high-voltage conducting wires (11) other end is connected with high-tension shielding ring (9);

Described measuring coil (2) is connected to secondary singal accessory power outlet (14) by measuring coil secondary singal output lead (4), and described protection coil (3) is connected to secondary singal accessory power outlet (14) by protection coil secondary singal output lead (5);

Described measuring coil secondary singal output lead (4) measure of exterior equipment coil shielded lead (6); protection coil secondary singal output lead (5) peripheral hardware protection coil shielded lead (7); described measuring coil shielded lead (6), the protection coil unsettled setting in shielded lead (7) one end, the other end is connected to secondary singal accessory power outlet (14) and extends to and export ground connection inserts (12) and be connected.

2. a kind of mesohigh type combined electronic transformer according to claim 1, it is characterized in that, described measuring coil (2) is a loop coil, be followed successively by iron core layer (21) from inside to outside, interior resilient coating (22), conductor layer (23), outer resilient coating (24), outer shielding layer (25), described iron core layer (21) is a ring-shaped iron core reeled by permalloy material, described interior resilient coating (22) is one to be formed around iron core layer (21) half lap coiling by insulation crimped paper material, described conductor layer (23) be one by insulation enamel covered wire on interior resilient coating (22) around forming, described outer resilient coating (24) is for being formed around conductor layer (23) half lap coiling by insulation crimped paper material, described screen (25) for by semiconductive nylon tape around outer resilient coating half lap around forming.

3. a kind of mesohigh type combined electronic transformer according to claim 1, it is characterized in that, described protection coil (3) is a loop coil, be followed successively by iron core layer (31) from inside to outside, interior resilient coating (32), conductor layer (33), outer resilient coating (34), outer shielding layer (35), described iron core layer (31) is a ring-shaped skeleton processed by nylon material, described interior resilient coating (32) is one to be formed around iron core layer (31) half lap coiling by insulation crimped paper material, described conductor layer (33) be one by insulation enamel covered wire on interior resilient coating (32) around forming, described outer resilient coating (34) is for being formed around conductor layer (33) half lap coiling by insulation crimped paper material, described screen (35) be the interior side opening of and leave fracture not close aluminium ring, its cross section becomes U-shaped, tightly overlap outer resilient coating (34).

4. a kind of mesohigh type combined electronic transformer according to claim 1, it is characterized in that, described resitstance voltage divider (8) inside is a cylindrical ceramic rod (80), institute's ceramic rod (80) is external application resistive layer (81), resilient coating (82) successively, described cylindrical ceramic rod (80) top is divided into copper to block a shot (83), and bottom is divided into copper to block a shot (84); Described high-tension shielding ring (9) by screw to block a shot with upper copper (83) be connected; Described earth shield ring (10) by screw and lower copper block a shot (84) be connected; Described ground connection inserts (12) is made by copper material, for being connected with the ground of external electrical network, and inner connection earth shield ring (10).

5. a kind of mesohigh type combined electronic transformer according to claim 4, it is characterized in that, described ceramic rod (80) is coated with high-voltage arm resistive film and low-voltage arm resistance film, the global design of described height pressure arm resistance.

6. a kind of mesohigh type combined electronic transformer according to claim 1, is characterized in that, be circle copper rod in the middle of described Primary Conductor (1), described round copper rod two ends connect copper bar, and described high-voltage conducting wires (11) is connected on round copper rod.

7. a kind of mesohigh type combined electronic transformer according to claim 1, it is characterized in that, a disjunct brush wire in two ends is pressed in the inner periphery direction of the outer shielding layer (25) of described measuring coil (2), it is inner that described brush wire one end is pressed in outer shielding layer (25), the other end exports after carrying out insulation and shielding, and is welded mutually with ground connection inserts (12) by this end.

8. a kind of mesohigh type combined electronic transformer according to claim 1, is characterized in that, outer shielding layer (35) welding brush wire of described protection coil (3); Described brush wire one end is welded on the outer shielding layer (35) of protection coil (3), and other end cover insulating sleeve also welds mutually with ground connection inserts (12).