CN105575612A - Intelligent high-voltage transformer - Google Patents

Abstract

The invention discloses an intelligent high-voltage transformer which comprises a core tube, a voltage transformer, two compression rings and two press claw assemblies. Two groups of guide holes are formed in the tube wall of the core tube side by side, and each group of guide holes are matched with one press claw assembly; each group of guide holes comprise three radial guide holes; each press claw assembly comprises three press claws; each press claw is provided with a pressing plate part, a guide sliding block part and a driving plate part; the compression rings are rotatably arranged on the peripheral wall of the core tube, and one side end of each compression ring is connected with the guide sliding block part of the corresponding press claw assembly in a sliding and abutting mode; three spiral grooves are formed in the end walls where the compression rings are connected with the guide sliding block parts in an abutting mode and matched with the three driving plate parts of the corresponding press claw assembly; the driving plate part of each press claw is located in one corresponding spiral groove; the voltage transformer comprises an annular substrate, and a line clamping hole is located in a hole cavity of the annular substrate; when the compression rings rotate, the pressing plate parts of the corresponding press claw assembly are pushed to slide to the center of the core tube. The intelligent high-voltage transformer is easy to install.

Description

A kind of Intelligent high-pressure instrument transformer

Technical field

The invention belongs to high-tension electricity technical field, be specifically related to a kind of Intelligent high-pressure instrument transformer.

Background technology

Intelligent high-pressure instrument transformer is applicable to large voltage transitions be become in 1kv to 220kv electric power system small voltage or converts big current to small area analysis so that the instrument transformer of measurement, protection, use.

Mostly existing Intelligent high-pressure instrument transformer is induction instrument transformer, and operation principle is identical with transformer, and basic structure is also iron core and former and deputy winding.The Main Function of Intelligent high-pressure instrument transformer is as follows: high voltage is converted to low-voltage, and big current converts small area analysis to, after this again for measurement, control, protection.So not only can strengthen measuring instrument from journey, be convenient to instrument standard, reduce control, the voltage and current of proterctive equipment, and instrument and equipment or high-tension circuit are separated, the safety of guarantee instrument, equipment and staff.

Mostly the mounting means of existing Intelligent high-pressure instrument transformer is to adopt flange install fixing or adopt bonding mode to fix, and its installation site generally needs to reserve, therefore makes the application of Intelligent high-pressure instrument transformer be subject to more restriction.

Summary of the invention

The object of this invention is to provide a kind of Intelligent high-pressure instrument transformer being convenient to install location, there is better firmness.

The technical scheme realizing the object of the invention is: a kind of Intelligent high-pressure instrument transformer, comprises a core pipe, voltage transformer, two pressure rings and two casing pressure claw assemblies; Core tube wall is provided with side by side two groups of pilot holes, each group pilot hole and a set of paw assembly adaptation; Each group of pilot hole comprises three radially-directed holes; Each casing pressure claw assembly comprises three paws; Each paw is provided with pressing plate portion, guide runner portion and driver plate portion; Each pressing plate portion is arranged in core pipe tube chamber, and three pressing plate portion clampings in each casing pressure claw assembly form a clamp hole; Core tube wall is stretched out in the outer end in the guide runner portion of paw, and each driver plate portion is positioned at outside core tube wall; Each paw reciprocatingly slides along a corresponding radially-directed hole; Each pressure ring rotates and is arranged on the periphery wall of core pipe, and the guide runner portion in a side of each pressure ring and corresponding a set of paw assembly slides adjacent; The end wall that each pressure ring and guide runner portion adjoin is provided with three helicla flutes, and these three helicla flutes are adaptive with three driver plate portions in corresponding a set of paw assembly respectively; The driver plate portion of each paw is arranged in a corresponding helicla flute; Voltage transformer comprises annular matrix, and clamp hole is arranged in annular matrix vestibule; Core pipe periphery wall is provided with the annular gear platform of evagination; Two pressure rings rotate and are arranged on the periphery wall of core pipe, and the both sides of separation annular gear platform; Each pressure ring slides adjacent away from a side in paw guiding guide runner portion with annular gear platform; The internal perisporium of each pressure ring is the adjacent smooth inner wall that slides with core pipe periphery wall; The periphery wall of each pressure ring is provided with multiple binding groove; Three radially-directed holes in each group of pilot hole are evenly distributed on core tube wall along core pipe circumference, and each radially-directed hole is along core caliber to running through core tube wall; Each radially-directed hole forms the breach that is positioned at core tube edges place; Pushed the driver plate portion of a corresponding paw when each pressure ring rotates by helicla flute, and then slide towards core tube hub in the pressing plate portion promoted in corresponding a set of paw assembly.

The present invention has positive effect: (1) Intelligent high-pressure instrument transformer of the present invention, owing to carrying press claw type retaining mechanism, does not need reserved installation position, is easy to install.(2) the present invention drives paw clamping electric power cable by helicla flute, compares, have excellent anti-loosening effect, effectively ensure the reliability of long-term work with by traditional bolt assembly clamping electric power cable.(3) the present invention is by being arranged on core tube hub place cable clamping, and its gravity centre distribution is comparatively reasonable, when on the overhead power line of high-altitude, is conducive to alleviating vibration.(4) the present invention adopts two casing pressure claw assemblies to be clamped on same cable, has the effect of dual fail-safe, in use goes wrong even if wherein a set of, also has its service behaviour of another set of guarantee.

Accompanying drawing explanation

Fig. 1 is that the one of the first structure of the present invention partly cuts open structural representation;

Fig. 2 removes a kind of perspective view after voltage transformer for the instrument transformer of Intelligent high-pressure shown in Fig. 1;

Fig. 3 is a kind of front view of the instrument transformer of Intelligent high-pressure shown in Fig. 1;

Fig. 4 partly cuts open structural representation for the one of the instrument transformer of Intelligent high-pressure shown in Fig. 1;

Fig. 5 is a kind of explosive view of the instrument transformer of Intelligent high-pressure shown in Fig. 1;

Fig. 6 removes a kind of explosive view after pressure ring for the instrument transformer of Intelligent high-pressure shown in Fig. 1.

Embodiment

(embodiment 1)

The present embodiment is a kind of Intelligent high-pressure instrument transformer, sees shown in Fig. 1 to Fig. 5, comprises a core pipe 2, voltage transformer 8, two pressure rings 1 and two casing pressure claw assemblies 3.

Core pipe periphery wall is provided with the annular gear platform 21 of evagination; Core tube wall is provided with two groups of pilot holes vertically side by side, each group pilot hole and a set of paw assembly adaptation; Each group of pilot hole comprises three radially-directed holes 23, and these three radially-directed holes are evenly distributed on core tube wall along core pipe circumference; In the present embodiment, each radially-directed hole is along core caliber to running through core tube wall.

Each radially-directed hole 23 comprises the guiding slide opening 231 and anticreep slide opening 232 that axially set gradually along core pipe; Guiding slide opening is arranged on the edge of core pipe two side ends, and anticreep slide opening is communicated with guiding slide opening; The radial cross-sectional shape in each radially-directed hole is T-shaped; Each radially-directed hole 23 forms the breach that is positioned at core tube edges place.

Each casing pressure claw assembly includes three paws 5; Each paw is provided with pressing plate portion 51, along core caliber to the guide runner portion 52 extended and the driver plate portion 53 be arranged in guide runner portion; The driver plate portion of each paw is the flange axially outstanding along core pipe be arranged in each guide runner portion, and the outboard end of this flange is provided with chisel teeth 54.

Each pressing plate portion is all arranged in core pipe tube chamber, and core tube wall is stretched out in the outer end in the guide runner portion of each paw, and each driver plate portion is positioned at outside core tube wall; Each guide runner portion 52 comprises guide part 521 and anti-delinking part 522, and guide part is arranged in the guiding slide opening in a corresponding radially-directed hole, and anti-delinking part is arranged in the anticreep slide opening in a corresponding radially-directed hole; The radial cross-sectional shape of guide part and anti-delinking part is T-shaped with radially-directed hole adaptation.Each paw under the spacing of radially-directed hole and guide effect, along core caliber to reciprocatingly sliding; The inwall in each pressing plate portion is provided with deep-slotted chip breaker 55, and in each casing pressure claw assembly, the deep-slotted chip breaker of three paws encloses the clamp hole 61 of formation one for clamping connection electric power cable.

Two pressure rings 1 rotate and are arranged on the periphery wall of core pipe, and the both sides of separation annular gear platform; The internal perisporium of each pressure ring is the adjacent smooth inner wall that slides with core pipe periphery wall; The periphery wall of each pressure ring is provided with multiple binding groove 11; One side of each pressure ring and annular gear platform slide adjacent, and the guide runner portion in another side and corresponding a set of paw assembly slides adjacent; In the present embodiment, the end wall adjacent with guide runner portion of each pressure ring is provided with three helicla flutes 12, and three driver plate portions in these three helicla flutes and corresponding a set of paw assembly are adaptive.

In the present embodiment, each helicla flute comprises the anticreep district 121 that is communicated with pressure ring vestibule 13 and the disposal area 122 away from pressure ring vestibule; The diapire in anticreep district is provided with multiple wedge shape anticreep tooth 123, and the chisel teeth of each wedge shape anticreep tooth and paw is adaptive; Disposal area is smooth chute; The present embodiment is when operating, and the binding groove adopting hook type spanner to catch on pressure ring twists pressure ring.

The driver plate portion of each paw is arranged in a corresponding helicla flute; Each helicla flute, along with pressure ring synchronous axial system, makes a corresponding driver plate portion from being positioned at disposal area to being positioned at anticreep district, also namely produces pushing effect to this driver plate portion; In the present embodiment, the paw in the independent corresponding a set of paw assembly of each pressure ring, makes the pressing plate portion in each casing pressure claw assembly close to each other towards core tube hub, thus clamping is arranged in the electric power cable in clamp hole.

When the chisel teeth in each pressing plate portion is clamped on the wedge shape anticreep tooth in corresponding anticreep district, wedge shape anticreep tooth prevents pressure ring from reversing, thus makes the present embodiment have good anti-loosening effect.

This voltage transformer comprises annular matrix 81 and intelligent control module; In the present embodiment, on the end wall of the adjacent annular gear platform of a pressure ring, be provided with annular arrangements groove; This voltage transformer is fixed in the resettlement groove of pressure ring; Pressure ring periphery wall is still provided with binding groove.Intelligent control module can comprise wireless transmit/receive units, and the secondary voltage that intelligent control module is sensed annular matrix by wireless transmit/receive units or current signal send distance host to, to realize accurate long-range no worker monitor; This structure can make full use of space, is conducive to the small-sized and integrated of entirety.The present embodiment can use as an Intelligent high-pressure instrument transformer.

The present embodiment is in order to promote clamping connection intensity, and the present embodiment is also provided with multiple puncture 62 in each deep-slotted chip breaker; Specifically, respectively puncture along core caliber to protrusion.

In the present embodiment, each paw is the integral piece made by casting forming, and each puncture is made when casting forming; In concrete practice, puncture also can adopt alternate manner to make; Such as in each deep-slotted chip breaker, be provided with multiple installation draw-in groove, then install in draw-in groove be inlaid in corresponding one by the die-cut puncture sheet made; Puncture sheet comprises installation portion and thorn blade, and installation portion is inlaid in be installed in draw-in groove, and thorn blade then exposes installing card groove and forms puncture.The benefit of this structure is that puncture sheet can adopt the material different with paw to make.

The present embodiment is by being arranged on the longitudinal center line place of Intelligent high-pressure instrument transformer cable clamping, and its gravity centre distribution is comparatively reasonable, when on the overhead power line of high-altitude, is conducive to alleviating vibration; In addition, the present embodiment is positioned each paw by the slope groove with wedge shape anticreep tooth, can play the technique effect preventing from falling back, and compares with by traditional bolt assembly clamping electric power cable, particularly excellent in anti-loosening effect, effectively ensure the reliability of long-term work.

The present embodiment adopts two casing pressure claw assemblies to be clamped on same cable, has the effect of dual fail-safe, in use goes wrong even if wherein a set of, also has its service behaviour of another set of guarantee.

Obviously, the above embodiment of the present invention is only for example of the present invention is clearly described, and is not the restriction to embodiments of the present invention.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all execution modes.And these belong to connotation of the present invention the apparent change of extending out or variation still belong to protection scope of the present invention.

Claims (1)

1. an Intelligent high-pressure instrument transformer, is characterized in that: comprise a core pipe, voltage transformer, two pressure rings and two casing pressure claw assemblies; Core tube wall is provided with side by side two groups of pilot holes, each group pilot hole and a set of paw assembly adaptation; Each group of pilot hole comprises three radially-directed holes; Each casing pressure claw assembly comprises three paws; Each paw is provided with pressing plate portion, guide runner portion and driver plate portion; Each pressing plate portion is arranged in core pipe tube chamber, and three pressing plate portion clampings in each casing pressure claw assembly form a clamp hole; Core tube wall is stretched out in the outer end in the guide runner portion of paw, and each driver plate portion is positioned at outside core tube wall; Each paw reciprocatingly slides along a corresponding radially-directed hole; Each pressure ring rotates and is arranged on the periphery wall of core pipe, and the guide runner portion in a side of each pressure ring and corresponding a set of paw assembly slides adjacent; The end wall that each pressure ring and guide runner portion adjoin is provided with three helicla flutes, and these three helicla flutes are adaptive with three driver plate portions in corresponding a set of paw assembly respectively; The driver plate portion of each paw is arranged in a corresponding helicla flute; Voltage transformer comprises annular matrix, and clamp hole is arranged in annular matrix vestibule; Core pipe periphery wall is provided with the annular gear platform of evagination; Two pressure rings rotate and are arranged on the periphery wall of core pipe, and the both sides of separation annular gear platform; Each pressure ring slides adjacent away from a side in paw guiding guide runner portion with annular gear platform; The internal perisporium of each pressure ring is the adjacent smooth inner wall that slides with core pipe periphery wall; The periphery wall of each pressure ring is provided with multiple binding groove; Three radially-directed holes in each group of pilot hole are evenly distributed on core tube wall along core pipe circumference, and each radially-directed hole is along core caliber to running through core tube wall; Each radially-directed hole forms the breach that is positioned at core tube edges place; Pushed the driver plate portion of a corresponding paw when each pressure ring rotates by helicla flute, and then slide towards core tube hub in the pressing plate portion promoted in corresponding a set of paw assembly.