CN203733952U - Heavy current tube type water cooling compensator - Google Patents

Abstract

The utility model relates to a heavy current tube type water cooling compensator. Each part of a conventional tube type water cooling compensator of an electric furnace is integrated in structure, small in length, poor in flexibility, poor in assembly error compensation property, difficult in installation and inconvenient in maintenance and disassembly. The heavy current tube type water cooling compensator comprises a copper twisted wire, the two ends of the copper twisted wire are respectively connected with a small electric conduction copperhead and a large electric conduction copperhead that are respectively connected with a voltage transformer secondary wire outlet copper tube and a short net copper tube through Haver sleeve tubes of an outer sleeve, two ends of a side of each Haver sleeve tube are provided with holes, corresponding copper tubes and electric conduction copperheads are provided with threaded holes, tube connecting heads are installed to be connected with soft tube connecting heads, and a corrugated rubber tube is sleeved on the copper twisted wire. The heavy current tube type water cooling compensator is characterized in that a structure having detachable Haver sleeve tubes is adopted, radial side cooling water ways are separated from an electric conduction face, reliable seal is realized, and a specially-designed rubber tube having a corrugated middle segment is adopted as an external rubber tube; the compensator is good in flexibility, good in assembly error compensation property, easy in installation and convenient in maintenance and disassembly.

Description

A kind of large current pipe type water cooled compensator

Technical field

the utility model belongs to technical field of metallurgical equipment, is specifically related to a kind of large current pipe type water cooled compensator.

Background technology

Pipe-type water-cooling compensator is for being connected between furnace transformer secondary outgoing line copper pipe and short_net copper pipe, to compensate alignment error and to absorb the caused vibrations of transformer electromagnetic force.The existing pipe-type water-cooling compensator of electric furnace each several part is integral type structure, outside sebific duct adopts the straight sebific duct of typical circular, because compensator length is shorter, compensator flexibility is very poor, and rigging error is compensatory poor, and installation is difficult, repair demolition is inconvenient, once damaging, certain root compensator needs to change, just must dismantle all compensators integrated moving transformer, the maintain and replace time is long, and maintain and replace cost is high.

Summary of the invention

The purpose of this utility model is to provide the large current pipe type water cooled compensator that a kind of flexibility is better, be easier to installation and maintenance.

The technical scheme that the utility model adopts is:

A large current pipe type water cooled compensator, is characterized in that:

Include copper stranded conductor, copper stranded conductor two ends connect respectively little conduction copperhead and large conduction copperhead, little conduction copperhead and conduct electricity greatly copperhead respectively the little Kazakhstan by overcoat not sleeve pipe with breathe out greatly not sleeve pipe and be connected with short_net copper pipe with transformer secondary outlet copper pipe;

Little Kazakhstan is not provided with perforate in the one-sided two ends of sleeve pipe, and two perforates are provided with screwed hole on corresponding transformer secondary outlet copper pipe and little conduction copperhead respectively, in every group of perforate and screwed hole, pipe joint is installed, and between two pipe joints, is provided with hose coupling; Breathe out greatly the not one-sided two ends of sleeve pipe and be provided with perforate, two perforates are provided with screwed hole on corresponding large conduction copperhead and short_net copper pipe respectively, in every group of perforate and screwed hole, pipe joint are installed, and between two pipe joints, are provided with hose coupling.

Copper stranded conductor overcoat has corrugated rubber pipe, and edge is fixed by clip.

Cooling water is divided into evenly cooling each strand of copper stranded conductor of some water routes in little conduction copperhead and large conduction copperhead.

The utlity model has following advantage:

The two ends of the large current pipe type water cooled compensator that the utility model is related are connected with copper pipe to adopt breathes out not conductive casings Demountable, it is separated with conducting surface that radial side goes out cooling water channel, sealing is reliable, outside sebific duct adopts one section of the centre undulatory sebific duct of one-tenth of particular design, compensator is flexible, rigging error is compensatory good, easily install, repair demolition is convenient, certain root compensator seepage or damage are repaiied and are wanted field-strip or replacing, without all compensators of dismounting and integrated moving transformer, only need this root compensator of dismounting separately, the maintain and replace time can be shortened greatly, reduce maintain and replace cost.

Accompanying drawing explanation

Fig. 1 is the utility model front view.

Fig. 2 is that the utility model A is to structure chart.

In figure, 1-bolt fixing component, the little Kazakhstan of 2-is sleeve pipe not, the little conduction copperhead of 3-, 4-corrugated rubber pipe, 5-clip, 6-copper stranded conductor, the large conduction copperhead of 7-, 8-pipe joint, 9-hose coupling, the large Kazakhstan of 10-is sleeve pipe not, 11-transformer secondary outlet copper pipe, 12-short_net copper pipe.

Embodiment

Below in conjunction with embodiment, the utility model is described in detail.

The utility model relates to a kind of large current pipe type water cooled compensator, include copper stranded conductor 6, copper stranded conductor 6 two ends connect respectively little conduction copperhead 3 and large conduction copperhead 7, little conduction copperhead 3 and conduct electricity greatly copperhead 7 respectively the little Kazakhstan by overcoat not sleeve pipe 2 with breathe out greatly not sleeve pipe 10 and be connected with short_net copper pipe 12 with transformer secondary outlet copper pipe 11.Little Kazakhstan is sleeve pipe 2 and breathe out greatly not two parts up and down of sleeve pipe 10 and be bolted assembly 1 and fix not.Copper stranded conductor 6 is crimping with little conduction copperhead 3 and large conduction copperhead 7.

Little Kazakhstan is not provided with perforate in the one-sided two ends of sleeve pipe 2, two perforates are provided with screwed hole on corresponding transformer secondary outlet copper pipe 11 and little conduction copperhead 3 respectively, in every group of perforate and screwed hole, be provided with between 8, two pipe joints 8 of pipe joint and be provided with hose coupling 9.Breathe out greatly the not one-sided two ends of sleeve pipe 10 and be provided with perforate, two perforates are provided with screwed hole on corresponding large conduction copperhead 7 and short_net copper pipe 12 respectively, in every group of perforate and screwed hole, are provided with between 8, two pipe joints 8 of pipe joint and are provided with hose coupling 9.In pipe joint 8, be provided with combined seal ring.Copper stranded conductor 6 overcoats have corrugated rubber pipe 4, and edge is fixing by clip 5.Cooling water is divided into evenly cooling each strand of copper stranded conductor of some water routes in little conduction copperhead 3 and large conduction copperhead 7.

It is cited that content of the present utility model is not limited to embodiment, and the conversion of any equivalence that those of ordinary skills take technical solutions of the utility model by reading the utility model specification, is claim of the present utility model and contains.

Claims (3)

1. a large current pipe type water cooled compensator, is characterized in that:

Include copper stranded conductor (6), copper stranded conductor (6) two ends connect respectively little conduction copperhead (3) and large conduction copperhead (7), little conduction copperhead (3) and conduct electricity greatly copperhead (7) respectively the little Kazakhstan by overcoat not sleeve pipe (2) with breathe out greatly not sleeve pipe (10) and be connected with short_net copper pipe (12) with transformer secondary outlet copper pipe (11);

Little Kazakhstan is not provided with perforate in the one-sided two ends of sleeve pipe (2), two perforates are provided with screwed hole on corresponding transformer secondary outlet copper pipe (11) and little conduction copperhead (3) respectively, in every group of perforate and screwed hole, pipe joint (8) is installed, between two pipe joints (8), is provided with hose coupling (9); Breathe out greatly the not one-sided two ends of sleeve pipe (10) and be provided with perforate, on the large conduction copperhead (7) of two perforate difference correspondences and short_net copper pipe (12), be provided with screwed hole, in every group of perforate and screwed hole, pipe joint (8) is installed, between two pipe joints (8), is provided with hose coupling (9).

2. a kind of large current pipe type water cooled compensator according to claim 1, is characterized in that:

Copper stranded conductor (6) overcoat has corrugated rubber pipe (4), and edge is fixing by clip (5).

3. a kind of large current pipe type water cooled compensator according to claim 2, is characterized in that:

Cooling water is divided into evenly cooling each strand of copper stranded conductor of some water routes in little conduction copperhead (3) and large conduction copperhead (7).