CN205920134U - A copper bar device for power equipment field test - Google Patents

Abstract

The utility model relates to a copper bar device for power equipment field test, its even number root copper bar conductor is evenly fixed at insulation support annular skeleton inner circle along the circumference of insulation support annular skeleton, even number root copper bar conductor and insulation support annular framework sleeve go into in the insulating urceolus, set up an even number first long through -hole that corresponds with even number root copper bar conductor one end on the insulating lower wall, set up the long through -hole of an even number second that corresponds with the even number root copper bar conductor other end on the insulating hanging wall, even number root copper bar conductor one end one -to -one pass above -mentioned even number first long through -hole after buckle, the first kink of even number root copper bar conductor one end and the back laminating of insulating lower wall, the other end one -to -one of even number root copper bar conductor pass the long through -hole of an above -mentioned even number second after buckle, the second kink of the even number root copper bar conductor other end and the back laminating of insulating hanging wall. The utility model discloses it is rational in infrastructure, but processing is simple, resistance is little, the current -carrying is big, on -the -spot convenient to use and modularization extension.

Description

Copper-line device for electric power equipment on-site test

Technical field

This utility model is related to electrical test equipment technical field, in particular to a kind of for electric power equipment on-site test Copper-line device.

Background technology

Construction with various large-sized converter stations and operation, the operation of the large-scale power equipment carrying out in current conversion station and inspection Repair test and tended to normalization, in patrolling and examining, the connection request of various power equipments is convenient, flexible, have even carries out built on stilts examination Test, such as transducer check experiment.Traditional connected mode is all using soft high current copper braided wire, causes field connection Connect inconvenient, cable to generate heat during using and be not easy to distribute, and the larger power requirement to power supply of resistivity Greatly, in addition, electric power equipment on-site tests (power equipment patrols and examines test, calibration verification test, condition monitoring tests) handling process The crust that may result in copper braided wire damages.

There is following shortcoming when carrying out field test in traditional high current braided wire:

1), high current copper braided wire current-carrying is little, needs to connect using many；

2), in-site installation complexity, union joint are excessive, bring larger contact resistance, produce heat, consume power；

3), the dragging in electric power equipment on-site test can produce serious dermal abrasion, brings potential safety hazard.As again purchased Buy, bring the increase of cost；

4), high current copper braided wire no firmware support, such as built on stilts test, own wt produces very big to top equipment Pulling force.

Utility model content

The purpose of this utility model seeks to provide a kind of copper-line device for electric power equipment on-site test, and this copper bar fills Put that rational in infrastructure, processing is simple, resistance is little, current-carrying is big, onsite application is convenient and can modularity extend.

For realizing this purpose, designed by this utility model for electric power equipment on-site test copper-line device, its feature It is: it includes insulate lower wall, insulating supporting ring skeleton, insulation outer tube, disk and even number root copper bar conductor, described idol in insulation Several copper bar conductor are uniformly fixed on the inner ring of insulating supporting ring skeleton, even number root copper along the circumference of insulating supporting ring skeleton Row's conductor and insulating supporting ring skeleton are inserted in insulation outer tube, and described insulation lower wall offers and even number root copper bar conductor one Hold corresponding even number first long through-hole, disk in insulation offers even number corresponding with the even number root copper bar conductor other end Two long through-holes, even number root copper bar conductor one end bends 90 degree after passing through above-mentioned even number first long through-hole correspondingly, even number First kink of root copper bar conductor one end is fitted with the back side of insulation lower wall, and the other end of even number root copper bar conductor corresponds Through after above-mentioned even number second long through-hole bend 90 degree, the second kink of the even number root copper bar conductor other end with insulate on The back side laminating of disk.

This utility model has the advantage that

1st, in this utility model, the symmetrical connected mode of even number root copper bar conductor can reduce the circulation of high current generation.

2), in this utility model, contact area is larger, reduce contact resistance, makes whole device have less resistive rate

3), in this utility model, insulation copper bar support ensures the insulation of copper bar support, fixes its relative position simultaneously, is difficult Deformation；

4), this utility model adopts modular design, interchangeable, improves practicality, reduces maintenance cost.

Brief description

Fig. 1 is configuration schematic diagram of the present utility model；

Fig. 2 is the structural representation of insulation lower wall in this utility model；

Fig. 3 is the structural representation of the upper disk of insulation in this utility model；

Fig. 4 is this utility model use state structural representation.

In figure, 1 insulation lower wall, 1.1 first long through-holes, 1.2 first grooves, 2 insulating supporting ring skeletons, 3 insulation outer tube, the upper disk of 4 insulation, 4.1 second long through-holes, 4.2 second grooves, 5 copper bar conductor, 5.1 first curved Folding part, 5.2 second kinks, 6 bracket bases, 7 installing holes.

Specific embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail:

The copper-line device for electric power equipment on-site test as described in Fig. 1～4, it includes insulate lower wall 1, insulating supporting Ring skeleton 2, insulation outer tube 3, disk 4 and even number root copper bar conductor 5 in insulation, described even number root copper bar conductor 5 is along insulating supporting The circumference of ring skeleton 2 is uniformly fixed on the inner ring of insulating supporting ring skeleton 2, even number root copper bar conductor 5 and insulating supporting ring Shape skeleton 2 is inserted in insulation outer tube 3, and described insulation lower wall 1 offers even number corresponding with even number root copper bar conductor 5 one end First long through-hole 1.1, disk 4 in insulation offers and even number root copper bar conductor 5 other end corresponding even number second long through-hole 4.1, even number root copper bar conductor 5 one end bends 90 degree after passing through above-mentioned even number the first long through-hole 1.1 correspondingly, even number root First kink 5.1 of copper bar conductor 5 one end is fitted with the back side of insulation lower wall 1, and the other end of even number root copper bar conductor 5 is one by one Corresponding 90 degree of bending, the second kink of even number root copper bar conductor 5 other end through after above-mentioned even number the second long through-hole 4.1 5.2 are fitted with the back side of the upper disk 4 of insulation.

In technique scheme, the back side of described insulation lower wall 1 is provided with the even number with even number the first kink 5.1 cooperation Individual first groove 1.2, each first kink 5.1 is fitted with corresponding first groove 1.2 respectively.

In technique scheme, the described back side insulating upper disk 4 is provided with the even number with even number the second kink 5.2 cooperation Individual second groove 4.2, each second kink 5.2 is fitted with corresponding second groove 4.2 respectively.

In technique scheme, described even number root copper bar conductor 5 one end passes through above-mentioned even number first long correspondingly 90 degree of outward bending after through hole 1.1.The other end of described even number root copper bar conductor 5 passes through above-mentioned even number second correspondingly 90 degree of outward bending after long through-hole 4.1.The design of above-mentioned outward bending 90, increased contact area, reduces contact resistance, make whole Individual device has less resistive rate.

In technique scheme, described even number root copper bar conductor 5 is 2 or 4 or 8, and Fig. 1 is 4.Four copper bars are led Body 5 is identical and layout symmetry, and symmetrical connected mode can reduce the circulation of high current generation.

In technique scheme, the depth of described first groove 1.2 is less than the thickness of corresponding first kink 5.1.Institute The depth stating the second groove 4.2 is less than the thickness of corresponding second kink 5.2.Said structure can allow copper bar protrude from disk body table Face is it is ensured that good the contacting with external equipment of copper bar conductor.

In technique scheme, described insulation lower wall 1 is fixedly connected with bracket base 6, on described insulation lower wall 1 and insulation Disk 4 is equipped with installing hole 7.Installing hole 7 facilitates extension of the present utility model.

In technique scheme, described insulating supporting ring skeleton 2 has two.Two insulating supporting ring skeletons 2 are used for The relative position of fixing even number root copper bar conductor 5, and realize insulating.

In technique scheme, insulation lower wall 1 and the upper disk 4 of insulation are just the same, interchangeable.Improve practicality, reduce dimension Accomplish this.

When this utility model uses, the device location making somebody a mere figurehead test is very high, can be by copper-line device described in the utility model The height extending to needs is tested, during extension, by the insulation of the insulation lower wall 1 of upper strata copper-line device and lower floor's copper-line device Upper disk 4 is fixedly connected with corresponding bolt by installing hole 7, will be solid to the insulation lower wall 1 of orlop copper-line device and bracket base 3 Surely connect.

The content that this specification is not described in detail belongs to prior art known to professional and technical personnel in the field.

Claims (10)

1. a kind of copper-line device for electric power equipment on-site test it is characterised in that: it include insulate lower wall (1), insulation Support ring skeleton (2), insulation outer tube (3), disk (4) and even number root copper bar conductor (5) in insulation, described even number root copper bar conductor (5) uniformly it is fixed on the inner ring of insulating supporting ring skeleton (2), even number root copper bar along the circumference of insulating supporting ring skeleton (2) Conductor (5) and insulating supporting ring skeleton (2) are inserted in insulation outer tube (3), and described insulation lower wall (1) offers and even number root Copper bar conductor (5) one end corresponding even number first long through-hole (1.1), disk (4) in insulation is offered and is led with even number root copper bar Body (5) other end corresponding even number second long through-hole (4.1), even number root copper bar conductor (5) one end passes through upper correspondingly State even number first long through-hole (1.1) and bend 90 degree afterwards, first kink (5.1) of even number root copper bar conductor (5) one end with absolutely The back side laminating of edge lower wall (1), the other end of even number root copper bar conductor (5) passes through above-mentioned even number second long logical correspondingly Hole (4.1) bends 90 degree afterwards, the back side of second kink (5.2) of even number root copper bar conductor (5) other end and the upper disk (4) of insulation Laminating.

2. the copper-line device for electric power equipment on-site test according to claim 1 it is characterised in that: described insulation under The back side of disk (1) is provided with the even number first groove (1.2) coordinating with even number first kink (5.1), each first bending Portion (5.1) is fitted with corresponding first groove (1.2) respectively.

3. the copper-line device for electric power equipment on-site test according to claim 1 it is characterised in that: described insulation The back side of disk (4) is provided with the even number second groove (4.2) coordinating with even number second kink (5.2), each second bending Portion (5.2) is fitted with corresponding second groove (4.2) respectively.

4. the copper-line device for electric power equipment on-site test according to claim 1 it is characterised in that: described even number root Copper bar conductor (5) one end passes through above-mentioned even number first long through-hole (1.1) 90 degree of outward bending afterwards correspondingly.

5. the copper-line device for electric power equipment on-site test according to claim 1 it is characterised in that: described even number root The other end of copper bar conductor (5) passes through above-mentioned even number second long through-hole (4.1) 90 degree of outward bending afterwards correspondingly.

6. the copper-line device for electric power equipment on-site test according to claim 1 it is characterised in that: described even number root Copper bar conductor (5) is 2 or 4 or 8.

7. the copper-line device for electric power equipment on-site test according to claim 2 it is characterised in that: described first is recessed The depth of groove (1.2) is less than the thickness of corresponding first kink (5.1).

8. the copper-line device for electric power equipment on-site test according to claim 3 it is characterised in that: described second is recessed The depth of groove (4.2) is less than the thickness of corresponding second kink (5.2).

9. the copper-line device for electric power equipment on-site test according to claim 1 it is characterised in that: described insulation under Disk (1) is fixedly connected with bracket base (6), and described insulation lower wall (1) and the upper disk (4) of insulation are equipped with installing hole (7).

10. the copper-line device for electric power equipment on-site test according to claim 1 it is characterised in that: described insulation Ring skeleton (2) is supported to have two.