CN208433635U - A kind of converter station side phase converter transformer valve side connection outlet structure - Google Patents
A kind of converter station side phase converter transformer valve side connection outlet structure Download PDFInfo
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- CN208433635U CN208433635U CN201820550501.0U CN201820550501U CN208433635U CN 208433635 U CN208433635 U CN 208433635U CN 201820550501 U CN201820550501 U CN 201820550501U CN 208433635 U CN208433635 U CN 208433635U
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Abstract
The utility model provides a kind of converter station side phase converter transformer valve side connection outlet structure, including side phase valve lateral brace insulator, the first wire clamp, the second wire clamp, the second mounting base and conductive attachment plate and the 6th pipe bus clip, it forms a fixed connection between second mounting seat and side phase valve lateral brace insulator, the conductive attachment plate is fixedly connected with the second mounting seat, and the 6th pipe bus clip is mounted in the second mounting base;First wire clamp, the second wire clamp form with conductive attachment plate be conductively connected respectively, and the conductive attachment plate, which passes through to be formed between conducting connecting part and the 6th pipe bus clip, to be conductively connected.The utility model can efficiently solve most while column pipe parent phase it is angular be shorted downlead and while be mutually not easily controlled to the electrical distance drawn between online of the change of current valve tower outlet the problem of, to improve safety, the reliability of the angular group converter transformer valve outgoing line of converter station.
Description
Technical field
The utility model relates to converter transformer valve sides to connect outlet structure design field, more particularly, to a kind of converter station side phase
Converter transformer valve side connects outlet structure.
Background technique
In ± 800kV ultra-high voltage converter station, two group of 12 concatenated mode of connection of pulse conversion valve tower is generallyd use, often
12 pulsation valve group of group is arranged in a valve hall.A, the valve side set of the converter power transformer (referred to as " change of current change ", similarly hereinafter) of B, C three-phase
Pipe is inserted directly into inside valve hall, and be connected to the change of current valve tower of one-to-one A, B, C three-phase of phase sequence by pipe bus respectively
Connecting terminal.This one-to-one mode of connection of phase sequence is although easy to operate, still, protects system for the valve control of change of current valve tower
For system, in order to guarantee the trigger sequence of change of current valve tower, need to change the logic-controlled sequential in valve control protection system software, this
Safe operation actually to change of current valve tower brings some potential safety problems, thus reduces the reliable for operation of change of current valve tower
Property.
For the ultra-high voltage converter station in conventional low earthquake intensity area, since the horizontal acceleration of earthquake is small, change of current valve tower
Corresponding hunting range is smaller under earthquake operating condition, and the wiring radian of the connection flexible circuit conductor of suspension insulator can offset converter valve
The earthquake displacement between value side bushing that the connecting terminal of tower and the change of current become.But for being in high earthquake intensity, as earthquake is strong
Not less than 8 degree areas of degree, ultra-high voltage converter station, since site earthquake intensity is high, displacement of the converter valve under earthquake operating condition compared with
Greatly.For example, by actual emulation analytical calculation, for high earthquake intensity area 800kV ultra-high voltage converter station, high-end 800kV
Earthquake amplitude of fluctuation at the connecting terminal of converter valve is likely to be breached 1.5m.Obviously, soft the leading of conventional suspension insulator connection
The wiring radian of line cannot meet the antidetonation needs of the converter valve of high earthquake intensity area.Simultaneously as 800kV change of current valve tower
This body weight is 4-5t, if using the connection type of conventional suspension insulator connection flexible circuit conductor, due to suspension insulator
The flexible circuit conductor nargin of connection limits the earthquake displacement of change of current valve tower, and therefore, the earthquake stress of change of current valve tower can be soft by connecting
Conducting wire directly pulls the value side bushing of change of current change, thus may cause the connecting terminal damage of the value side bushing of change of current change.
In addition, the change of current of A, B, C three-phase becomes in conventional ultra-high voltage converter station converter transformer valve outgoing line structural design scheme
It is that suspension tubular busbar bottom insulation is linked to by six division flexible circuit conductors, the lead of six division flexible circuit conductors is longer, suspention
Pipe mother while the downlead that is mutually shorted and while be mutually not easily controlled to the electrical distance of change of current valve tower outlet drawn between online, suspend in midair
The swing (especially under earthquake operating condition) of pipe mother may cause six division flexible circuit conductors adjacent at this and mutually collide, to influence
The security reliability of converter transformer valve side connection outlet.
Utility model content
Technical problem to be solved by the utility model is: in view of the problems of the existing technology, providing a kind of converter station side
Phase converter transformer valve side connects outlet structure, improves the security reliability of converter transformer valve side connection outlet.
The technical problems to be solved in the utility model is realized using following technical scheme: a kind of converter station side phase change of current change
Valve side connects outlet structure, including side phase valve lateral brace insulator, the first wire clamp, the second wire clamp, the second installation bottom
Seat and conductive attachment plate and the 6th pipe bus clip are formed solid between second mounting seat and side phase valve lateral brace insulator
Fixed connection, the conductive attachment plate are fixedly connected with the second mounting seat, and the 6th pipe bus clip is mounted on the second installation bottom
On seat;First wire clamp, the second wire clamp form with conductive attachment plate be conductively connected respectively, the conductive attachment
Plate, which passes through to be formed between conducting connecting part and the 6th pipe bus clip, to be conductively connected.
Preferably, supporting element is set between second mounting seat and the 6th pipe bus clip, and the supporting element is adopted
With " 7 " character form structure, one end is fixedly connected with the second mounting seat, the other end is connect with the 6th pipe bus clip.
Preferably, universal joint is installed on the supporting element, is led between the universal joint and the 6th pipe bus clip
It crosses and is bolted.
Preferably, second mounting seat is connect with voltage equalizing ball support, and the voltage equalizing ball support and voltage equalizing ball connect
It connects, the voltage equalizing ball coated with conductive gusset piece, conducting connecting part.
Preferably, the L-shaped structure of conductive attachment plate, two end are led with the first wire clamp, second respectively
Line wire clamp, which is formed, to be conductively connected.
Preferably, the conducting connecting part uses electric telescopic copper bar.
Preferably, the top of the side phase valve lateral brace insulator is fixedly connected with the second insulator flange disk, described
Dismountable fixed connection structure is formed by connecting bolt between second mounting seat and the second insulator flange disk.
Preferably, first wire clamp and/or the second wire clamp pass through connection bolt and conductive attachment plate shape
At dismountable fixed connection structure.
Compared with prior art, the utility model has the beneficial effects that by introducing the second mounting seat, conductive attachment plate
With the 6th pipe bus clip, the 6th pipe bus clip is mounted in the second mounting seat, and makes the first wire clamp, the second wire
Conductive connection is formed with conductive attachment plate respectively for folder and conductive attachment plate passes through shape between conducting connecting part and the 6th pipe bus clip
At conductive connection, it is possible thereby to efficiently solve most while the angular short circuit downlead of column pipe parent phase and while mutually to change of current valve tower outlet
The electrical distance drawn between online the problem of being not easily controlled so that the safety of the angular group converter transformer valve outgoing line of converter station
Property, reliability are effectively improved.
Detailed description of the invention
The plane figure of Fig. 1 connection structure between change of current change and change of current valve tower.
The top view of Fig. 2 connection structure between change of current change and change of current valve tower.
The side view of Fig. 3 connection structure between change of current change and change of current valve tower.
Fig. 4 is the structural schematic diagram of upper cradle head fitting.
Fig. 5 is the structural schematic diagram of lower cradle head fitting.
Fig. 6 is the partial enlarged view in Fig. 2 at D.
Fig. 7 is the F-F direction view in Fig. 6.
Fig. 8 is the partial enlarged view in Fig. 2 at E.
Fig. 9 is the H-H direction view in Fig. 8.
Figure 10 is the partial enlarged view in Fig. 2 at K.
Figure 11 is the P-P direction view in Figure 10.
Component token name claims in figure: the 1- change of current becomes, and the 1A-A phase change of current becomes, and the 1B-B phase change of current becomes, and the 1C-C phase change of current becomes, 2-
Upper value side bushing, value side bushing under 3-, 4- flexible circuit conductor, the first suspension insulator of 5-, 6- valve lateral brace insulator, 6A-A phase valve side
Support insulator, 6B-B phase valve lateral brace insulator, 6C-C phase valve lateral brace insulator, 7- jumper pipe is female, and 8- column pipe is female, 9-
First pipe is female, 10- cradle head fitting, and the second pipe of 11- is female, 12- change of current valve tower, 12A-A phase change of current valve tower, the 12B-B phase change of current
Valve tower, 12C-C phase change of current valve tower, 13- third pipe is female, 14- hanger, the second suspension insulator of 15-, and the 4th pipe of 16- is female, 17-
Pipe mother fixation fitting, 18- the first pipe bus clip, 19- bulb mounting base, 20- voltage equalizing ball support, 21- connection hangers, 22- are pressed
Ball, 23- first connecting rod, 24- the second pipe bus clip, the second connecting rod of 25-, 26- third connecting rod, the 4th connecting rod of 27-,
28- third pipe bus clip, the 5th connecting rod of 29-, the 4th pipe bus clip of 30-, the 6th connecting rod of 31-, the first pipe of 32- are female conductive
Fixture, 33- conducting connecting part, 34- fixed charge method end plate, 35- pipe mother's fixed plate, the first mounting seat of 36-, 37- the first insulator method
Blue disk, 38- is to wearing bolt, 39- universal joint, the 5th pipe bus clip of 40-, 41- support frame, the first wire clamp of 42-, and 43- is led
Electricity Federation fishplate bar, the second mounting seat of 44-, 45- the second insulator flange disk, 46- supporting element, the second wire clamp of 47-, 48-
Six pipe bus clips, 49- conduction plug, 50- pre-bending conducting wire, 51- the second pipe mother's conductive fixture, 52- pipe mother block lid, 53- casing
Terminal clip, 54- value side bushing grading shield, 55- fastening bolt, the upper cradle head fitting of 101-, cradle head fitting under 102-.
Specific embodiment
In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, with reference to the accompanying drawing and specifically
The utility model is described in detail in embodiment.It should be appreciated that specific embodiment described herein is only used to explain this
Utility model is not used to limit the utility model.
Connection structure between converter station change of current change and change of current valve tower as shown in Figure 1, Figure 2, Figure 3 shows, mainly include the change of current become 1,
Jumper pipe mother 7, column pipe mother 8 and change of current valve tower 12, it includes A, B, C three-phase that the change of current, which becomes 1, is respectively corresponded labeled as A phase
The change of current becomes the change of current of 1A, B phase and becomes 1B and C phase change of current change 1C, and the C phase change of current therein change 1C is defined as the side phase change of current and is become.Described
Change of current valve tower 12 also includes A, B, C three-phase, respectively corresponds and changes labeled as A phase change of current valve tower 12A, B phase change of current valve tower 12B with C phase
Flow valve tower 12C.The column pipe mother 8 is connect by the first suspension insulator 5 with hanger 14, the A phase change of current valve tower
12A, B phase change of current valve tower 12B, the C phase change of current valve tower 12C are connect with hanger 14 respectively.
Wherein, under the conductive plug inside the upper value side bushing 2 in the A phase change of current change 1A becomes in 1B with the B phase change of current
It is formed and is conductively connected by jumper pipe mother 7 between conductive plug inside value side bushing 3, the B phase change of current becomes the upper valve in 1B
Conductive plug inside side casing 2 and the C phase change of current become between the conductive plug inside the lower value side bushing 3 in 1C and by across
Adapter tube mother 7, which is formed, to be conductively connected.The A phase change of current becomes conductive plug and column pipe mother 8 inside the lower value side bushing 3 in 1A
Between formed and be conductively connected by flexible circuit conductor 4, the conductive plug inside upper value side bushing 2 that the C phase change of current becomes in 1C is also
It is conductively connected by being formed between flexible circuit conductor 4 and column pipe mother 8.The B phase change of current will be connected to become between 1B and C phase change of current change 1C
Jumper pipe mother 7 and the connecting terminal in the middle part of B phase change of current valve tower 12B between formed be conductively connected, will be connected to the B phase change of current become 1B with
Formation is conductively connected between the A phase change of current jumper pipe mother 7 become between 1A and the connecting terminal in the middle part of A phase change of current valve tower 12A, by A
It is formed between the conductive plug inside lower value side bushing 3 that the phase change of current becomes in 1A and the connecting terminal in the middle part of C phase change of current valve tower 12C
It is conductively connected, electrical connection is then formed by third pipe mother 13 between the connecting terminal of 12 bottom of change of current valve tower.
After above-mentioned connection structure, it can make to be formed between A phase change of current change 1A and A phase change of current valve tower 12A corresponding
It is conductively connected, forms corresponding conductive connection between B phase change of current change 1B and B phase change of current valve tower 12B, the C phase change of current becomes 1C and C phase and changes
Form corresponding conductive connection between stream valve tower 12C, this change of current become 1 arrangement phase sequence and change of current valve tower 12 arrangement phase sequence it
Between not correspond and be actually electrically connected the one-to-one mode of connection of phase sequence, without change change of current valve tower 12 valve control
Logic-controlled sequential in protection system can guarantee the trigger sequence of converter valve tower 12, easy to operate, improve change of current valve tower
The security reliability of 12 operations.
In view of being focused under earthquake operating condition certainly for the jumper pipe mother 7 has larger shadow to the terminal of converter transformer valve side sleeve
It rings, for the stress of the terminal of the value side bushing of reduction change of current change, can become between 1A and B phase change of current change 1B in the A phase change of current, C phase
The change of current, which becomes between 1C and B phase change of current change 1B, is respectively set valve lateral brace insulator 6, and is supported by valve lateral brace insulator 6
Jumper pipe mother 7.Furthermore, it is contemplated that it is usually by pipe mother come shape that the connecting terminal at 12 middle part of change of current valve tower and the change of current, which become between 1,
At conductive connection, become the conductive plug inside the lower value side bushing 3 in 1A in order to facilitate the A phase change of current and between column pipe mother 8
It is conductively connected, 1A valve side can be become in the A phase change of current and valve lateral brace insulator 6 is set, thus need to be arranged 3 valve lateral brace insulation
Son 6.For convenience of description, the phase sequence of the sequence of this 3 valve lateral brace insulators 6 and change of current valve tower 12 is labeled as to consistent, difference
It is denoted as A phase valve lateral brace insulator 6A, B phase valve lateral brace insulator 6B, C phase valve lateral brace insulator 6C.It is exhausted in valve lateral brace
6 top of edge can be fixedly connected with the fixed fitting 17 of pipe mother, and the fixed fitting 17 of pipe mother is propped up by valve lateral brace insulator 6
Support can be convenient wiring operation, improve wiring operating efficiency.For example, as shown in Figure 1, the A phase change of current becomes the lower valve side in 1A
Conductive plug inside casing 3 can pass through the fixed fitting 17 of the pipe mother at the top of flexible circuit conductor 4 and C phase valve lateral brace insulator 6C
Between formed and be conductively connected, between the fixed fitting 17 of the pipe mother at the top of the C phase valve lateral brace insulator 6C and column pipe mother 8
It can also be formed and be conductively connected by flexible circuit conductor 4.
Since the conduction connecting structure formed by pipe mother is Hard link structure, poor seismic behavior.In order to enhance the change of current
The anti-seismic performance of valve tower 12, can be using rotation connection structure between change of current change and converter valve as shown in Figure 1, Figure 2, Figure 3 shows, extremely
Few phase change of current, which becomes between the change of current valve tower 12 of 1 corresponding conductive connection, increases setting cradle head fitting 10 and the second suspention
Insulator 15.It normally, is divided between each phase change of current change 1 that the 3 phase changes of current become in 1 and its mutual corresponding change of current valve tower 12
Independent cradle head fitting 10 and the second suspension insulator 15 are not set, that is, become 1A and C phase change of current valve tower 12C in the A phase change of current
Between, the B phase change of current become 1B and A phase change of current valve tower 12A between, the C phase change of current become 1C and B phase change of current valve tower 12B between respectively
Independent cradle head fitting 10 and the second suspension insulator 15 are set.The cradle head fitting 10 includes upper cradle head
Fitting 101 and lower cradle head fitting 102, form between the upper cradle head fitting 101 and lower cradle head fitting 102
The movable connection structure of relative rotation.The A phase change of current becomes the corresponding lower cradle head fitting 102 of 1A, upper rotation is closed
Conductive connection is sequentially formed between section fitting 101, C phase change of current valve tower 12C, the B phase change of current becomes corresponding lower turn of 1B
Movable joint fitting 102, upper cradle head fitting 101 sequentially form conductive connection, the C phase between A phase change of current valve tower 12A
The change of current become the corresponding lower cradle head fitting 102 of 1C, upper cradle head fitting 101, between B phase change of current valve tower 12B successively
It is formed and is conductively connected.
The upper cradle head fitting 101 preferably use structure as shown in Figure 4, mainly include first connecting rod 23,
Second connecting rod 25 and third connecting rod 26, the first connecting rod 23 respectively with the second connecting rod 25, third connecting rod 26
Form the movable connection structure relatively rotated.Specifically, one end of the first connecting rod 23 is connect with bulb mounting base 19, institute
The one end for stating third connecting rod 26 forms rotation bulb, the rotation bulb in the bulb mounting base 19 and third connecting rod 26
Between form the spherical hinge structure of relative rotation.One end of second connecting rod 25 forms U-joint, the U-joint with
The articulated structure relatively rotated is formed by pin shaft between first connecting rod 23;Alternatively, the middle part of the first connecting rod 23 with
Bulb mounting base 19 connects, and one end of second connecting rod 25 forms rotation bulb, and the rotation bulb and bulb are installed
The spherical hinge structure of relative rotation is formed between seat 19.
Mechanical connection between upper cradle head fitting 101 and the second suspension insulator 15 for convenience, can will wherein
First connecting rod 23 connected with hangers 21 is connect, the connection hangers 21 connect with the second suspension insulator 15.For convenience
The external electrical connection of upper cradle head fitting 101, second connecting rod 25 is connect with the second pipe bus clip 24, described
Third connecting rod 26 connect with the first pipe bus clip 18, between the first pipe bus clip 18 and the second pipe bus clip 24 lead to
It crosses flexible circuit conductor 4 and forms electrical connection;Preferably, pre- arch structure is set on the flexible circuit conductor 4.
The lower cradle head fitting 102 preferably use structure as shown in Figure 5, mainly include the 4th connecting rod 27,
5th connecting rod 29 and the 6th connecting rod 31 form relative rotation between the 4th connecting rod 27 and the 5th connecting rod 29
Movable connection structure.Further, one end of the 4th connecting rod 27 is connect with bulb mounting base 19, the 5th connecting rod
29 one end forms rotation bulb, and the spherical hinge structure of relative rotation is formed between rotation bulb and the bulb mounting base 19.
Alternatively, one end of the 4th connecting rod 27 forms U-joint, lead between 29 one end of the U-joint and the 5th connecting rod
It crosses pin shaft and forms the articulated structure relatively rotated.5th connecting rod 29 and the 6th connecting rod 31 are connected with each other;It is preferred that
Ground is fixedly connected between the 5th connecting rod 29 and the 6th connecting rod 31 and forms L-shaped structure.
The external electrical connection of lower cradle head fitting 102 for convenience, the 4th connecting rod 27 and third pipe are female
Wire clamp 28 connects, and the 6th connecting rod 31 is connect with the 4th pipe bus clip 30, the third pipe bus clip 28 and the 4th
Electrical connection is formed by flexible circuit conductor 4 between pipe bus clip 30;Preferably, pre- arch structure is set on the flexible circuit conductor 4.
The change of current become 1 between corresponding cradle head fitting 10, the second suspension insulator 15, change of current valve tower 12, it is described
One end of second suspension insulator 15 connect with hanger 14, the connection hangers 21 on the other end and upper cradle head fitting 101
Connection.The connecting terminal at 12 middle part of change of current valve tower passes through the second pipe mother 11 and the second pipe in upper cradle head fitting 101
It is formed and is conductively connected between bus clip 24, the first pipe bus clip 18 in the upper cradle head fitting 101 is female by the 4th pipe
16 and lower cradle head fitting 102 in third pipe bus clip 28 between formed be conductively connected, the lower cradle head fitting 102
In the 4th pipe bus clip 30 connect by the first pipe mother 9 with the fixed fitting 17 of pipe mother, the pipe mother fixation fitting 17 passes through
Valve lateral brace insulator 6 is supported, and is then formed by third pipe mother 13 between the connecting terminal of 12 bottom of change of current valve tower
Electrical connection.
The electric field where upper cradle head fitting 101, lower cradle head fitting 102 causes because uneven in order to prevent
Corona discharge can be such that the first connecting rod 23 in cradle head fitting 101 connect with voltage equalizing ball support 20, the voltage equalizing ball
Support 20 is connect with voltage equalizing ball 22, as shown in Figure 4.Similarly, make the 4th connecting rod 27 in lower cradle head fitting 102 with
Voltage equalizing ball support 20 connects, and the voltage equalizing ball support 20 is connect with voltage equalizing ball 22, as shown in Figure 5.By the way that voltage equalizing ball 22 is arranged
Can be with uniform electric field, being effectively prevented leads to corona discharge because electric field is uneven.
By using upper cradle head fitting 101, lower cradle head fitting 102, and upper cradle head fitting 101 with
The movable connection structure of relative rotation is formed between lower cradle head fitting 102, under earthquake operating condition, change of current valve tower 12 is not
Equidirectional earthquake swing translates into cradle head fitting 101, lower cradle head fitting 102 in the vertical and horizontal direction
Rotation, and earthquake displacement amplitude upper cradle head fitting 101, lower cradle head fitting 102 allow slewing area with
It is interior, so as to mitigate even offset change of current valve tower 12 earthquake displacement, ensure that change of current valve tower 12 valve tower connecting terminal and
The change of current becomes the stress of 1 value side bushing within the allowable range, efficiently solves change of current valve tower 12, the change of current becomes the electrical equipments such as 1
In the safe and reliable problem of electrical connection of the excessive earthquake amplitude of oscillation of high earthquake intensity area, change of current valve tower 12, the change of current is made to become 1 etc. electrically
The anti-seismic performance of equipment is effectively improved.
In order to improve the security reliability that the change of current becomes 1 valve side connection outlet, 1 valve side of rheology can be exchanged and connect out knot
Structure is constructed as follows:
Outlet structure is connected for angular group converter transformer valve side, as shown in Fig. 2, Fig. 6, Fig. 7, including the insulation of valve lateral brace
Son 6, jumper pipe mother 7 and its installation stationary fixture, the first pipe mother conductive fixture 32 and the first mounting seat 36 and the 5th pipe are female
Wire clamp 40, the installation stationary fixture of the jumper pipe mother 7 include pipe mother fixed plate 35, fixed charge method end plate 34 and to wearing bolt 38.It will
The top of the valve lateral brace insulator 6 is fixedly connected with the first insulator flange disk 37, the first insulator flange disk 37
Dismountable fixed connection structure is formed by connecting bolt between the first mounting seat 36.Jumper pipe mother 7 is female using pipe
It forms a fixed connection between fixed plate 35, fixed charge method end plate 34 and the first mounting base 36.
Specifically, two pieces of opposite thirty years of age can be set in the pipe mother fixed plate 35, in each piece of pipe mother fixed plate 35
On be preferably provided the circular groove to match with female 7 outer diameters of jumper pipe;First by two pieces of pipe mother fixed plates 35 it is opposite and on the spot
Jumper pipe mother 7 is clamped, recycles to bolt 38 is worn through opposite thirty years of age of two pieces of pipe mother fixed plates 35, can be fixed by pipe mother
Plate 35 has been fixedly clamped jumper pipe mother 7;The fixed charge method end plate 34 is fixed with pipe mother fixed plate 35, the first mounting base 36 respectively
Connection, so as to which jumper pipe mother 7 to be fixedly installed to the top of the valve lateral brace insulator 6.
In actual installation operation, first fixed charge method end plate 34 can also be fixedly connected with the first mounting base 36, then will wherein
One piece of pipe mother fixed plate 35 be fixedly connected with fixed charge method end plate 34, install jumper pipe in the pipe mother fixed plate 35 fixed
Mother 7;Then, another piece of pipe mother fixed plate 35 is pushed down into jumper pipe mother 7, and by wear that bolt 38 runs through opposite thirty years of age two
Jumper pipe mother 7 can be fixedly installed to the top of the valve lateral brace insulator 6 by block pipe mother fixed plate 35.
In order to facilitate the flexible connection of jumper pipe mother 7, and guarantee conductive security, reliable, it can be in the first mounting base 36
It is fixedly connected with support frame 41, certainly, support frame as described above 41 can also be directly fixedly connected with fixed charge method end plate 34;At 41 end of support frame
Universal joint 39 is installed in portion, is bolted between the universal joint 39 and the 5th pipe bus clip 40, on jumper pipe mother 7
The first pipe mother conductive fixture 32 is fixedly mounted by connecting bolt, the first pipe mother conductive fixture 32 is preferably provided two
It is a, and it is separately mounted to the opposite end of fixed charge method end plate 34, to increase the conductive current-carrying capacity of jumper pipe mother 7.First pipe
It is formed and is conductively connected by conducting connecting part 33 between female conductive fixture 32 and the 5th pipe bus clip 40.The conducting connecting part
33 preferably use electric telescopic copper bar, to guarantee to have centainly between the first pipe mother conductive fixture 32 and the 5th pipe bus clip 40
Flexible nargin, it is ensured that the security reliability of conductive connection.
Conductive connect is formed between first pipe mother 9 corresponding to the 5th pipe bus clip 40 and A phase change of current valve tower 12A
It connects, the universal joint 39 can provide certain activity nargin for the 5th pipe bus clip 40, to improve jumper pipe mother 7 and the
The anti-seismic performance of conduction connecting structure between one pipe mother 9.Wherein, first mounting base 36 can also be with voltage equalizing ball support 20
Connection, the voltage equalizing ball support 20 are connect with voltage equalizing ball 22, and the voltage equalizing ball 22 coats the first pipe mother conductive fixture 32, leads
Electrical connector 33, as shown in Figure 6, Figure 7.By setting voltage equalizing ball 22 can uniform electric field well, be effectively prevented because of electric field
Unevenly lead to corona discharge.
Outlet structure is connected for side phase converter transformer valve side, as shown in Fig. 2, Fig. 8, Fig. 9, including the insulation of side phase valve lateral brace
Son, the second mounting seat 44, conductive attachment plate 43, conducting connecting part 33, the 6th pipe bus clip 48 and the first wire clamp 42
With the second wire clamp 47.For convenience of description, side phase valve lateral brace insulator herein is set as C phase valve lateral brace insulator
6C.The top of C phase valve lateral brace insulator 6C is fixedly connected with the second insulator flange disk 45, second insulator flange
Dismountable fixed connection structure is formed by connecting bolt between disk 45 and the second mounting seat 44.The conductive attachment plate
43 are fixedly connected with the second mounting seat 44, it is preferable that the L-shaped structure of conductive attachment plate 43, two end difference
It is formed and is conductively connected with the first wire clamp 42, the second wire clamp 47.First wire clamp 42, the second wire clamp
47 can form dismountable fixed connection structure, the 6th pipe bus by connection bolt and conductive attachment plate 43 respectively
Folder 48 is mounted in the second mounting seat 44.
Installation interference occurs in order to prevent, setting can be increased between the second mounting seat 44 and the 6th pipe bus clip 48
Supporting element 46, the supporting element 46 preferably use " 7 " character form structure, and one end is fixedly connected with the second mounting seat 44, props up
46 other end of support member is then connect with the 6th pipe bus clip 48.It is possible to further first install universal joint on supporting element 46
39, then make to be bolted between the universal joint 39 and the 6th pipe bus clip 48, as shown in Figure 9.By the way that Universal connector is arranged
First 39, it can make the 6th pipe bus clip 48 that there is certain activity nargin, to improve its anti-seismic performance.
It is formed and is conductively connected by flexible circuit conductor 4 between first wire clamp 42 and column pipe mother 8, described second
Wire clamp 47, which is become by the flexible circuit conductor 4 and A phase change of current between the conductive plug inside the lower value side bushing 3 of 1A, forms conductive connect
It connects, is formed and be conductively connected between the first pipe mother 9 corresponding to the 6th pipe bus clip 48 and C phase change of current valve tower 12C, it is described
Conductive attachment plate 43 pass through between conducting connecting part 33 and the 6th pipe bus clip 48 formed be conductively connected, the conductive connection
Part 33 preferably uses electric telescopic copper bar, to guarantee to have between the 6th pipe bus clip 48 and conductive attachment plate 43 certain stretch
Nargin, it is ensured that the security reliability of conductive connection.In addition, second mounting seat 44 can also connect with voltage equalizing ball support 20
It connects, the voltage equalizing ball support 20 is connect with voltage equalizing ball 22, the 22 coated with conductive gusset piece 43 of voltage equalizing ball, conducting connecting part
33, as shown in Figure 8, Figure 9.By setting voltage equalizing ball 22 can uniform electric field well, be effectively prevented due to electric field is uneven
Lead to corona discharge.
Connecting line construction is bridged for converter transformer valve side sleeve, as shown in Fig. 2, Figure 10, Figure 11, including converter transformer valve side set
Pipe, jumper pipe mother 7 and the second pipe mother conductive fixture 51 and pre-bending conducting wire 50.For convenience of description, converter transformer valve side set herein
Pipe is set as the upper value side bushing 2 that the A phase change of current becomes in 1A.The external port of the jumper pipe mother 7 blocks lid 52 using pipe mother and seals,
Dismountable fixed connection structure is formed by fastening bolt 55 between the second pipe mother conductive fixture 51 and jumper pipe mother 7,
Described 50 one end of pre-bending conducting wire forms cyclic structure and the annular through-hole of its end is passed through for jumper pipe mother 7;The pre-bending conducting wire
The conductive plug being conductively connected, inside the other end and upper value side bushing 2 is formed between 50 one end and the second pipe mother conductive fixture 51
It is formed and is conductively connected between 49.Preferably, the end elder generation fixed connecting sleeve terminal clip 53 of the conductive plug 49, then make to cover
It is formed and is conductively connected between pipe terminal clip 53 and pre-bending conducting wire 50.One end of the pre-bending conducting wire 50 preferentially forms as " 9 " word
Shape circular ring structure, and the circular ring shape through-hole of its end is passed through for jumper pipe mother 7.Further, 50 one end shape of pre-bending conducting wire
At by the several layers spring-like structures that annulus forms side by side, the jumper pipe mother 7 is run through the spring-like structures, is such as schemed
10, shown in Figure 11.It is designed using such structure, is on the one hand conducive to save wiring space, on the other hand also advantageously improve
The activity nargin of jumper pipe mother 7 is conducive to the safety reliability for improving its electrical connection to enhance its anti-seismic performance.
After bridging connecting line construction using above-mentioned converter transformer valve side sleeve, converter transformer valve side sleeve is not subjected to pipe mother's load
Weight, jumper pipe is female to form movable connection structure between converter transformer valve side sleeve, so as in extreme operating conditions such as earthquakes
Under remain to provide relatively movable space, to avoid between converter transformer valve side sleeve terminal and jumper pipe mother due to stress and
Damage effectively improves safety, the reliability of converter transformer valve side connection outlet.
Lead to corona discharge to be effectively prevented 51 place position of the second pipe mother conductive fixture because electric field is uneven, it can
To be fixedly connected with voltage equalizing ball support 20 on the second pipe mother conductive fixture 51, the voltage equalizing ball support 20 and voltage equalizing ball 22 connect
It connects, the voltage equalizing ball 22 coats the second pipe mother conductive fixture 51, voltage equalizing ball support 20, also opens up confession in 22 bottom of voltage equalizing ball
Pre-bending conducting wire 50 is pierced by the through-hole of voltage equalizing ball 22.Similarly, in order to be effectively prevented 53 place position of casing terminal clip because of electricity
Field is uneven and leads to corona discharge, upper 2 end of value side bushing can be connect with value side bushing grading shield 54, and the valve
54 coated with conductive plug 49 of side casing grading shield, casing terminal clip 53 also open up at 54 top of value side bushing grading shield for pre-
Curved conducting wire 50 pierces into the through-hole of value side bushing grading shield 54, as shown in Figure 10, Figure 11.
The angular group converter transformer valve outgoing line structure of above-mentioned converter station, good appearance is easy to implement, can effectively solve
Certainly most while column pipe parent phase it is angular be shorted downlead and while do not allow to the electrical distance drawn between online of change of current valve tower outlet mutually
Manageable problem, and improve the security reliability of the angular group converter transformer valve outgoing line of converter station.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, and should refer to
Out, any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention etc. should all include
It is within the protection scope of the utility model.
Claims (8)
1. a kind of converter station side phase converter transformer valve side connects outlet structure, including side phase valve lateral brace insulator, the first wire
Press from both sides (42) and the second wire clamp (47), it is characterised in that: further include the second mounting seat (44), conductive attachment plate (43) and the
Six pipe bus clips (48) form a fixed connection between second mounting seat (44) and side phase valve lateral brace insulator, described
Conductive attachment plate (43) is fixedly connected with the second mounting seat (44), and the 6th pipe bus clip (48) is mounted on the second installation bottom
On seat (44);First wire clamp (42), the second wire clamp (47) form with conductive attachment plate (43) conductive respectively
Connection, the conductive attachment plate (43), which passes through to be formed between conducting connecting part (33) and the 6th pipe bus clip (48), to be conductively connected.
2. a kind of converter station side phase converter transformer valve side according to claim 1 connects outlet structure, it is characterised in that: described
The second mounting seat (44) and the 6th pipe bus clip (48) between be arranged supporting element (46), the supporting element (46) use
" 7 " character form structure, one end is fixedly connected with the second mounting seat (44), the other end is connect with the 6th pipe bus clip (48).
3. a kind of converter station side phase converter transformer valve side according to claim 2 connects outlet structure, it is characterised in that: described
Supporting element (46) on install universal joint (39), pass through spiral shell between the universal joint (39) and the 6th pipe bus clip (48)
It tethers and connects.
4. a kind of converter station side phase converter transformer valve side according to claim 1 connects outlet structure, it is characterised in that: described
The second mounting seat (44) connect with voltage equalizing ball support (20), the voltage equalizing ball support (20) is connect with voltage equalizing ball (22),
Described voltage equalizing ball (22) coated with conductive gusset piece (43), conducting connecting part (33).
5. a kind of converter station side phase converter transformer valve side according to claim 1-4 connects outlet structure, feature
Be: described conductive attachment plate (43) the L-shaped structure, two end respectively with the first wire clamp (42), the second conducting wire
Wire clamp (47), which is formed, to be conductively connected.
6. a kind of converter station side phase converter transformer valve side according to claim 1-4 connects outlet structure, feature
Be: the conducting connecting part (33) uses electric telescopic copper bar.
7. a kind of converter station side phase converter transformer valve side according to claim 1-4 connects outlet structure, feature
Be: the top of the side phase valve lateral brace insulator is fixedly connected with the second insulator flange disk (45), second peace
Dismountable fixed connection structure is formed by connecting bolt between dress pedestal (44) and the second insulator flange disk (45).
8. a kind of converter station side phase converter transformer valve side according to claim 1-4 connects outlet structure, feature
Be: first wire clamp (42) and/or the second wire clamp (47) passes through connection bolt and conductive attachment plate (43)
Form dismountable fixed connection structure.
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CN201820550501.0U CN208433635U (en) | 2018-04-18 | 2018-04-18 | A kind of converter station side phase converter transformer valve side connection outlet structure |
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CN201820550501.0U CN208433635U (en) | 2018-04-18 | 2018-04-18 | A kind of converter station side phase converter transformer valve side connection outlet structure |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108493784A (en) * | 2018-04-18 | 2018-09-04 | 中国电力工程顾问集团西南电力设计院有限公司 | A kind of current conversion station side phase converter transformer valve side connection outlet structure |
CN108493784B (en) * | 2018-04-18 | 2024-07-30 | 中国电力工程顾问集团西南电力设计院有限公司 | Side connection outlet structure of side phase-change converter valve of converter station |
-
2018
- 2018-04-18 CN CN201820550501.0U patent/CN208433635U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108493784A (en) * | 2018-04-18 | 2018-09-04 | 中国电力工程顾问集团西南电力设计院有限公司 | A kind of current conversion station side phase converter transformer valve side connection outlet structure |
CN108493784B (en) * | 2018-04-18 | 2024-07-30 | 中国电力工程顾问集团西南电力设计院有限公司 | Side connection outlet structure of side phase-change converter valve of converter station |
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