CN106392954B - Press fitting string device replaces frock - Google Patents
Press fitting string device replaces frock Download PDFInfo
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- CN106392954B CN106392954B CN201610940381.0A CN201610940381A CN106392954B CN 106392954 B CN106392954 B CN 106392954B CN 201610940381 A CN201610940381 A CN 201610940381A CN 106392954 B CN106392954 B CN 106392954B
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Abstract
One kind press fitting string device replaces frock, including the first fagging being parallel to each other, second fagging and the first driven subassembly being arranged in order between the first fagging and the second fagging, driving component and the second driven subassembly, one end of first driven subassembly is threadedly coupled with the first fagging, the other end is rotatably positioned on the second fagging, one end of second driven subassembly is threadedly coupled with the second fagging, the other end is rotatably positioned on the first fagging, the both ends of driving component are rotationally threaded through in the first fagging and the second fagging respectively, first driven subassembly is engaged with the adjustment gear on driving component respectively with the adjustment gear on the second driven subassembly, the front end of first fagging and the second fagging is respectively equipped with the heat sink interface coordinated with press fitting string radiator.The press fitting string device of the present invention replaces frock and adjusts fagging spacing by the gear pair cooperation of each inter-module, has stronger load driving force, simple and reliable for structure, and device replacement can be rapidly completed under one man operation.
Description
Technical field
The present invention relates to power electronics field, is pressed string device especially with regard to one kind and replaces frock.
Background technology
Integrated gate commutated thyristor (Integrated Gate Commutated Thyristors, IGCT) is a kind of
The high power semiconductor device of high efficiency, reliability, IGCT are a gate level turn-off thyristor (Gate Turn- when opening
Off Thyrisitor, GTO), and be when off a transistor, have that transistor switch speed is fast, switching loss is low concurrently and
The characteristics of turn on thyristors loss is low, blocking voltage is high, output current is big, therefore it is widely used in middle pressure big-power transducer
In.With the progressively development of offshore wind farm and large-tonnage ships, the middle electrical characteristic and work(for pressing big-power transducer is considered
Rate rank, its application in these fields also will be more and more extensive.
Fig. 1 is a kind of existing three level IGCT phase modules, and Fig. 2 a to Fig. 2 c are the main devices in IGCT press fitting strings.Such as
Shown in Fig. 1, Fig. 2 a to Fig. 2 c, three level IGCT phase modules include IGCT press fittings string 11 and diode press fitting string 12, IGCT press fittings
String 11 is fitted in press fitting frame 14 with diode press fitting string 12 by corresponding pressing component 13, wherein, IGCT press fittings string 11
Mainly include IGCT111, radiator 112 and location structure 113, location structure 113 is positioned at support water by locating detent 114
On pipe 15, IGCT111 and radiator 112 respectively by with the IGCT locating grooves 115 on location structure 113, IGCT guide parts
117 and heat sink interface 116 coordinate be positioned at into string-like in phase module, IGCT press fitting go here and there 11 112 and two pole of radiator
The radiator 122 of pipe press fitting string 12 is electrically connected by soft busbar 16.
According to existing device substitute mode, when IGCT (or diode) is damaged, the press fitting on press fitting string is laid down first
All devices above the IGCT of damage are moved up 3 and arrive 5mm by load, a people, and another people is by the IGCT of damage from location structure
In pull out, then replaced, this kind of substitute mode needs two people to coordinate, and when IGCT is positioned at press fitting string bottom,
It is very painstaking that other devices are moved upwards, and when it is 2 to 3 times of the press fitting string to be pressed string length, the replacement of bottom device
It is nearly impossible.Cause to be not easy to two people to be carried out at the same time behaviour in addition, at sea the site environment such as wind-powered electricity generation and ship is narrow
In the case of work, also it is difficult to replace device by this kind of substitute mode.
The content of the invention
It is pressed string device it is an object of the invention to provide one kind and replaces frock, can be used in smaller space, and can lead to
Cross the replacement that one man operation carries out press fitting string device.
The present invention provides a kind of press fitting string device and replaces frock, including be parallel to each other the first fagging, the second fagging and
The first driven subassembly for being arranged in order between first fagging and second fagging, driving component and second driven group
Part, one end of first driven subassembly are threadedly coupled with first fagging, and the other end is rotatably positioned described second
On fagging, one end of second driven subassembly is threadedly coupled with second fagging, and the other end is rotatably positioned described
On first fagging, the both ends of the driving component are rotationally threaded through in first fagging and second fagging respectively,
The driving component, the first driven subassembly and the second driven subassembly are respectively equipped with adjustment gear, first driven subassembly and institute
State adjustment gear of the adjustment gear of the second driven subassembly respectively with the driving component to engage, first fagging and described the
The front end of two faggings is respectively equipped with the heat sink interface coordinated with press fitting string radiator.
Further, the driving component includes driving gear shaft and active adjustment gear, the first driven subassembly bag
The first driven gear shaft, the first driven adjustment gear and the first positioning ring are included, it is driven that second driven subassembly includes second
Gear shaft, the second driven adjustment gear and the second positioning ring.
Further, first driven gear shaft includes first end of thread and the first positioning end, first end of thread
It is threadedly coupled with first fagging, first positioning end is rotatably positioned described by first positioning ring
On two faggings, second driven gear shaft includes second end of thread and the second positioning end, second end of thread and described the
Two faggings are threadedly coupled, and second positioning end is rotatably positioned in first fagging by second positioning ring
On.
Further, the screw thread on first end of thread is opposite with the thread rotary orientation on second end of thread.
Further, first positioning end is equipped with external screw thread, and first positioning ring is equipped with internal thread, and described first
Positioning end is threadedly coupled after passing through second fagging with first positioning ring, the end face of first positioning ring and institute
State the contact of the second fagging face.
Further, second positioning end and the second positioning ring clearance fit, second positioning end protrude out
Go out second positioning ring, first fagging is equipped with location hole, and second positioning end protrudes out second positioning sleeve
The part of ring rotatably coordinates with the location hole, the both sides of the face of second positioning ring respectively with first fagging and
The end plane-plane contact of the second driven adjustment gear.
Further, first driven subassembly, driving component and the second driven subassembly first fagging with it is described
The rear end of second fagging is arranged in order into linear type along the length direction of first fagging and second fagging.
Further, the diameter in the middle part of the driving gear shaft is more than the diameter at the driving gear shaft both ends, the master
The both ends of movable gear shaft are equipped with outer-hexagonal driving interface.
Further, the active adjustment gear is fixed by holding screw and the flat key on the driving gear shaft
At the middle part of the driving gear shaft, the first driven adjustment gear is by holding screw and positioned at first driven gear
Flat key on axis is fixed on the middle part of first driven gear shaft, and the second driven adjustment gear passes through positioned at described second
Flat key and the shaft shoulder on driven gear shaft are positioned at the middle part of second driven gear shaft.
Further, the number of teeth phase of the active adjustment gear, the first driven adjustment gear and the second driven adjustment gear
Deng.
The press fitting string device of the embodiment of the present invention replaces frock and coordinates adjusting fagging spacing by the gear pair of each inter-module,
And driving component both sides respectively set a driven subassembly, advantageously reduce fagging front end formation loaded torque in screw thread
Pressure caused by cooperation, has stronger load driving force, simple and reliable for structure, can be rapidly completed device under one man operation
Part is replaced, and is suitable for the small occasion of the site spaces such as offshore wind farm and ship, is influenced caused by production smaller.
Brief description of the drawings
Fig. 1 is a kind of existing three level IGCT phase modules.
Fig. 2 a are the structure diagram of radiator in IGCT press fitting strings.
Fig. 2 b are the structure diagram of location structure in IGCT press fitting strings.
Fig. 2 c are the structure diagram of the IGCT in IGCT press fitting strings.
Fig. 3 is the structure diagram that press fitting string device provided in an embodiment of the present invention replaces frock.
Fig. 4 is that press fitting string device provided in an embodiment of the present invention replaces structure diagram of the frock at another visual angle.
Fig. 5 is the structure diagram of the first driven subassembly in the embodiment of the present invention.
Fig. 6 is the structural decomposition diagram of the first driven subassembly in the embodiment of the present invention.
Fig. 7 is the structure diagram of the second driven subassembly in the embodiment of the present invention.
Fig. 8 is the structural decomposition diagram of the second driven subassembly in the embodiment of the present invention.
Fig. 9 is the structure diagram of driving component in the embodiment of the present invention.
Figure 10 is the structural decomposition diagram of driving component in the embodiment of the present invention.
Figure 11 is the course of work schematic diagram that press fitting string device replaces frock in the embodiment of the present invention.
Embodiment
Further to illustrate the present invention to reach the technological means and effect that predetermined goal of the invention is taken, below in conjunction with
Attached drawing and preferred embodiment, to embodiment, structure, feature and its effect of the present invention, describe in detail as after.
Fig. 3 is the structure diagram that press fitting string device provided in an embodiment of the present invention replaces frock.Fig. 4 is implemented for the present invention
The press fitting string device that example provides replaces structure diagram of the frock at another visual angle.As shown in Figure 3 and Figure 4, the embodiment of the present invention
Press fitting string device replace frock (hereinafter referred to as " replacement frock ") include the first fagging 21, the second fagging 22, the first driven subassembly
30th, 40 and second driven subassembly 50 of driving component, the first fagging 21 are parallel to each other with the second fagging 22, the first driven subassembly 30,
40 and second driven subassembly 50 of driving component is between the rear end of the first fagging 21 and the second fagging 22 along the first fagging 21 and
The length direction of two faggings 22 is arranged in order into linear type, and one end and 21 screw thread of the first fagging of the first driven subassembly 30 connect
Connecing, the other end is rotatably positioned on the second fagging 22, and one end of the second driven subassembly 50 is threadedly coupled with the second fagging 22,
The other end is rotatably positioned on the first fagging 21, and the both ends of driving component 40 are rotationally threaded through the first fagging 21 respectively
With in the second fagging 22, between 40 and first driven subassembly 30 of driving component and 40 and second driven subassembly 50 of driving component it
Between coordinated by gear pair so that driving component 40 can be by driving the first driven subassembly 30 and the second driven subassembly 50 adjust
Save the distance between the first fagging 21 and the second fagging 22, the front end of the first fagging 21 and the second fagging 22 is respectively equipped with and is pressed
Go here and there radiator coordinate heat sink interface 211,221, press fitting string in radiator have and heat sink interface 211,221 coordinate
Notch, the notch are radiator itself fabrication hole.
Incorporated by reference to Fig. 5 and Fig. 6, the first driven subassembly 30 includes the first driven gear shaft 31, the first driven adjustment gear 32
With the first positioning ring 33, the first driven gear shaft 31 includes first end of thread 311 and the first positioning end 312, first end of thread
311 are threadedly coupled with the first fagging 21, and the first positioning end 312 is rotatably positioned in the second fagging by the first positioning ring 33
On 22, the first driven adjustment gear 32 is fixed on by holding screw 35 and the flat key 313 on the first driven gear shaft 31
The middle part of first driven gear shaft 31.In the present embodiment, the first positioning end 312 is equipped with external screw thread, and the first positioning ring 33 is set
There are internal thread (not shown), the first positioning end 312 to be threadedly coupled after passing through the second fagging 22 with the first positioning ring 33, first is fixed
The end face of the position lantern ring 33 is contacted with 22 face of the second fagging.
First driven subassembly 30 transmits the driving moment of driving component 40, drives the first fagging 21 along the first driven gear shaft
31 axial movement, and then adjust the spacing of the first fagging 21 and the second fagging 22.Wherein, the first positioning ring 33 and first from
Movable gear shaft 31 uses thread fitting, is conducive to that the first positioning ring 33 and second is adjusted flexibly in frock assembling process is replaced
Plane-plane contact between fagging 22, in frock assembling and the course of work is replaced, the end face of the first positioning ring 33 and the second support
22 corresponding surface domain of plate is engaged, and can be that the second fagging 22 provides an effective fulcrum, so as to reduce the second fagging 22 and first
21 front end of fagging formation loaded torque generated at 22 thread fitting of the second driven subassembly 50 and the second fagging it is huge
Pressure.
Incorporated by reference to Fig. 7 and Fig. 8, the second driven subassembly 50 includes the second driven gear shaft 51, the second driven adjustment gear 52
With the second positioning ring 53, the second driven gear shaft 51 includes second end of thread 511 and the second positioning end 512, second end of thread
511 are threadedly coupled with the second fagging 22, and the second positioning end 512 is rotatably positioned in the first fagging by the second positioning ring 53
On 21, the second driven adjustment gear 52 is positioned at second by the flat key 513 on the second driven gear shaft 51 and the shaft shoulder 515
The middle part of driven gear shaft 51.In the present embodiment, 53 clearance fit of the second positioning end 512 and the second positioning ring, second is fixed
Position end 512 protrudes out the second positioning ring 53, and the first fagging 21 is equipped with location hole 212, and it is fixed that the second positioning end 512 protrudes out second
The part of the position lantern ring 53 rotatably coordinates with location hole 212, the both sides of the face of the second positioning ring 53 respectively with the first fagging 21
With the end plane-plane contact of the second driven adjustment gear 52.
Second driven subassembly 50 transmits the driving moment of driving component 40, drives the second fagging 22 along the second driven gear shaft
51 axial movement, and then adjust the spacing of the first fagging 21 and the second fagging 22.Wherein, the second driven adjustment gear 52 passes through
The shaft shoulder 515 on second driven gear shaft 51 completes axially position, is conducive to gear face and is bearing the first fagging 21 or the
The stabilization of axial location is kept after the big axial compressive force that two faggings 22 apply, in frock assembling and the course of work is replaced, second
The end face of positioning ring 53 must reach over to coordinate with 21 corresponding surface domain of the first fagging, to provide an effectively branch to the first fagging 21
Point, thus reduce by 22 front end of the first fagging 21 and the second fagging formation loaded torque in the first driven subassembly 30 and first
The immense pressure generated at 21 thread fitting of fagging.
Incorporated by reference to Fig. 9 and Figure 10, driving component 40 includes driving gear shaft 41 and active adjustment gear 42, actively adjusts tooth
42 flat key 413 by holding screw and on driving gear shaft 41 of wheel is fixed on the middle part 411 of driving gear shaft 41, actively
The diameter at the middle part 411 of gear shaft 41 is more than the diameter at 41 both ends of driving gear shaft, so that in the both sides of active adjustment gear 42
Ledge structure is formed, the both ends of driving gear shaft 41 are equipped with outer-hexagonal driving interface 43.
Driving component 40 transmits extraneous driving moment, and the first driven subassembly 30 and the second driven subassembly are driven by gear pair
50 rotate.Wherein, the both ends of driving gear shaft 41 are in outer-hexagonal shape, can be carried when being convenient for changing the positive and negative placement of frock to user
For driving interface, the staircase structural model of 41 center section of driving gear shaft can be by driving component 40 in the first fagging 21 or second
Axially position is carried out on fagging 22.
Please continue to refer to Fig. 4, active adjustment gear 42 respectively with the first driven 32 and second driven adjusting tooth of adjustment gear
The intermeshing of wheel 52, and active adjustment gear 42, the number of teeth phase of the first driven 32 and second driven adjustment gear 52 of adjustment gear
Deng, the thread rotary orientation on screw thread and second end of thread 511 on first end of thread 311 on the contrary, in the present embodiment, the first screw thread
Screw thread on end 311 is right-hand thread, and the screw thread on second end of thread 511 is left-hand thread.
When frock is replaced in assembling, first, the second driven subassembly 50 is set to pass through 22 screw thread of second end of thread 511 and the second fagging
Coordinating, driving component 40 is completed by driving gear shaft 41 and its staircase structural model and the cooperation and positioning of the second fagging 22, the
One driven subassembly 30 passes through 21 thread fitting of first end of thread 311 and the first fagging.Then, by the first fagging 21 and the second fagging
22 is opposite, the second driven subassembly 50 is contacted positioning with 21 face of the first fagging by the second positioning ring 53, driving component 40
Corresponding aperture coordinates positioning on the other end and the first fagging 21, and the first positioning end 312 of the first driven subassembly 30 passes through the second fagging
22.Finally, the first positioning ring 33 of the first driven subassembly 30 is screwed on the first positioning end 312 of the first driven subassembly 30,
Until the first positioning ring 33 and 22 finished surface face of the second fagging are engaged, the assembling of frock is replaced in so far completion.
Next it is described as follows with reference to the course of work of replacement frocks of the Figure 11 to the embodiment of the present invention.
As shown in figure 11, by taking IGCT is pressed string device replacement as an example, the 3rd IGCT61 damage from top to bottom.First, unload
Fall the pressure assembling force on IGCT press fittings string 60, the front end of the first fagging 21 and the second fagging 22 of replacing frock is inserted into damage
In the notch of the radiator 62,63 of the adjacent upper and lower ends of IGCT61, then, spanner (not shown) and driving gear shaft 41 are used
On outer-hexagonal driving interface coordinate driving driving component 40 to rotate, and then promote the first driven subassembly 30 and the second driven subassembly
50 rotate together, and in the replacement frock location shown in Figure 11, the second fagging 22 is motionless, and the first fagging 21 will be to moving up
It is dynamic, so as to drive the device of radiator 62 and its top to move up 3mm or so.Then, maintenance personnel is by the IGCT61 of damage
Pull out and from location structure, and change normal IGCT, rotated backward using spanner driving driving component 40, make the first support
Plate 21 moves down, and radiator 62 and its device of top move down in drive, after upper radiator 62 is contacted with IGCT
Frock is replaced in extraction.Finally, press fitting load is applied to IGCT press fittings string 60.
It can be seen from the above that whole device replacement process can be quickly and easily accomplished under the operation of a maintenance personnel.Due to
It is electrically connected between radiator by soft busbar, and radiator is positioned with IGCT by location structure, so that in changer
It can ensure to replace during part when frock driving element moves up and keep stablizing, and in the opposite diode of IGCT press fitting strings
Press fitting string is not required to dismantle connection bolt of the soft busbar on press fitting string when moving freely 3 to 5mm upwards, substantially reduces workload.
It is appreciated that above-mentioned replacement process is equally applicable to diode press fitting string 70, details are not described herein.
To sum up, the press fitting string device of the embodiment of the present invention is replaced frock and is at least had the advantages that:
(1) agent structure for replacing frock is gear assembly and fagging, has succinct quick machine between fagging and press fitting string
Tool interface, makes full use of the design feature of press fitting string and radiator, and operating efficiency is high;
(2) both sides of driving component respectively set a driven subassembly, and three components are arranged into linear type, advantageously reduced
Fagging front end formation loaded torque pressure caused by the thread fitting, ensure user's operation and replace the work of frock
Safety, and replaced available for the device in long press fitting string;
Between (3) first driven subassemblies and the first fagging and the thread fitting between the second driven subassembly and the second fagging
Position is symmetrical, and so as to put use according to actual conditions both forward and reverse directions, operation is flexible;
Matched somebody with somebody between (4) first driven subassemblies and the first fagging and between the second driven subassembly and the second fagging using screw thread
Close, deadlock property based on thread fitting and can continuous moving characteristic so that fagging spacing can be stably held in maintenance personnel
It is easy to operation within the scope of needing;
(5) it is simple and compact for structure, device replacement can be rapidly completed under one man operation, is suitable for offshore wind farm and ship etc.
The small occasion of site space, while influence caused by production smaller.
The above described is only a preferred embodiment of the present invention, not make limitation in any form to the present invention, though
So the present invention is disclosed above with preferred embodiment, but is not limited to the present invention, any to be familiar with this professional technology people
Member, without departing from the scope of the present invention, when the technology contents using the disclosure above make a little change or modification
For the equivalent embodiment of equivalent variations, as long as being the technical spirit pair according to the present invention without departing from technical solution of the present invention content
Any simple modification, equivalent change and modification that above example is made, in the range of still falling within technical solution of the present invention.
Claims (10)
1. one kind press fitting string device replace frock, it is characterised in that including be parallel to each other the first fagging, the second fagging and
The first driven subassembly, driving component and the second driven subassembly being arranged in order between first fagging and second fagging,
One end of first driven subassembly is threadedly coupled with first fagging, and the other end is rotatably positioned in second fagging
On, one end of second driven subassembly is threadedly coupled with second fagging, and the other end is rotatably positioned described first
On fagging, the both ends of the driving component are rotationally threaded through in first fagging and second fagging respectively, described
Driving component, the first driven subassembly and the second driven subassembly are respectively equipped with adjustment gear, first driven subassembly and described the
Adjustment gear of the adjustment gear of two driven subassemblies respectively with the driving component engages, first fagging and the described second support
The front end of plate is respectively equipped with the heat sink interface coordinated with press fitting string radiator.
2. press fitting string device as claimed in claim 1 replaces frock, it is characterised in that the driving component includes driving gear
Axis and active adjustment gear, it is fixed that first driven subassembly includes the first driven gear shaft, the first driven adjustment gear and first
The position lantern ring, second driven subassembly include the second driven gear shaft, the second driven adjustment gear and the second positioning ring.
3. press fitting string device as claimed in claim 2 replaces frock, it is characterised in that first driven gear shaft includes the
One end of thread and the first positioning end, first end of thread are threadedly coupled with first fagging, and first positioning end passes through
First positioning ring is rotatably positioned on second fagging, and second driven gear shaft includes second end of thread
With the second positioning end, second end of thread is threadedly coupled with second fagging, and second positioning end passes through described second
Positioning ring is rotatably positioned on first fagging.
4. press fitting string device as claimed in claim 3 replaces frock, it is characterised in that screw thread on first end of thread with
Thread rotary orientation on second end of thread is opposite.
5. press fitting string device as claimed in claim 3 replaces frock, it is characterised in that first positioning end is equipped with outer spiral shell
Line, first positioning ring are equipped with internal thread, and first positioning end positions after passing through second fagging with described first
Collar thread connects, and the end face of first positioning ring is contacted with the second fagging face.
6. press fitting string device as claimed in claim 3 replaces frock, it is characterised in that second positioning end and described second
Positioning ring clearance fit, second positioning end protrude out second positioning ring, and first fagging is equipped with location hole,
Second positioning end protrudes out the part of second positioning ring and the location hole rotatably coordinates, second positioning
The both sides of the face of the lantern ring respectively with first fagging and the end plane-plane contact of the second driven adjustment gear.
7. the press fitting string device as described in claim 5 or 6 replaces frock, it is characterised in that first driven subassembly, active
Component and the second driven subassembly are in the rear end of first fagging and second fagging along first fagging and described second
The length direction of fagging is arranged in order into linear type.
8. press fitting string device as claimed in claim 2 replaces frock, it is characterised in that the diameter in the middle part of the driving gear shaft
More than the diameter at the driving gear shaft both ends, the both ends of the driving gear shaft are equipped with outer-hexagonal driving interface.
9. press fitting string device as claimed in claim 2 replaces frock, it is characterised in that the active adjustment gear passes through tightening
Screw and the flat key on the driving gear shaft are fixed on the middle part of the driving gear shaft, the first driven adjusting tooth
Wheel is fixed on the middle part of first driven gear shaft by holding screw and the flat key on first driven gear shaft,
The second driven adjustment gear by the flat key on second driven gear shaft and the shaft shoulder be positioned at described second from
The middle part of movable gear shaft.
10. press fitting string device as claimed in claim 2 replaces frock, it is characterised in that the active adjustment gear, first from
The number of teeth of dynamic adjustment gear and the second driven adjustment gear is equal.
Priority Applications (1)
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CN201610940381.0A CN106392954B (en) | 2016-11-01 | 2016-11-01 | Press fitting string device replaces frock |
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CN201610940381.0A CN106392954B (en) | 2016-11-01 | 2016-11-01 | Press fitting string device replaces frock |
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CN106392954B true CN106392954B (en) | 2018-05-11 |
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CN108206152B (en) * | 2018-01-04 | 2021-05-18 | 许继集团有限公司 | IGBT (insulated Gate Bipolar transistor) switching method and IGBT switching device for implementing same |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE2928388A1 (en) * | 1979-07-13 | 1981-01-15 | Siemens Ag | Disc thyristor replacement support for stacked units - has adjustable bolt supports to clamp against coolers either side of thyristor to be replaced |
CS262851B1 (en) * | 1986-06-17 | 1989-04-14 | Miroslav Dvorak | Device for thyristor replacement |
CN201446387U (en) * | 2009-06-30 | 2010-05-05 | 中国西电电气股份有限公司 | Remover for thyristor in converter valve assembly |
CN102107416A (en) * | 2011-01-25 | 2011-06-29 | 中国电力科学研究院 | Detaching device for thyristor of converter valve |
CN104400740A (en) * | 2014-12-12 | 2015-03-11 | 国家电网公司 | Thyristor replacement tool for vertically adjusting opening and closing of calipers |
CN105009284A (en) * | 2013-02-20 | 2015-10-28 | 阿尔斯通技术有限公司 | A silicon devices / heatsinks stack assembly and a method to pull apart a faulty silicon device in said stack assembly |
-
2016
- 2016-11-01 CN CN201610940381.0A patent/CN106392954B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE2928388A1 (en) * | 1979-07-13 | 1981-01-15 | Siemens Ag | Disc thyristor replacement support for stacked units - has adjustable bolt supports to clamp against coolers either side of thyristor to be replaced |
CS262851B1 (en) * | 1986-06-17 | 1989-04-14 | Miroslav Dvorak | Device for thyristor replacement |
CN201446387U (en) * | 2009-06-30 | 2010-05-05 | 中国西电电气股份有限公司 | Remover for thyristor in converter valve assembly |
CN102107416A (en) * | 2011-01-25 | 2011-06-29 | 中国电力科学研究院 | Detaching device for thyristor of converter valve |
CN105009284A (en) * | 2013-02-20 | 2015-10-28 | 阿尔斯通技术有限公司 | A silicon devices / heatsinks stack assembly and a method to pull apart a faulty silicon device in said stack assembly |
CN104400740A (en) * | 2014-12-12 | 2015-03-11 | 国家电网公司 | Thyristor replacement tool for vertically adjusting opening and closing of calipers |
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