CN201332056Y - Permanent-magnet linear push operating mechanism for vacuum breaker - Google Patents
Permanent-magnet linear push operating mechanism for vacuum breaker Download PDFInfo
- Publication number
- CN201332056Y CN201332056Y CNU2008202321717U CN200820232171U CN201332056Y CN 201332056 Y CN201332056 Y CN 201332056Y CN U2008202321717 U CNU2008202321717 U CN U2008202321717U CN 200820232171 U CN200820232171 U CN 200820232171U CN 201332056 Y CN201332056 Y CN 201332056Y
- Authority
- CN
- China
- Prior art keywords
- permanent magnet
- operating mechanism
- silicon steel
- steel sheet
- breaker
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Abstract
The utility model relates to a permanent-magnet linear push operating mechanism for a vacuum breaker, which belongs to the technical field of vacuum breaker-operating mechanisms. The permanent-magnet linear push operating mechanism is connected with the moving contacts of the vacuum breaker through four link rods, main permanent magnets and auxiliary permanent magnets are arranged on the inner wall of a primary iron core of the permanent-magnet linear push operating mechanism, and the auxiliary permanent magnets are used to keep the breaking and closing positions of the breaker. The permanent-magnet linear push operating mechanism consists of armature windings, a secondary iron core, the primary iron core, the auxiliary permanent magnets, a driving rod, magnetism-insulating materials and the main permanent magnets. The utility model simplifies the complex structure of an electromotor, the weight is light, the speed is high, idle work is reduced, and the arranged auxiliary permanent magnets realize the keeping function.
Description
Technical field
The utility model belongs to vacuum circuit-breaker operating mechanism technical field, and particularly a kind of permanent magnet linear thrust operating mechanism that is used for vacuum circuit-breaker is applicable to the intellectualized operation of circuit breaker.
Background technology
Circuit breaker is a switchgear important in the electric power system, is undertaking the dual role of control and protection.For primary cut-out, require operating mechanism can obtain higher divide-shut brake speed, can realize the automatic reclosing operation again fast.Operating mechanism occupies critical role in circuit breaker.It not only will guarantee the reliable in action that circuit breaker is long-term, and will satisfy the requirement of arc quenching characteristic to operating mechanism.Operating mechanism will be realized good high-voltage circuit breaker, feed motion, and power output will can have good coupling with the spring load characteristic of circuit breaker, keeps the stable of electric power system.Require circuit breaker to have good operating characteristics, to satisfy above-mentioned requirements for this reason.Mainly contain hydraulic actuating mechanism, spring operating mechanism or pneumatics etc. for existing operating mechanism, mostly be made of a whole set of mechanical device, parts are many, the transmission mechanism complexity, and the manufacture process requirement height, and motion process is uncontrollable.
Platypelloid type two-sided permanent magnet linear electric motor operation mechanism, drive moving contact of breaker by the platypelloid type linear electric motors and open a sluice gate, close a floodgate, but this realization of opening a sluice gate, closing a floodgate realizes that by baroque motor permanent magnet is positioned on the secondary iron core, with motor movement, easy loss of excitation.The maintenance function needs auxiliary equipment opening a sluice gate, closing a floodgate.
The utility model content
For the parts that solve above conventional circuit breaker operating mechanism many, the transmission mechanism complexity, the manufacture process requirement height, and motion process is uncontrollable etc. not enough, and not possessing the maintenance function, the utility model provides a kind of permanent magnet linear thrust operating mechanism that is used for vacuum circuit-breaker.
The technical solution adopted in the utility model is: connected to form by the moving contact of permanent magnet linear thrust operating mechanism by four connecting rods and vacuum circuit-breaker, the inwall of the elementary iron core of permanent magnet linear thrust operating mechanism is provided with main permanent magnet and auxiliary permanent magnet, realizes the maintenance of circuit breaker in the divide-shut brake position by auxiliary permanent magnet.Main permanent magnet and auxiliary permanent magnet are placed on the elementary iron core, avoided operating mechanism motion to make the permanent magnet loss of excitation.
Described permanent magnet linear thrust operating mechanism comprises armature winding, secondary iron core, elementary iron core, auxiliary permanent magnet, drive link, NULL and main permanent magnet, described elementary iron core is made up of three parallel cylindricality silicon steel sheets, intermediate cylindrical silicon steel sheet, left side cylindricality silicon steel sheet and the right cylindricality silicon steel sheet be arranged in parallel, wherein the two ends of intermediate cylindrical silicon steel sheet are connected with both sides cylindricality silicon steel sheet by the silicon steel sheet that laminates, be provided with secondary iron core between the cylindricality silicon steel sheet, be wound with armature winding on the secondary iron core; A secondary end unshakable in one's determination is connected with drive link; The inwall upper end of both sides cylindricality silicon steel sheet is close to an auxiliary permanent magnet respectively, and the inwall lower end of both sides cylindricality silicon steel sheet is close to a main permanent magnet respectively, is provided with NULL between main permanent magnet and the auxiliary permanent magnet; The lower end of intermediate cylindrical silicon steel sheet Zuo Bi and right wall is close to an auxiliary permanent magnet respectively, and the upper end of intermediate cylindrical silicon steel sheet Zuo Bi and right wall is close to a main permanent magnet respectively, is provided with NULL between main permanent magnet and the auxiliary permanent magnet.
A kind of optimal way of the present utility model: the cylindricality silicon steel sheet is square, length 80~100mm, the width 3~5mm of NULL.Elementary iron core is made up of three parallel cylindricality silicon steel sheets, and the two ends of cylindricality silicon steel sheet connect by the silicon steel sheet that laminates, and forms two square region between the cylindricality silicon steel sheet, is provided with secondary iron core between the cylindricality silicon steel sheet, is wound with armature winding on the secondary iron core.
Implementation procedure of the present utility model: the embedding of permanent magnet linear thrust operating mechanism is unshakable in one's determination to be connected by transmission mechanism with the moving contact of primary cut-out, this mechanism sets up main field by permanent magnet, in embedding iron core, place armature winding and feed direct current, the electrical conductor effect that is subjected to power in magnetic field produces and to move up and down like this, the secondary iron core that embeds then drives the contact of breaker motion by linkage, realize the breaking-closing operating of contact, in the top of circuit breaker and bottom, realize the maintenance of circuit breaker by auxiliary permanent magnet in the divide-shut brake position.(as shown in Figure 1)
Advantage of the present utility model: shortcomings such as the volume that the vacuum circuit-breaker permanent magnet linear thrust operating mechanism has overcome traditional operating mechanism is big, transmission mechanism is complicated, the response time is long and motion process is uncontrollable, broken through the principle of mechanism kinematic on the traditional sense, thereby the electromagnetic push that utilizes motor self to produce drives the branch/combined floodgate of contact of breaker.Characteristics for the permanent magnet pulse thrust operating mechanism: reduced the labyrinth of motor, quality is little, and inertia is little in the process that realizes branch/combined floodgate, and speed is fast, has reduced idle work; Be close to an auxiliary permanent magnet respectively and be close to an auxiliary permanent magnet respectively by inwall upper end, realized the maintenance function in the lower end of intermediate cylindrical silicon steel sheet Zuo Bi and right wall at both sides cylindricality silicon steel sheet.
(1) simple and reliable for structure, moving-mass is little, and kinetic energy is little, the efficient height;
(2) impulse force is big, the response speed height.
(3) motion process is controlled, realizes comparatively desirable separating brake kinetic characteristic easily.
Just because of having above characteristics, make and use permanent magnet linear thrust operating mechanism that bigger force density and power density can also be provided except reliable and stable work with vacuum circuit-breaker, not only can control circuit breaker accurately cut-offs and closes the moment of closing, and can control circuit breaker by the predetermined stroke curvilinear motion, improved the precision and the reliability of whole device, it is controlled to have high response and high-precision characteristics and a motion process.Circuit breaker is cut-off and closes the control of the process of closing, not only can improve circuit breaker cut-off and performance is closed in the pass, the mechanical oscillation in the time of can also reducing breaking-closing operating improve the mechanical endurance and the operational reliability of circuit breaker.
Description of drawings
Fig. 1 is the structure principle chart of the permanent magnet linear thrust operating mechanism that is used for vacuum circuit-breaker of a kind of embodiment of the present utility model;
Wherein: 1: permanent magnet linear thrust operating mechanism, 2: actuating bar, 3: main shaft, 4: connecting lever, 5: touch spring, 6: connecting rod, 7:L type connecting lever, 8: insulated tension pole, 9: moving contact, 10: fixed contact, 11: arc control device.
Fig. 2 is the structural representation of the permanent magnet linear thrust operating mechanism of a kind of embodiment of the utility model.
Wherein: 12: armature winding, 13: secondary iron core, 14: drive link, 15: elementary iron core, 16: air gap, 17: auxiliary permanent magnet, 18: NULL, 19: main permanent magnet.
Fig. 3 is the main permanent magnet magnetic flux structural representation of the permanent magnet linear thrust operating mechanism of a kind of embodiment of the utility model,
Fig. 4 is the auxiliary permanent magnet magnetic flux structural representation of the permanent magnet linear thrust operating mechanism of a kind of embodiment of the utility model.
Embodiment
Below in conjunction with accompanying drawing the utility model is described further:
For the indoor vacuum circuit-breaker of 40.5kV, according to the requirement of arc control device to operating mechanism, designed a kind of vacuum circuit-breaker permanent magnet linear thrust operating mechanism, the electromagnetic push that requires permanent magnet linear thrust operating mechanism to provide reaches 3000 ~ 4000N, movement velocity reaches more than 4 ~ 6m/s, is less than 40ms running time.
As shown in Figure 1, the structure principle chart of the permanent magnet linear thrust operating mechanism that is used for vacuum circuit-breaker of a kind of embodiment of the present utility model, the drive link 14 of permanent magnet linear thrust operating mechanism 1 is connected with the moving contact 9 of vacuum circuit-breaker by four connecting rods, wherein four connecting rods are by actuating bar 2, main shaft 3, connecting lever 4 and touch spring 5 are formed, the drive link 14 of permanent magnet linear thrust operating mechanism 1 is connected with connecting rod 6 by four connecting rods, connecting rod 6, L type connecting lever 7 are connected successively with insulated tension pole 8, and insulated tension pole 8 is connected with moving contact 9 in the vacuum circuit-breaker arc control device 11.In armature winding 12, feed electric current, thereby electric current is subjected to the effect generation electromagnetic push of Ampere force and promotes 14 motions of secondary 13 drive drive links unshakable in one's determination in the magnetic field that permanent magnet produces, in the top of circuit breaker and bottom, realize the maintenance of circuit breakers by auxiliary permanent magnet 17 in the divide-shut brake position.
As shown in Figure 2, the structural representation of the permanent magnet linear thrust operating mechanism of a kind of embodiment of the utility model, permanent magnet linear thrust operating mechanism 1 comprises armature winding 12, secondary unshakable in one's determination 13, elementary unshakable in one's determination 15, auxiliary permanent magnet 17, drive link 14, NULL 18 and main permanent magnet 19, elementary unshakable in one's determination 15 are made up of three parallel cylindricality silicon steel sheets, the intermediate cylindrical silicon steel sheet, left side cylindricality silicon steel sheet and the right cylindricality silicon steel sheet be arranged in parallel, wherein the two ends of intermediate cylindrical silicon steel sheet are connected with both sides cylindricality silicon steel sheet by the silicon steel sheet that laminates, be provided with between the cylindricality silicon steel sheet on secondary unshakable in one's determination 13, secondary unshakable in one's determination 13 and be wound with armature winding 12; Secondary 13 1 ends unshakable in one's determination are connected with drive link 14; The inwall upper end of both sides cylindricality silicon steel sheet is close to an auxiliary permanent magnet 17 respectively, and the inwall lower end of both sides cylindricality silicon steel sheet is close to a main permanent magnet 19 respectively, is provided with NULL 18 between main permanent magnet and the auxiliary permanent magnet; The lower end of intermediate cylindrical silicon steel sheet Zuo Bi and right wall is close to an auxiliary permanent magnet 17 respectively, and the upper end of intermediate cylindrical silicon steel sheet Zuo Bi and right wall is close to a main permanent magnet 19 respectively, is provided with NULL 18 between main permanent magnet 19 and the auxiliary permanent magnet 17.
Fig. 3 is the main permanent magnet magnetic flux structural representation of the permanent magnet linear thrust operating mechanism of a kind of embodiment of the utility model,
Fig. 4 is the auxiliary permanent magnet magnetic flux structural representation of the permanent magnet linear thrust operating mechanism of a kind of embodiment of the utility model.Be close to an auxiliary permanent magnet respectively and be close to an auxiliary permanent magnet respectively in the lower end of intermediate cylindrical silicon steel sheet Zuo Bi and right wall by the inwall upper end at both sides cylindricality silicon steel sheet, the realization circuit breaker is opened a sluice gate the maintenance function of making process.
Claims (4)
1, a kind of permanent magnet linear thrust operating mechanism that is used for vacuum circuit-breaker, connect to form by the moving contact of permanent magnet linear thrust operating mechanism by four connecting rods and vacuum circuit-breaker, it is characterized in that: the inwall of the elementary iron core of permanent magnet linear thrust operating mechanism is provided with main permanent magnet and auxiliary permanent magnet, realizes the maintenance of circuit breaker in the divide-shut brake position by auxiliary permanent magnet.
2, according to the described permanent magnet linear thrust operating mechanism that is used for vacuum circuit-breaker of claim 1, it is characterized in that described permanent magnet linear thrust operating mechanism comprises armature winding, secondary iron core, elementary iron core, auxiliary permanent magnet, drive link, NULL and main permanent magnet, described elementary iron core is made up of three parallel cylindricality silicon steel sheets, wherein the two ends of intermediate cylindrical silicon steel sheet are connected with both sides cylindricality silicon steel sheet by the silicon steel sheet that laminates, be provided with secondary iron core between the cylindricality silicon steel sheet, be wound with armature winding on the secondary iron core; A secondary end unshakable in one's determination is connected with drive link; The inwall upper end of both sides cylindricality silicon steel sheet is close to an auxiliary permanent magnet respectively, and the inwall lower end of both sides cylindricality silicon steel sheet is close to a main permanent magnet respectively, is provided with NULL between main permanent magnet and the auxiliary permanent magnet; The lower end of intermediate cylindrical silicon steel sheet Zuo Bi and right wall is close to an auxiliary permanent magnet respectively, and the upper end of intermediate cylindrical silicon steel sheet Zuo Bi and right wall is close to a main permanent magnet respectively, is provided with NULL between main permanent magnet and the auxiliary permanent magnet.
3,, it is characterized in that described cylindricality silicon steel sheet is square, length 80~100mm according to the described permanent magnet linear thrust operating mechanism that is used for vacuum circuit-breaker of claim 1.
4,, it is characterized in that the width 3~5mm of described NULL according to the described permanent magnet linear thrust operating mechanism that is used for vacuum circuit-breaker of claim 1.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNU2008202321717U CN201332056Y (en) | 2008-12-26 | 2008-12-26 | Permanent-magnet linear push operating mechanism for vacuum breaker |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNU2008202321717U CN201332056Y (en) | 2008-12-26 | 2008-12-26 | Permanent-magnet linear push operating mechanism for vacuum breaker |
Publications (1)
Publication Number | Publication Date |
---|---|
CN201332056Y true CN201332056Y (en) | 2009-10-21 |
Family
ID=41225438
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CNU2008202321717U Expired - Lifetime CN201332056Y (en) | 2008-12-26 | 2008-12-26 | Permanent-magnet linear push operating mechanism for vacuum breaker |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN201332056Y (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101447367B (en) * | 2008-12-26 | 2011-06-15 | 沈阳工业大学 | Permanent magnet linear thrust operating mechanism used for vacuum circuit breaker |
CN103065864A (en) * | 2013-01-25 | 2013-04-24 | 大连理工大学 | Novel gas circuit breaker with real-time adjustable air pressure |
-
2008
- 2008-12-26 CN CNU2008202321717U patent/CN201332056Y/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101447367B (en) * | 2008-12-26 | 2011-06-15 | 沈阳工业大学 | Permanent magnet linear thrust operating mechanism used for vacuum circuit breaker |
CN103065864A (en) * | 2013-01-25 | 2013-04-24 | 大连理工大学 | Novel gas circuit breaker with real-time adjustable air pressure |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN201788887U (en) | Direct-acting vacuum breaker equipped with bistable permanent-magnetic operating mechanism | |
CN2812266Y (en) | A vacuum circuit breaker | |
CN101447367B (en) | Permanent magnet linear thrust operating mechanism used for vacuum circuit breaker | |
CN201975280U (en) | Operation mechanism of linear permanent magnet motor | |
CN101901718A (en) | Direct-acting vacuum circuit breaker with bistable permanent magnet actuators | |
CN204884994U (en) | Vacuum permanent magnetism circuit breaker | |
CN201332056Y (en) | Permanent-magnet linear push operating mechanism for vacuum breaker | |
CN200986886Y (en) | Permanent magnet control mechanism vacuum circuit breaker | |
CN101459012B (en) | Permanent magnet linear motor operation mechanism for high voltage circuit breaker | |
CN101562088B (en) | Pulse power type permanent magnet linear motor (PMLM) operating mechanism of high-voltage circuit-breaker | |
CN100459009C (en) | DC permanent magnet contactor | |
CN101236856B (en) | Operation machine for cylinder permanent magnetic line motor of high-voltage breaker | |
CN2870134Y (en) | Intelligent phase-selection indoor high-pressure vacuum circuit breaker | |
CN101447365A (en) | Monostable permanent magnetism operating mechanism | |
CN201075355Y (en) | Outdoor high-voltage permanent magnetism mechanism vacuum circuit breaker | |
CN201387818Y (en) | Bi-stable permanent magnet operating mechanism of bilateral dispersive excitation of opening-closing operational air gap | |
CN201196928Y (en) | Transverse magnetic field permanent magnet linear electric motor operation mechanism of high-voltage circuit-breaker | |
CN208507564U (en) | Modified indoor vacuum circuit breaker | |
CN201188392Y (en) | Cylinder type permanent magnet linear motor operation mechanism for high-voltage circuit-breaker | |
CN201387838Y (en) | High-voltage circuit breaker of pulse-driven linear motor type magnetic mechanism | |
CN201345311Y (en) | Unicoil monostabillity permanent magnetism operating mechanism | |
CN201364849Y (en) | Permanent magnet linear motor actuator of high-voltage circuit breaker | |
CN201188393Y (en) | Flat type permanent magnet linear motor operation mechanism for high-voltage circuit-breaker | |
CN2456280Y (en) | Permenant magnet operating mechanism | |
CN201408698Y (en) | Pulsed power type permanent magnet linear motor actuator of high-voltage circuit breaker |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20091021 Effective date of abandoning: 20081226 |