UA79370C2 - Vacuum circuit-breaker - Google Patents

Abstract

The device comprises phase modules mounted on metal base (1), inside which drives with magnetic latch (2, 3, 4), synchronizing (6) and interlock (7) shafts, block contacts are situated. The phase modules comprise supporting insulators (9), with vacuum chambers (10) positioned inside, contact terminals (11, 12) and traction insulators (14). Shapes of traction insulator (14) and immovable insulation tubular fragment (16) provide labyrinth air gap between the contact terminals and the base, increasing electrical strength of the clearance. When the circuit breaker operates, resilient conductive spirals (17) roll in the annular clearance between terminal (11) and movable contact bush (18), providing multiple-point contact of high conductivity. Drive magnetic systems (2, 3) constitute two bowl-shaped component parts made of high -coercivity material. The contact terminals are produced of an extrusion profile. Manual deenergization generator (20) is implemented as an independent magnetic system, which, when disconnecting, generates a current pulse, and electrically connected with drive coils (4). Remote indicator of main contact positions (19) is connected with the mechanism of synchronizing shaft with the flexible connection in the form of encapsulated wire cable. Socket contact separators (23) are made of aluminum alloy using extrusion process.

Description

Description of the invention

The invention relates to electrical engineering, namely to designs of vacuum switches. 2 A known vacuum switch with vacuum arc extinguishing chambers (VDK), electromagnetic drive, disconnecting springs and compression springs (11.

Its kinematic scheme includes a large number of loaded friction nodes, which is the reason for the low reliability and resource of the device.

The closest in design is the vacuum circuit breaker of the TEI series, which includes a base, vacuum chambers with 70 contacts, contact terminals and current collector, support and traction insulation, phase-to-phase actuators with magnetic systems that form magnetic clamps containing a stator, armature and winding, and common synchronizing shaft

I21.

The disadvantages of this design are the significant length of the traction insulator, the relatively high resistance of the moving current-conducting element (flexible current collector), the complexity of the magnetic drive system, the low current 72 parameters, as a result of the difficulty of natural cooling of the contact terminals, the difficulty of manual disconnection and the remote mechanical indication of the position of the main contacts, the complexity connection of socket contacts and design of locking mechanisms for various options of substation projects.

The invention solves the problem of creating a switch of reduced dimensions and cost while increasing the main operating parameters.

The technical result of the application of the claimed invention is: reducing the length of the traction insulator, reducing the resistance of the moving current-conducting element, simplifying and reducing the cost of the magnetic drive system, increasing the current parameters of the circuit breaker due to improved cooling of the contact terminals, reducing the manual disconnection force, providing remote mechanical indication of the main contacts, connecting socket contacts and their simplified design, facilitating the task of connecting with locking mechanisms. Gee)

The task is solved by the fact that the vacuum switch contains a base, vacuum chambers with contacts, contact terminals and current collector, support and traction insulation, phase drives with magnetic systems that form magnetic clamps containing a stator, armature and winding, and a common synchronizing shaft, according to the invention, the stator of the in-phase drive, facing the contact terminal of the moving contact, is covered with immovable solid insulation, which is made of a tubular fragment, and part of the traction insulation is an insulating cup, inside of which the specified tubular fragment of stationary solid insulation is arranged coaxially; according to the invention, elastic conductive spirals installed in and are used as a moving current collector. gaps between the bushing of the movable contact and the terminal of the movable contact with the possibility of rolling between Ge"! surfaces, at least one of which is toothed, and the teeth are oriented in the direction of movement, and two turns of the mentioned spirals are located between the teeth; according to the invention, magnetic drive systems are two cups made of a hard-magnet material with a coil located inside, and one cup is fixed to the base of the switch, and the other to the traction insulator; according to the invention, the contact terminals are made of aluminum alloy by the extrusion method with subsequent mechanical processing; according to the invention, the switch is provided with a manual disconnection generator, which is a closed magnetic system with the possibility of mechanical opening of it, which includes a permanent magnet and a coil electrically connected to the coils of the switch drives, and the manual disconnection button is rigidly connected to the armature of the magnetic system of the specified generator so that the direction of operation

"Iz" corresponds to the opening direction of its magnetic system; according to the invention, the switch is equipped with a remote indicator of the switch state, connected to the mechanism of the synchronizing shaft of the switch by means of a flexible connection in the form of a cable in a shell; according to the invention, the switch is equipped with socket contacts with aluminum alloy separators made by the extrusion method; according to the invention, the switch is equipped with a locking shaft with a cam for mechanical unlocking and locking the drive in the disconnected position and (Te) an electric locking lever.

The technical result is determined by the fact that in the claimed circuit breaker, the traction insulation is implemented in such a way that the parts that are under different potential are covered with insulation. -and 20 At the same time, the traction insulator and the stationary insulating tubular fragment implement a labyrinth air gap between the high potential and the ground, so that the breakdown path through the air has areas with directed ribbon effects of the electric field.

The spiral current-conducting elements that roll during the operation of the switch between the moving and stationary surfaces create a permanent multi-point contact, since each half-turn is a separate conductor, which makes it possible to achieve low values of transient resistance. (FI) The magnetic drive system, consisting of two cup-shaped parts made of magnetically hard material, allows you to implement a simple and reliable drive with a magnetic latch. o Production of contact terminals by the extrusion method with subsequent cutting from the profile of fragments of the required length significantly reduces the cost of the final product in comparison with other methods of obtaining 60 parts, for example, casting.

The use of a manual disconnect generator facilitates the design of switchgear, since the generator is not mechanically connected to the circuit breaker and can be installed in any convenient place, as well as a remote indicator of the position of the main contacts.

The extrusion manufacturing method with subsequent cutting of fragments of the required length significantly reduces the cost of socket contact separators. The use of a locking shaft allows you to solve locking problems without mechanical loads on the synchronizing shaft during the operation of the switch.

Fig. 1 shows the general view of the switch, Fig. 2 shows an axial section of the module of one of the phases in the on position of the switch, Fig. 3 shows the switch in the off position; in Fig. 4 - contact terminals; in Fig. 5 the principle of contact of a spiral current collector in the case of one and two toothed surfaces; in Fig. b - axial section of the manual shutdown generator; in Fig. 7 - the design of the socket contact.

The circuit breaker consists of phase modules mounted on a metal base 1, inside of which there are actuators with magnetic systems that form magnetic clamps consisting of a stator 2, an armature C and a coil 4, a tripping spring 5, which synchronizes and locks the shafts 6, 7, respectively , block of contacts. A cam 8 is located at the end 70 of the locking shaft 7. The phase modules consist of support insulators 9 with vacuum chambers 10 located inside, filled with silicone rubber, contact terminals 11, 12, a compression spring 13 and traction insulators 14.

The stator of the drive 2, facing the contact terminal 11, is covered with solid insulation 15 with a tubular fragment 16. The spiral current-conducting elements 17 are located in the gap between the contact terminal 11 and the 7/5 bushing of the movable contact 18. The indicator 19 of the position of the switch contacts ("On" or "Vdk") is connected to the synchronizing shaft 6 by means of a cable in the shell. The manual shutdown generator 20 is a closed magnetic system with a movable armature 21, a permanent magnet and a coil electrically connected to the windings of the drive coils 4. The manual shutdown button is rigidly connected to the armature 21. The socket contacts 22 consist of separators 23, lamellae 24 and plate springs 25.

The device works like this. When a current pulse is applied to the drive coils 4, the stator 2 and armature Z are closed, which is accompanied by the compression of the disconnection springs 5 and compression 13 and the actual closing of the contacts of the vacuum chambers 10. The stator 2 and the armature Z can remain in the closed position for as long as you like, because they are made from a magnetically solid material and they have a residual magnetic flux. When the reverse sequence current pulses are applied to the coils 4, the drive is "reset" from the magnetic latch and under the action of the springs 5 and 13, the drive returns to the position shown in Fig. 3, the contacts of the vacuum chambers 170 open. During the operation of the drives, the synchronizing shaft turns to a certain angle, moving i) the indicator 19 from one position to another. In addition, the rotation of the shaft causes the activation of the contact block (not shown in the figure). When moving the movable contacts of the vacuum chambers 10 and bushings 18, the spiral current-conducting elements 17 are rolled between the elements 18 and 11, providing a constant contact between them. In Fig. 5, the arrows show the forces of contact pressure of turns of elastic spiral current-conducting elements in the case of one (a) or two (b) toothed surfaces. uh-

The principle of labyrinth insulation is shown in Fig. 2, where arrows indicate the possible path of breakdown through the air between terminal 11 and the parts under the ground potential.

Manual disconnection in the absence of operational power can be carried out by the manual disconnection generator 20 by pressing the manual disconnection button, which moves the armature 21 rigidly connected to it, which will cause the opening of the magnetic system, which includes a permanent magnet, and the induction of a current pulse in the coil manual disconnection generator 20, and the coil of 4 actuators connected to it, which causes the latter to be "reset" from the magnetic clamp.

Manual disconnection can also be carried out by mechanically opening the stator 2 and the armature Z by turning the locking shaft 7, which with its cam 8 detaches the armature C from the stator 2. The rotation of the locking shaft 7 with c is made by 90 g and its design is implemented in such a way that it can be in only one of the two stable positions shown in Fig. 2 and Fig. 3. "" The clicking of the locking shaft 7 from the position of Fig. 2 to the position of Fig. 3 is accompanied by the opening of the drive chains (electrical blocking, not shown in the figure), the mechanical opening of the drives, if they were closed, the mechanical blocking of the drives from switching on, in case of exiting electrical blocking system. - and the extrusion method of manufacturing parts 11, 12, 23 of a complex spatial shape allows to significantly reduce the cost of the claimed switch. Contact terminals 11 and 12 are also radiators for natural convection cooling of the switch, which allows you to increase the rated current limit.

Ge) Multi-contact spiral current collector 17 allows you to acquire a low value of transient resistance, 5p unattainable for other designs of similar dimensions.

The manual shutdown generator 20 and the contact position indicator 19 can be installed in any convenient place, since they are not rigidly mechanically connected to the switch.

The use of a locking shaft allows designing simple and reliable locking systems for any type of complete distribution devices.

Thus, as a result of the invention, a switch of reduced dimensions and cost was created while increasing the main operating parameters. iF) Sources of information: ko 1. Author's certificate of the USSR Mo1552250 cl. НО1Н 33/66, 1990. 2. Patent of the Russian Federation Mo2020631 cl. HO1H 33/66, 1992.

Claims (8)

The formula of the invention 1. A vacuum circuit breaker containing a base, vacuum chambers with contacts, contact terminals and 65 current collector, support and traction insulation, phase-to-phase drives with magnetic systems that form magnetic clamps containing a stator, armature and winding, and a common synchronizing shaft, which differs in that the stator of the in-phase drive, turned to the contact terminal of the moving contact, is covered with immovable solid insulation, which is made with a tubular fragment, and part of the traction insulation is an insulating cup, inside which the indicated tubular fragment of immovable solid insulation is coaxially arranged. 2. The switch according to claim 1, which is characterized by the fact that elastic conductive spirals are used as a movable current collector, installed in the gap between the sleeve of the movable contact and the terminal of the movable contact with the possibility of rolling between their surfaces, at least one of which is toothed and the teeth are oriented in the direction of movement , and there are two turns of the said spirals between the teeth. Q. The switch according to claims 1, 2, which differs in that the magnetic drive systems are two cups of /o hard magnetic material with a coil located inside, and one cup is fixed to the base of the switch, and the other - to the traction insulator. 4. The switch according to claims 1-3, which is characterized by the fact that the contact terminals are made of aluminum alloy by extrusion with subsequent mechanical processing. 5. The switch according to claims 1-4, which is characterized by the fact that it is provided with a manual disconnection generator, which is /5 a closed magnetic system with the possibility of mechanical opening, which includes a permanent magnet and a coil electrically connected to the coils of the switch actuators, and the manual button disconnection is rigidly connected to the armature of the magnetic system of the generator in such a way that the direction of operation corresponds to the opening direction of its magnetic system. 6. The switch according to claims 1-5, which is characterized by the fact that it is equipped with a remote indicator of the state of the switch, which is connected to the mechanism of the synchronizing shaft of the switch by means of a flexible connection in the form of a cable in the shell. 7. The switch according to claims 1-6, which is characterized by the fact that it is provided with socket contacts with separators made of aluminum alloy, manufactured by the extrusion method. 8. The switch according to claims 1-7, which is characterized by the fact that it is equipped with a locking shaft with a cam of a mechanical switch for unlocking and locking the drive in the disconnected position and an electric locking lever. o "c) in (ze) (o) and - - I.Y and? -i se) (95) -i (42) ime) 60 b5