EP3428945B1 - Rotary shaft device of circuit breaker - Google Patents
Rotary shaft device of circuit breaker Download PDFInfo
- Publication number
- EP3428945B1 EP3428945B1 EP16893272.1A EP16893272A EP3428945B1 EP 3428945 B1 EP3428945 B1 EP 3428945B1 EP 16893272 A EP16893272 A EP 16893272A EP 3428945 B1 EP3428945 B1 EP 3428945B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- contact
- rotating shaft
- shaft
- circuit breaker
- bottom plate
- 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.)
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- 230000003068 static effect Effects 0.000 claims description 33
- 229910000831 Steel Inorganic materials 0.000 claims description 4
- 239000010959 steel Substances 0.000 claims description 4
- 238000010586 diagram Methods 0.000 description 4
- 239000004020 conductor Substances 0.000 description 2
- 230000037431 insertion Effects 0.000 description 2
- 238000003780 insertion Methods 0.000 description 2
- 230000013011 mating Effects 0.000 description 2
- 230000005540 biological transmission Effects 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 230000006835 compression Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 229910003460 diamond Inorganic materials 0.000 description 1
- 239000010432 diamond Substances 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 230000002035 prolonged effect Effects 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
Images
Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H71/00—Details of the protective switches or relays covered by groups H01H73/00 - H01H83/00
- H01H71/02—Housings; Casings; Bases; Mountings
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H71/00—Details of the protective switches or relays covered by groups H01H73/00 - H01H83/00
- H01H71/02—Housings; Casings; Bases; Mountings
- H01H71/0207—Mounting or assembling the different parts of the circuit breaker
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H73/00—Protective overload circuit-breaking switches in which excess current opens the contacts by automatic release of mechanical energy stored by previous operation of a hand reset mechanism
- H01H73/02—Details
- H01H73/04—Contacts
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H71/00—Details of the protective switches or relays covered by groups H01H73/00 - H01H83/00
- H01H71/10—Operating or release mechanisms
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H1/00—Contacts
- H01H1/12—Contacts characterised by the manner in which co-operating contacts engage
- H01H1/14—Contacts characterised by the manner in which co-operating contacts engage by abutting
- H01H1/22—Contacts characterised by the manner in which co-operating contacts engage by abutting with rigid pivoted member carrying the moving contact
- H01H1/221—Contacts characterised by the manner in which co-operating contacts engage by abutting with rigid pivoted member carrying the moving contact and a contact pressure spring acting between the pivoted member and a supporting member
- H01H1/226—Contacts characterised by the manner in which co-operating contacts engage by abutting with rigid pivoted member carrying the moving contact and a contact pressure spring acting between the pivoted member and a supporting member having a plurality of parallel contact bars
Definitions
- the present invention relates to the field of low voltage apparatuses, in particular to a circuit breaker, and more particularly to a rotating shaft device of a circuit breaker.
- Circuit breakers are of an important part of the electrical industry and have been widely used. When a circuit operates normally, the circuit breaker can achieve the functions of power failure, power supply and circuit conversion, etc., by powering on/off the circuit for supplying power. When the circuit is under overload, voltage loss, undervoltage or short circuit failure, the circuit breaker can automatically power off the circuit, to avoid the harms to the safety of the staff and the normal operation of the equipment caused by the circuit failure.
- the rotating shaft of the existing circuit breaker is fixed and riveted on a support supported by a contact by means of a clamping plate.
- the rotating shaft, the clamping plate and the support will be loosened, and gaps gradually occur at the mating portions thereof, which causes a change in a travel position of the contact device, thereby creating gaps at the mating portions.
- the transmission of a driving force between an operating mechanism and the contact support is unbalanced, which easily causes a change in the travel position of the contact device and affects the safe use of electricity by a customer.
- An objective of the present invention is to overcome the defects of the prior art, and provide a rotating shaft device of a circuit breaker, which is simple in structure and high in reliability.
- the present invention adopts the following technical solution.
- a rotating shaft device of a circuit breaker comprises a plurality of contact supports 1 provided with movable contacts 8, and a rotating shaft 2 being in linkage with the plurality of contact supports 1; an operating mechanism 9 drives the plurality of contact supports 1 to rotate synchronously to drive the movable contacts 8 to be in contact with and separated from static contacts, thereby realizing switching-on and switching-off of the circuit breaker;
- the rotating shaft 2 has a parallelogram radial section; each contact support 1 is provided with a shaft groove 111 having a V-shaped structure in which the rotating shaft 2 is mounted;
- the rotating shaft device further comprises a clamping plate 3 provided with a fixing groove 30 having a V-shaped structure; the fixing groove 30 having the V-shaped structure corresponds to the shaft groove 111 having the V-shaped structure;
- the contact supports 1 are fixedly connected to the clamping plate 3;
- the rotating shaft 2 is fixed in a space defined by the shaft groove 111 and the fixing groove 30;
- the shaft groove 111 is matched with two adjacent sides of
- an interference fit is formed among the shaft groove 111, the rotating shaft 2 and the clamping plate 3.
- each contact support 1 comprises a bracket 10 having a U-shaped structure; the movable contacts 8 are mounted inside the bracket 10; the bracket 10 comprises two side plates 11 and a bottom plate 12 connected between the two side plates 11; each side plate 11 is symmetrically provided with mounting grooves 112 each having a V-shaped structure; a position, corresponding to each mounting groove 112, of the bottom plate 1 is provided with an opening 121 which allows the rotating shaft 2 to pass and is configured to fix the rotating shaft 2; the rotating shaft 2 is mounted outside the bottom plate 12; the mounting groove 112 and the opening 121 form the shaft groove 111 to fix the rotating shaft 2.
- the bottom plate 12 comprises a front bottom plate 122 and a rear bottom plate 123 which are connected between the two side plates 11; a gap is reserved at a position, where the mounting groove 112 is located, between the front bottom plate 122 and the rear bottom plate 123, and the opening 121 is formed.
- an extension end 124 is provided in the bottom plate 12 of each contact support 1; the extension end 124 is inclined by a certain distance from two sides, which are matched with the rotating shaft 2, of the opening 121 to the inner side of the contact support 1, respectively; the two extension ends 124 form a V-shaped structure for fixing two adjacent sides of the rotating shaft 2.
- the clamping plate 3 is provided with a fixing groove 30 configured to fix the rotating shaft 2 and having an integrally formed V-shaped structure;
- the fixing groove 30 comprises two clamping plates 31 which are connected angularly;
- a fixing groove 30 configured to fix the rotating shaft 2 and having a V-shaped structure is formed between the two clamping plates 31; the other ends of the two clamping plates 31 extend outwards respectively to form a mounting plate 32 that is connected to the corresponding contact support 1.
- the middle of the movable contact 8 is rotatably mounted inside the bracket 10 of the contact support 1 through a contact shaft 131;
- the movable contact 8 comprises a working end 81 provided with movable contacts and a wiring end 82 for wiring;
- a buffer spring 132 is provided between the working end 81 and the bracket 10, and the wiring end 82 at the other end abuts against the bracket 10.
- the bracket 10 comprises two side plates 11 and a bottom plate 12 connected between the two side plates 11; each movable contact 8 comprises an active contact 8a and auxiliary movable contacts 8b provided on both sides of the active contact 8a, wherein the active contact 8a and the auxiliary movable contacts 8b are mounted side by side inside the bracket 10 through the contact shaft 131, the active contact 8a is longer than each of the auxiliary movable contacts 8b, and a buffer spring 132 which is used for realizing an over-travel fit between the movable contacts and the static contacts is provided between the bottom plate 12 and one end, where a movable contact point is provided, on each of the active contact 8a and the auxiliary movable contacts 8b; when the movable contact 8 moves closer to the static contact along with the contact support 1, the active contact 8a and the auxiliary movable contacts 8b are respectively and sequentially in contact with the static contact; when closed, the active contact 8a is firstly in contact with a main static contact of the corresponding static contacts, and the auxiliary
- the rotating shaft 2 comprises a steel square shaft core 21 and a housing 22 provided outside the shaft core 21.
- the operating mechanism 9 is connected to the contact supports 1 through a plurality of first connecting rods 91; the operating mechanism 9 drives the contact supports 1 to rotate by the plurality of first connecting rods 91; a supporting shaft 92 passes through one end of each of the plurality of first connecting rods 91, and an operating shaft 93 passes through the other end of each of the plurality of first connecting rods 91; one end of each of the plurality of first connecting rods 91 is connected to the corresponding contact support 1 through the supporting shaft 92, and the other end thereof is connected to the operating mechanism 9 through the operating shaft 93.
- the rotating shaft device of the circuit breaker of the present invention by providing the shaft groove having the V-shaped structure on the contact support and the fixing groove having the V-shaped structure on the clamping plate and in combination with the rotating shaft having the parallelogram radial section, the contact supports are mounted on the rotating shaft, such that the plurality of contact supports are in stable and firm linkage through the rotating shaft.
- rotating shaft device of a circuit breaker of the present invention will be further described below in conjunction with the embodiments provided by Figs. 1 to 12 .
- the rotating shaft device of the circuit breaker of the present invention is not limited to the description of the following embodiments.
- the rotating shaft device of the circuit breaker of the present invention comprise a plurality of contact supports 1 provided with movable contacts 8, and a rotating shaft 2 being in linkage with the plurality of contact supports 1.
- An operating mechanism 9 drives the plurality of contact supports 1 to rotate synchronously to drive the movable contacts 8 to be in contact with and separated from static contacts, thereby realizing switching-on and switching-off of the circuit breaker.
- the rotating shaft 2 has a parallelogram radial section.
- Each contact support 1 is provided with a shaft groove 111 having a V-shaped structure in which the rotating shaft 2 is mounted.
- the rotating shaft device further comprises a clamping plate 3 provided with a fixing groove 30 having a V-shaped structure.
- the fixing groove 30 having the V-shaped structure corresponds to the shaft groove 111 having the V-shaped structure.
- the contact supports 1 are fixedly connected to the clamping plate 3.
- the rotating shaft 2 is fixed in a space defined by the shaft groove 111 and the fixing groove 30.
- the shaft groove 111 is matched with two adjacent sides of the rotating shaft 2, and the fixing groove 30 is matched with another two adjacent sides of the rotating shaft 2.
- the contact supports 1 are mounted on the rotating shaft 2, such that the plurality of contact supports 1 are in stable and firm linkage through the rotating shaft 2.
- the radial section of the rotating shaft 2 is square, and of course, other shapes such as a rectangle or a diamond may be available.
- each contact support 1 comprises a bracket 10 having a U-shaped structure.
- the movable contacts 8 are mounted inside the bracket 10.
- the bracket 10 comprises two side plates 11 and a bottom plate 12 connected between the two side plates 11.
- Each side plate 11 is symmetrically provided with mounting grooves 112 each having a V-shaped structure.
- a position, corresponding to each mounting groove 112, of the bottom plate 1 is provided with an opening 121 which allows the rotating shaft 2 to pass and is configured to fix the rotating shaft 2.
- the rotating shaft 2 is mounted outside the bottom plate 12.
- the contact supports 1 fix the rotating shaft 2 through the mounting groove 112 and the opening 121.
- the bottom plate 12 comprises a front bottom plate 122 and a rear bottom plate 123 which are connected between the two side plates 11.
- a gap is reserved at a position, corresponding to the mounting groove 112, between the front bottom plate 122 and the rear bottom plate 123, and the opening 121 is formed.
- an extension end 124 which is configured to further fix the rotating shaft 2 is provided in the bottom plate 12 of each contact support 1.
- the extension end 124 is inclined by a certain distance from two sides, which are matched with the rotating shaft 2, of the opening 121 to the inner side of the contact support 1, respectively.
- the two extension ends 124 form a V-shaped structure for fixing two adjacent sides of the rotating shaft 2.
- An angle ⁇ at which the extension end 124 is inclined is matched with the structure of the rotating shaft 2.
- the two extension ends 124 may or may not intersect.
- the rotating shaft 2 can be more stably fixed by providing the extension ends 124 in conjunction with the mounting groove 112, such that the mechanical strength of the bottom plate 12 can be enhanced to prolong the working life of the device.
- the angle ⁇ at which the extension end 124 is inclined is preferably 45°.
- the clamping plate 3 is provided with a fixing groove 30 configured to fix the rotating shaft 2 and having an integrally formed V-shaped structure.
- the fixing groove 30 comprises two clamping plates 31 which are connected angularly.
- a fixing groove 30 configured to fix the rotating shaft 2 and having a V-shaped structure is formed between the two clamping plates 31.
- the other ends of the two clamping plates 31 extend outwards respectively to form a mounting plate 32 that is connected to the corresponding contact support 1.
- the mounting plate 32 and the bottom plate 12 are connected by threads to fix the clamping plate 3 to the contact support 1.
- the middle of the movable contact 8 is rotatably mounted inside the bracket 10 of the corresponding contact support 1 through a contact shaft 131.
- the movable contact 8 comprises a working end 81 provided with movable contacts and a wiring end 82 for wiring.
- a buffer spring 132 is provided between the working end 81 and the bracket 10, and the wiring end 82 at the other end abuts against the bracket 10.
- the contact shaft 131 is provided between the two side plates 11 of the bracket 10 and passes through the movable contact 8.
- the buffer spring 132 is a compression spring, one end of which abuts against the working end 81 of the movable contact 8, and the other end of which abuts against the bottom plate 12 of the bracket 10.
- the wiring end 82 abuts against the bottom plate 12 under the spring force of the buffer spring 132 to fix the movable contact 8 in the contact support 1.
- the movable contacts 8 swing with the contact supports 1 to realize the contact with and the separation from the static contacts, and to realize an over-travel fit between the movable contacts and the static contacts through the buffer spring 132 provided between the working end 81 and the bottom plate 12.
- the wiring end 82 is connected to a wiring board 15 via a conductor 14, wherein a make-way part 14a that makes way for the shaft groove 111 and is bent away from the shaft groove 111 is provided at a position, close to the shaft groove 111, of the conductor 14.
- each movable contact 8 comprises an active contact 8a and auxiliary movable contacts 8b provided on both sides of the active contact 8a, wherein the active contact 8a and the auxiliary movable contacts 8b are mounted side by side inside the bracket 10 through the contact shaft 131, the active contact 8a is longer than each of the auxiliary movable contacts 8b, and a buffer spring 132 which is used for realizing an over-travel fit between the movable contacts and the static contacts is provided between the bottom plate 12 and one end, where a movable contact point is provided, on each of the active contact 8a and the auxiliary movable contact 8b.
- the active contact 8a and the auxiliary movable contacts 8b are respectively and sequentially in contact with the static contacts; when closed, the active contact 8a is firstly in contact with a main static contact of the corresponding static contacts, and the auxiliary movable contacts 8b are then in contact with the auxiliary static contact of the corresponding static contacts; when disconnected, the auxiliary movable contacts 8b are separated from the auxiliary static contacts, and the active contact 8a is then separated from the main static contact.
- one active contact 8a and four auxiliary movable contacts 8b are provided preferably.
- the three contact supports 1 are connected together by the rotating shaft 2.
- Each contact support 1 is fixedly connected to the rotating shaft 2 through the corresponding clamping plate 3.
- An interference fit is formed between the shaft groove 11, the rotating shaft 2 and the clamping plate 3.
- the contact supports 1 are mounted inside a base through a mounting frame 71 (as shown in Fig 6 ) and are rotatably connected to the mounting frame 71 through a mounting shaft 711.
- the mounting frame 71 is provided with a mounting frame opening 712 which allows the rotating shaft 2 to pass.
- a baffle 6 is provided at a gap between every two of the contact supports 1.
- the rotating shaft 2 has a square radial section.
- An included angle of the mounting groove 112 having the V-shaped structure, an included angle of the fixing groove 30 having the V-shaped structure and an included angle between the two extension ends 124 are 90 degrees respectively.
- An include angle between the side of the mounting groove 112 and the bottom plate 12 and an angle ⁇ at which the extension ends are inclined are 45 degrees respectively.
- the rotating shaft 2 comprises a steel square shaft core 21 and a housing 22 provided outside the shaft core 21.
- the compressive strength of the rotating shaft 2 can be improved, the driving force can be transmitted accurately and stably, and the working life can be prolonged.
- the three contact supports 1 are connected together by the rotating shaft 2.
- the operating mechanism 9 is connected to at least one contact support.
- the three contact supports 1 are in linkage by the rotating shaft 2.
- the operating mechanism 9 that drives the plurality of contact supports 1 to rotate synchronously is connected to the intermediate contact support 1 through a plurality of first connecting rods 91, and drives the contact supports 1 to rotate.
- the rotating shaft 2 drives the three contact supports 1 to rotate together.
- the operating mechanism 9 is connected to the contact supports 1 through a plurality of first connecting rods 91.
- the operating mechanism 9 drives the contact supports 1 to rotate by the plurality of first connecting rods 91.
- a supporting shaft 92 passes through one end of each of the plurality of first connecting rods 91, and an operating shaft 93 passes through the other end of each of the plurality of first connecting rods 91.
- One end of each of the plurality of first connecting rods 91 is connected to the contact support 1 through the supporting shaft 92, and the other end thereof is connected to the operating mechanism 9 through the operating shaft 93.
- the operating mechanism 9 drives the contact supports 1 to rotate by the plurality of first connecting rods 91 and drives the movable contact 8 thereon to swing close to or away from the static contacts, such that the driving force is transferred accurately between the operating mechanism 9 and the contact supports 1 in a balanced manner, and the potential electrical safety hazards caused by the change in the travels of the contact supports can be prevented.
- the operating mechanism 9 is connected to the contact supports 1 through two first connecting rods 91.
- the first connecting rod 91 is connected to the contact support 1 through the bracket 10.
- the first connecting rod 91 comprises a first connecting rod body 91a, as well as a supporting end 91b rotatably connected to the supporting shaft 92 and an operating end 91c rotatably connected to the operating shaft 93, wherein the supporting end 91b and the operating end 91c are located at both ends of the first connecting rod body 91a respectively.
- the first connecting rod body 91a passes through both sides of the bottom plate 12 of the bracket 10, and the supporting end 91b is inserted into the inner side of the bracket 10.
- the first connecting rod body 91a is connected to the supporting shaft 92 provided between the two side plates 11 of the bracket 10.
- a square groove 12a through which the first connecting rod body 91a passes is provided in both sides of the bottom plate 12 respectively.
- the operating mechanism 9 is provided with an operating handle 98 for driving the operating shaft 93 to move.
- a third connecting rod 96 and a second connecting rod 95 which are used for connecting the operating handle 98 and the operating shaft 93 are provided in the operating mechanism 9.
- a driving plate 98b of the operating handle 98 is matched with the third connecting rod 96.
- One end of the third connecting rod 96 is hinged to the second connecting rod 95, and the other end of the third connecting rod 96 is hinged to a fixed shaft 97 on the mounting frame 71.
- the second connecting rod 95 is hinged to a drive operating shaft 93 that is connected to the plurality of first connecting rods 91.
- the third connecting rod 96 comprises a sliding end 96a that is matched with the operating handle 98, a third connecting rod rotating end 96b that is connected to the fixed shaft 97, and a driving end 96e that is hinged to the second connecting rod 95.
- the operating handle 98 comprises a driving rod 98a and a driving plate 98b connected to the driving rod 98a.
- the driving plate 98b of the operating handle 98 is provided with a sliding groove 981 which is slidably matched with the third connecting rod 96, and the sliding end 96a of the third connecting rod 96 is inserted into the sliding groove 981.
- the fixed shaft 97 is provided between the mounting frames 71 on both sides of the operating mechanism 9.
- the third connecting rod 96 is mounted on the fixed shaft 97 through the rotating end 96b of the third connecting rod.
- the second connecting rod 95 comprises two second connecting pieces arranged in parallel.
- the two second connecting pieces are provided on both sides of the third connecting rod 96 and are hinged to the driving end 96e of the third connecting rod 96 through a connecting rod shaft.
- the third connecting rod 96 is swingable within a gap between the two second connecting pieces.
- the sliding end 96a of the third connecting rod 96 is located at one side of the driving end 96e, and the other side of the driving end 96e extends outwards to form an extension rod 96c.
- a third connecting rod make-way portion 96d is formed between the driving end 96e and the extension rod 96c.
- each of the spring plates 991 comprises a spring insertion end inserted into the spring and a spring rotating end 991a for a rotational fit.
- a spring shaft hole 993 which is matched with the operating handle 98 and the operating shaft 93 is provided at the spring rotating end 991a.
- a spring plate extension end extending into the side wall of the spring 99 and used for fixing is provided on both sides of the spring insertion end respectively.
- each of the contact supports 1 is mounted inside the base through the mounting frame 71.
- a limiting shaft 722 is also provided in the mounting frame 71.
- a deflecting plate 723 rotating around the fixed shaft 97 is provided on both sides of the third connecting rod 96 respectively.
- Each deflecting plate 723 comprises a deflecting plate body 7231, a deflecting plate first end 7232 matched with the second connecting rod 95 and a deflecting plate second end 7233 rotating around the fixed shaft 97.
- a fitting surface of the deflecting plate first end 7232 and the second connecting rod 95 is of a circular arc structure.
- the deflecting plate second end 7233 is provided with a deflecting plate shaft hole which is rotatably matched with the fixed shaft 97.
- the deflecting plate second end 7233 extends towards the limiting shaft 722 to form a first extension part 7234 of the deflecting plate, which is matched with the limiting shaft 722.
- the end part of the first extension part 7234 is in a shape of a circular arc matched with the surface of the limiting shaft 722.
- the deflecting plate body 7231 extends towards the limiting shaft 722 to form a second extension part 7235 of the deflecting plate, which is located above the limiting shaft 722.
- a strip-like triangular protrusion 971 is provided on the surface of the connecting shaft 97.
Landscapes
- Driving Mechanisms And Operating Circuits Of Arc-Extinguishing High-Tension Switches (AREA)
- Rotary Switch, Piano Key Switch, And Lever Switch (AREA)
- Breakers (AREA)
Description
- The present invention relates to the field of low voltage apparatuses, in particular to a circuit breaker, and more particularly to a rotating shaft device of a circuit breaker.
- Circuit breakers are of an important part of the electrical industry and have been widely used. When a circuit operates normally, the circuit breaker can achieve the functions of power failure, power supply and circuit conversion, etc., by powering on/off the circuit for supplying power. When the circuit is under overload, voltage loss, undervoltage or short circuit failure, the circuit breaker can automatically power off the circuit, to avoid the harms to the safety of the staff and the normal operation of the equipment caused by the circuit failure. The rotating shaft of the existing circuit breaker is fixed and riveted on a support supported by a contact by means of a clamping plate. As long as the riveting position is loose, the rotating shaft, the clamping plate and the support will be loosened, and gaps gradually occur at the mating portions thereof, which causes a change in a travel position of the contact device, thereby creating gaps at the mating portions. In addition, the transmission of a driving force between an operating mechanism and the contact support is unbalanced, which easily causes a change in the travel position of the contact device and affects the safe use of electricity by a customer.
- Document
WO2010/079524 discloses a device according to the preamble ofclaim 1. - An objective of the present invention is to overcome the defects of the prior art, and provide a rotating shaft device of a circuit breaker, which is simple in structure and high in reliability.
- To fulfill said objective, the present invention adopts the following technical solution.
- A rotating shaft device of a circuit breaker comprises a plurality of
contact supports 1 provided withmovable contacts 8, and arotating shaft 2 being in linkage with the plurality ofcontact supports 1; an operating mechanism 9 drives the plurality ofcontact supports 1 to rotate synchronously to drive themovable contacts 8 to be in contact with and separated from static contacts, thereby realizing switching-on and switching-off of the circuit breaker; the rotatingshaft 2 has a parallelogram radial section; eachcontact support 1 is provided with ashaft groove 111 having a V-shaped structure in which the rotatingshaft 2 is mounted; the rotating shaft device further comprises aclamping plate 3 provided with afixing groove 30 having a V-shaped structure; thefixing groove 30 having the V-shaped structure corresponds to theshaft groove 111 having the V-shaped structure; thecontact supports 1 are fixedly connected to theclamping plate 3; the rotatingshaft 2 is fixed in a space defined by theshaft groove 111 and thefixing groove 30; theshaft groove 111 is matched with two adjacent sides of the rotatingshaft 2, and thefixing groove 30 is matched with another two adjacent sides of the rotatingshaft 2. - Optionally, an interference fit is formed among the
shaft groove 111, the rotatingshaft 2 and theclamping plate 3. - Optionally, each
contact support 1 comprises abracket 10 having a U-shaped structure; themovable contacts 8 are mounted inside thebracket 10; thebracket 10 comprises twoside plates 11 and abottom plate 12 connected between the twoside plates 11; eachside plate 11 is symmetrically provided withmounting grooves 112 each having a V-shaped structure; a position, corresponding to eachmounting groove 112, of thebottom plate 1 is provided with anopening 121 which allows therotating shaft 2 to pass and is configured to fix the rotatingshaft 2; the rotatingshaft 2 is mounted outside thebottom plate 12; themounting groove 112 and theopening 121 form theshaft groove 111 to fix the rotatingshaft 2. - Optionally, the
bottom plate 12 comprises afront bottom plate 122 and arear bottom plate 123 which are connected between the twoside plates 11; a gap is reserved at a position, where themounting groove 112 is located, between thefront bottom plate 122 and therear bottom plate 123, and theopening 121 is formed. - Optionally, an
extension end 124 is provided in thebottom plate 12 of eachcontact support 1; theextension end 124 is inclined by a certain distance from two sides, which are matched with the rotatingshaft 2, of theopening 121 to the inner side of thecontact support 1, respectively; the two extension ends 124 form a V-shaped structure for fixing two adjacent sides of the rotatingshaft 2. - Optionally, the
clamping plate 3 is provided with afixing groove 30 configured to fix the rotatingshaft 2 and having an integrally formed V-shaped structure; thefixing groove 30 comprises twoclamping plates 31 which are connected angularly; afixing groove 30 configured to fix the rotatingshaft 2 and having a V-shaped structure is formed between the twoclamping plates 31; the other ends of the twoclamping plates 31 extend outwards respectively to form amounting plate 32 that is connected to thecorresponding contact support 1. - Optionally, the middle of the
movable contact 8 is rotatably mounted inside thebracket 10 of thecontact support 1 through acontact shaft 131; themovable contact 8 comprises a workingend 81 provided with movable contacts and awiring end 82 for wiring; abuffer spring 132 is provided between the workingend 81 and thebracket 10, and thewiring end 82 at the other end abuts against thebracket 10. - Optionally, the
bracket 10 comprises twoside plates 11 and abottom plate 12 connected between the twoside plates 11; eachmovable contact 8 comprises anactive contact 8a and auxiliary movable contacts 8b provided on both sides of theactive contact 8a, wherein theactive contact 8a and the auxiliary movable contacts 8b are mounted side by side inside thebracket 10 through thecontact shaft 131, theactive contact 8a is longer than each of the auxiliary movable contacts 8b, and abuffer spring 132 which is used for realizing an over-travel fit between the movable contacts and the static contacts is provided between thebottom plate 12 and one end, where a movable contact point is provided, on each of theactive contact 8a and the auxiliary movable contacts 8b; when themovable contact 8 moves closer to the static contact along with thecontact support 1, theactive contact 8a and the auxiliary movable contacts 8b are respectively and sequentially in contact with the static contact; when closed, theactive contact 8a is firstly in contact with a main static contact of the corresponding static contacts, and the auxiliary movable contacts 8b are then in contact with the auxiliary static contact of the corresponding static contacts; when disconnected, the auxiliary movable contacts 8b are separated from the auxiliary static contact, and theactive contact 8a is then separated from the main static contact. - Optionally, the rotating
shaft 2 comprises a steelsquare shaft core 21 and ahousing 22 provided outside theshaft core 21. - Optionally, the operating mechanism 9 is connected to the contact supports 1 through a plurality of first connecting
rods 91; the operating mechanism 9 drives the contact supports 1 to rotate by the plurality of first connectingrods 91; a supportingshaft 92 passes through one end of each of the plurality of first connectingrods 91, and an operating shaft 93 passes through the other end of each of the plurality of first connectingrods 91; one end of each of the plurality of first connectingrods 91 is connected to thecorresponding contact support 1 through the supportingshaft 92, and the other end thereof is connected to the operating mechanism 9 through the operating shaft 93. - According to the rotating shaft device of the circuit breaker of the present invention, by providing the shaft groove having the V-shaped structure on the contact support and the fixing groove having the V-shaped structure on the clamping plate and in combination with the rotating shaft having the parallelogram radial section, the contact supports are mounted on the rotating shaft, such that the plurality of contact supports are in stable and firm linkage through the rotating shaft.
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Fig. 1 is a schematic structural diagram of a rotating shaft device of the circuit breaker of the present invention; -
Fig. 2 is a schematic assembly diagram of the circuit breaker of the present invention; -
Fig. 3 is a structural diagram of a bracket of the circuit breaker of the present invention; -
Fig. 4 is a partially enlarged view of the bracket of the circuit breaker of the present invention; -
Fig. 5 i a schematic structural diagram of a clamping plate of the circuit breaker of the present invention; -
Fig. 6 is a sectional view of a contact support of the circuit breaker of the present invention; -
Fig. 7 is a partially sectional view of a rotating shaft of the circuit breaker of the present invention; -
Fig. 8 is a sectional view of the circuit breaker of the present invention; -
Fig. 9 is a partially sectional view of the circuit breaker of the present invention; -
Fig. 10 is a partially enlarged sectional view of an operating mechanism of the circuit breaker of the present invention; -
Fig. 11 is a partially structural view of the operating mechanism of the circuit breaker of the present invention; -
Fig. 12 is a structural view of a third connecting rod of the circuit breaker of the present invention. - Specific embodiments of a rotating shaft device of a circuit breaker of the present invention will be further described below in conjunction with the embodiments provided by
Figs. 1 to 12 . The rotating shaft device of the circuit breaker of the present invention is not limited to the description of the following embodiments. - As shown in
Figs. 1 and 2 , the rotating shaft device of the circuit breaker of the present invention comprise a plurality ofcontact supports 1 provided withmovable contacts 8, and arotating shaft 2 being in linkage with the plurality ofcontact supports 1. An operating mechanism 9 drives the plurality of contact supports 1 to rotate synchronously to drive themovable contacts 8 to be in contact with and separated from static contacts, thereby realizing switching-on and switching-off of the circuit breaker. The rotatingshaft 2 has a parallelogram radial section. Eachcontact support 1 is provided with ashaft groove 111 having a V-shaped structure in which therotating shaft 2 is mounted. The rotating shaft device further comprises aclamping plate 3 provided with afixing groove 30 having a V-shaped structure. Thefixing groove 30 having the V-shaped structure corresponds to theshaft groove 111 having the V-shaped structure. Thecontact supports 1 are fixedly connected to theclamping plate 3. The rotatingshaft 2 is fixed in a space defined by theshaft groove 111 and thefixing groove 30. Theshaft groove 111 is matched with two adjacent sides of the rotatingshaft 2, and thefixing groove 30 is matched with another two adjacent sides of the rotatingshaft 2. By providing theshaft groove 111 having the V-shaped structure on thecontact support 1 and thefixing groove 30 having the V-shaped structure on theclamping plate 3 and in combination with the rotatingshaft 2 having the parallelogram radial section, thecontact supports 1 are mounted on the rotatingshaft 2, such that the plurality ofcontact supports 1 are in stable and firm linkage through the rotatingshaft 2. In the present embodiment, the radial section of the rotatingshaft 2 is square, and of course, other shapes such as a rectangle or a diamond may be available. - As shown in
Figs. 3 to 6 , eachcontact support 1 comprises abracket 10 having a U-shaped structure. Themovable contacts 8 are mounted inside thebracket 10. Thebracket 10 comprises twoside plates 11 and abottom plate 12 connected between the twoside plates 11. Eachside plate 11 is symmetrically provided withmounting grooves 112 each having a V-shaped structure. A position, corresponding to eachmounting groove 112, of thebottom plate 1 is provided with anopening 121 which allows therotating shaft 2 to pass and is configured to fix the rotatingshaft 2. The rotatingshaft 2 is mounted outside thebottom plate 12. The contact supports 1 fix the rotatingshaft 2 through themounting groove 112 and theopening 121. Specifically, thebottom plate 12 comprises afront bottom plate 122 and arear bottom plate 123 which are connected between the twoside plates 11. A gap is reserved at a position, corresponding to themounting groove 112, between thefront bottom plate 122 and therear bottom plate 123, and theopening 121 is formed. - Further, in combination with
Fig. 4 , anextension end 124 which is configured to further fix the rotatingshaft 2 is provided in thebottom plate 12 of eachcontact support 1. Theextension end 124 is inclined by a certain distance from two sides, which are matched with the rotatingshaft 2, of theopening 121 to the inner side of thecontact support 1, respectively. The two extension ends 124 form a V-shaped structure for fixing two adjacent sides of the rotatingshaft 2. An angle α at which theextension end 124 is inclined is matched with the structure of the rotatingshaft 2. The two extension ends 124 may or may not intersect. Therotating shaft 2 can be more stably fixed by providing the extension ends 124 in conjunction with the mountinggroove 112, such that the mechanical strength of thebottom plate 12 can be enhanced to prolong the working life of the device. In the present embodiment, the angle α at which theextension end 124 is inclined is preferably 45°. - As shown in
Fig. 5 , the clampingplate 3 is provided with a fixinggroove 30 configured to fix therotating shaft 2 and having an integrally formed V-shaped structure. The fixinggroove 30 comprises two clampingplates 31 which are connected angularly. A fixinggroove 30 configured to fix therotating shaft 2 and having a V-shaped structure is formed between the two clampingplates 31. The other ends of the two clampingplates 31 extend outwards respectively to form a mountingplate 32 that is connected to thecorresponding contact support 1. In the present embodiment, the mountingplate 32 and thebottom plate 12 are connected by threads to fix theclamping plate 3 to thecontact support 1. Of course, it is also possible to mount theclamping plate 3 and thecontact support 1 by means of other known connection manners. - As shown in
Fig. 6 , the middle of themovable contact 8 is rotatably mounted inside thebracket 10 of thecorresponding contact support 1 through acontact shaft 131. Themovable contact 8 comprises a workingend 81 provided with movable contacts and awiring end 82 for wiring. Abuffer spring 132 is provided between the workingend 81 and thebracket 10, and thewiring end 82 at the other end abuts against thebracket 10. Specifically, thecontact shaft 131 is provided between the twoside plates 11 of thebracket 10 and passes through themovable contact 8. Thebuffer spring 132 is a compression spring, one end of which abuts against the workingend 81 of themovable contact 8, and the other end of which abuts against thebottom plate 12 of thebracket 10. Thewiring end 82 abuts against thebottom plate 12 under the spring force of thebuffer spring 132 to fix themovable contact 8 in thecontact support 1. Themovable contacts 8 swing with the contact supports 1 to realize the contact with and the separation from the static contacts, and to realize an over-travel fit between the movable contacts and the static contacts through thebuffer spring 132 provided between the workingend 81 and thebottom plate 12. Thewiring end 82 is connected to awiring board 15 via aconductor 14, wherein a make-way part 14a that makes way for theshaft groove 111 and is bent away from theshaft groove 111 is provided at a position, close to theshaft groove 111, of theconductor 14. - Further, each
movable contact 8 comprises anactive contact 8a and auxiliary movable contacts 8b provided on both sides of theactive contact 8a, wherein theactive contact 8a and the auxiliary movable contacts 8b are mounted side by side inside thebracket 10 through thecontact shaft 131, theactive contact 8a is longer than each of the auxiliary movable contacts 8b, and abuffer spring 132 which is used for realizing an over-travel fit between the movable contacts and the static contacts is provided between thebottom plate 12 and one end, where a movable contact point is provided, on each of theactive contact 8a and the auxiliary movable contact 8b. When themovable contact 8 moves closer to the static contacts along with thecontact support 1, theactive contact 8a and the auxiliary movable contacts 8b are respectively and sequentially in contact with the static contacts; when closed, theactive contact 8a is firstly in contact with a main static contact of the corresponding static contacts, and the auxiliary movable contacts 8b are then in contact with the auxiliary static contact of the corresponding static contacts; when disconnected, the auxiliary movable contacts 8b are separated from the auxiliary static contacts, and theactive contact 8a is then separated from the main static contact. In the present embodiment, oneactive contact 8a and four auxiliary movable contacts 8b are provided preferably. - As shown in
Fig. 1 , according to the rotating shaft device of the circuit breaker in the present embodiment, the threecontact supports 1 are connected together by therotating shaft 2. Eachcontact support 1 is fixedly connected to therotating shaft 2 through thecorresponding clamping plate 3. An interference fit is formed between theshaft groove 11, therotating shaft 2 and theclamping plate 3. The contact supports 1 are mounted inside a base through a mounting frame 71 (as shown inFig 6 ) and are rotatably connected to the mountingframe 71 through a mountingshaft 711. The mountingframe 71 is provided with a mounting frame opening 712 which allows therotating shaft 2 to pass. A baffle 6 is provided at a gap between every two of the contact supports 1. In the present embodiment, therotating shaft 2 has a square radial section. An included angle of the mountinggroove 112 having the V-shaped structure, an included angle of the fixinggroove 30 having the V-shaped structure and an included angle between the two extension ends 124 are 90 degrees respectively. An include angle between the side of the mountinggroove 112 and thebottom plate 12 and an angle α at which the extension ends are inclined are 45 degrees respectively. - In the embodiment of the
rotating shaft 2 as shown inFig. 7 , therotating shaft 2 comprises a steelsquare shaft core 21 and ahousing 22 provided outside theshaft core 21. By providing the steelsquare shaft core 21 in therotating shaft 2, the compressive strength of therotating shaft 2 can be improved, the driving force can be transmitted accurately and stably, and the working life can be prolonged. - As shown in
Figs. 1 and8 , according to the rotating shaft device of the circuit breaker in the present embodiment, the threecontact supports 1 are connected together by therotating shaft 2. The operating mechanism 9 is connected to at least one contact support. The threecontact supports 1 are in linkage by therotating shaft 2. In the embodiment shown inFig. 1 , the operating mechanism 9 that drives the plurality of contact supports 1 to rotate synchronously is connected to theintermediate contact support 1 through a plurality of first connectingrods 91, and drives the contact supports 1 to rotate. Therotating shaft 2 drives the threecontact supports 1 to rotate together. - As shown in
Fig. 8 , the operating mechanism 9 is connected to the contact supports 1 through a plurality of first connectingrods 91. The operating mechanism 9 drives the contact supports 1 to rotate by the plurality of first connectingrods 91. A supportingshaft 92 passes through one end of each of the plurality of first connectingrods 91, and an operating shaft 93 passes through the other end of each of the plurality of first connectingrods 91. One end of each of the plurality of first connectingrods 91 is connected to thecontact support 1 through the supportingshaft 92, and the other end thereof is connected to the operating mechanism 9 through the operating shaft 93. The operating mechanism 9 drives the contact supports 1 to rotate by the plurality of first connectingrods 91 and drives themovable contact 8 thereon to swing close to or away from the static contacts, such that the driving force is transferred accurately between the operating mechanism 9 and the contact supports 1 in a balanced manner, and the potential electrical safety hazards caused by the change in the travels of the contact supports can be prevented. In the present embodiment, it is preferable that the operating mechanism 9 is connected to the contact supports 1 through two first connectingrods 91. - As shown in
Fig. 9 , the first connectingrod 91 is connected to thecontact support 1 through thebracket 10. The first connectingrod 91 comprises a first connectingrod body 91a, as well as a supporting end 91b rotatably connected to the supportingshaft 92 and an operating end 91c rotatably connected to the operating shaft 93, wherein the supporting end 91b and the operating end 91c are located at both ends of the first connectingrod body 91a respectively. The first connectingrod body 91a passes through both sides of thebottom plate 12 of thebracket 10, and the supporting end 91b is inserted into the inner side of thebracket 10. The first connectingrod body 91a is connected to the supportingshaft 92 provided between the twoside plates 11 of thebracket 10. Asquare groove 12a through which the first connectingrod body 91a passes is provided in both sides of thebottom plate 12 respectively. - As shown in
Fig. 8 andFig. 9 , the operating mechanism 9 is provided with anoperating handle 98 for driving the operating shaft 93 to move. A third connectingrod 96 and a second connectingrod 95 which are used for connecting theoperating handle 98 and the operating shaft 93 are provided in the operating mechanism 9. A driving plate 98b of theoperating handle 98 is matched with the third connectingrod 96. One end of the third connectingrod 96 is hinged to the second connectingrod 95, and the other end of the third connectingrod 96 is hinged to a fixedshaft 97 on the mountingframe 71. The second connectingrod 95 is hinged to a drive operating shaft 93 that is connected to the plurality of first connectingrods 91. - Specifically, the third connecting
rod 96 comprises a slidingend 96a that is matched with the operatinghandle 98, a third connectingrod rotating end 96b that is connected to the fixedshaft 97, and adriving end 96e that is hinged to the second connectingrod 95. The operatinghandle 98 comprises a drivingrod 98a and a driving plate 98b connected to the drivingrod 98a. As shown inFig. 10 , the driving plate 98b of theoperating handle 98 is provided with a slidinggroove 981 which is slidably matched with the third connectingrod 96, and the slidingend 96a of the third connectingrod 96 is inserted into the slidinggroove 981. The fixedshaft 97 is provided between the mountingframes 71 on both sides of the operating mechanism 9. The third connectingrod 96 is mounted on the fixedshaft 97 through therotating end 96b of the third connecting rod. The second connectingrod 95 comprises two second connecting pieces arranged in parallel. The two second connecting pieces are provided on both sides of the third connectingrod 96 and are hinged to the drivingend 96e of the third connectingrod 96 through a connecting rod shaft. The third connectingrod 96 is swingable within a gap between the two second connecting pieces. When the operating handle 98 moves, the third connectingrod 96 is pushed to move by the slidinggroove 981, and the third connectingrod 96 drives the operating shaft 93 to move by the second connectingrod 95. - As shown in
Fig. 12 , the slidingend 96a of the third connectingrod 96 is located at one side of the drivingend 96e, and the other side of the drivingend 96e extends outwards to form anextension rod 96c. A third connecting rod make-way portion 96d is formed between the drivingend 96e and theextension rod 96c. - As shown in
Figs. 8 and10 , twosprings 99 are provided between the operatinghandle 98 and the operating shaft 93. The two springs 99 are respectively located on both sides of the second connectingrod 95. Both ends of each of thesprings 99 are connected to theoperating handle 98 and the operating shaft 93 viaspring plates 991, respectively. Each of thespring plates 991 comprises a spring insertion end inserted into the spring and aspring rotating end 991a for a rotational fit. Aspring shaft hole 993 which is matched with the operatinghandle 98 and the operating shaft 93 is provided at thespring rotating end 991a. A spring plate extension end extending into the side wall of thespring 99 and used for fixing is provided on both sides of the spring insertion end respectively. - As shown in
Fig. 9 andFig. 11 , each of the contact supports 1 is mounted inside the base through the mountingframe 71. A limitingshaft 722 is also provided in the mountingframe 71. A deflectingplate 723 rotating around the fixedshaft 97 is provided on both sides of the third connectingrod 96 respectively. Each deflectingplate 723 comprises a deflectingplate body 7231, a deflecting platefirst end 7232 matched with the second connectingrod 95 and a deflecting platesecond end 7233 rotating around the fixedshaft 97. A fitting surface of the deflecting platefirst end 7232 and the second connectingrod 95 is of a circular arc structure. The deflecting platesecond end 7233 is provided with a deflecting plate shaft hole which is rotatably matched with the fixedshaft 97. The deflecting platesecond end 7233 extends towards the limitingshaft 722 to form afirst extension part 7234 of the deflecting plate, which is matched with the limitingshaft 722. The end part of thefirst extension part 7234 is in a shape of a circular arc matched with the surface of the limitingshaft 722. The deflectingplate body 7231 extends towards the limitingshaft 722 to form asecond extension part 7235 of the deflecting plate, which is located above the limitingshaft 722. A strip-liketriangular protrusion 971 is provided on the surface of the connectingshaft 97.
Claims (10)
- A rotating shaft device of a circuit breaker, comprising a plurality of contact supports (1) provided with movable contacts (8), and a rotating shaft (2) being in linkage with the plurality of contact supports (1); an operating mechanism (9) drives the plurality of contact supports (1) to rotate synchronously to drive the movable contacts (8) to be in contact with and separated from static contacts, thereby realizing switching-on and switching-off of the circuit breaker; the rotating shaft (2) has a parallelogram radial section; characterised in that each contact support (1) is provided with an shaft groove (111) having a V-shaped structure in which the rotating shaft (2) is mounted; the rotating shaft device further comprises a clamping plate (3) provided with a fixing groove (30) having a V-shaped structure; the fixing groove (30) having the V-shaped structure corresponds to the shaft groove (111) having the V-shaped structure; the contact supports (1) are fixedly connected to the clamping plate (3); the rotating shaft (2) is fixed in a space defined by the shaft groove (111) and the fixing groove (30); the shaft groove (111) is matched with two adjacent sides of the rotating shaft (2), and the fixing groove (30) is matched with another two adjacent sides of the rotating shaft (2).
- The rotating shaft device of the circuit breaker according to claim 1, wherein an interference fit is formed among the shaft groove (111), the rotating shaft (2) and the clamping plate (3).
- The rotating shaft device of the circuit breaker according to claim 1, wherein each contact support (1) comprises a bracket (10) having a U-shaped structure; the movable contacts (8) are mounted inside the bracket (10); the bracket (10) comprises two side plates (11) and a bottom plate (12) connected between the two side plates (11); each side plate (11) is symmetrically provided with mounting grooves (112) each having a V-shaped structure; a position, corresponding to each mounting groove (112), of the bottom plate (1) is provided with an opening (121) which allows the rotating shaft (2) to pass and is configured to fix the rotating shaft (2); the rotating shaft (2) is mounted outside the bottom plate (12); the mounting groove (112) and the opening (121) form the shaft groove (111) to fix the rotating shaft (2).
- The rotating shaft device of the circuit breaker according to claim 3, wherein the bottom plate (12) comprises a front bottom plate (122) and a rear bottom plate (123) connected between the two side plates (11); a gap is reserved at a position, where the mounting groove (112) is located, between the front bottom plate (122) and the rear bottom plate (123), and the opening (121) is formed.
- The rotating shaft device of the circuit breaker according to claim 3, wherein an extension end (124) is provided in the bottom plate (12) of each contact support (1); the extension end (124) is inclined by a certain distance from two sides, which are matched with the rotating shaft (2), of the opening (121) to the inner side of the contact support (1), respectively; the two extension ends (124) form a V-shaped structure for fixing two adjacent sides of the rotating shaft (2).
- The rotating shaft device of the circuit breaker according to claim 1, wherein the clamping plate (3) is provided with a fixing groove (30) configured to fix the rotating shaft (2) and having an integrally formed V-shaped structure; the fixing groove (30) comprises two clamping plates (31) which are connected angularly; a fixing groove (30) configured to fix the rotating shaft (2) and having a V-shaped structure is formed between the two clamping plates (31); the other ends of the two clamping plates (31) extend outwards respectively to form a mounting plate (32) that is connected to the corresponding contact support (1).
- The rotating shaft device of the circuit breaker according to claim 1, wherein the middle of the movable contact (8) is rotatably mounted inside the bracket (10) of the contact support (1) through a contact shaft (131); the movable contact (8) comprises a working end (81) provided with a movable contact and a wiring end (82) for wiring; a buffer spring (132) is provided between the working end (81) and the bracket (10), and the wiring end (82) at the other end abuts against the bracket (10).
- The rotating shaft device of the circuit breaker according to claim 7, wherein the bracket (10) comprises two side plates (11) and a bottom plate (12) connected between the two side plates (11); the movable contact (8) comprises an active contact (8a) and auxiliary movable contacts (8b) provided on both sides of the active contact (8a), wherein the active contact (8a) and the auxiliary movable contacts (8b) are mounted side by side inside the bracket (10) through the contact shaft (131), the active contact (8a) is longer than each of the auxiliary movable contacts (8b), and a buffer spring (132) which is used for realizing an over-travel fit between the movable contacts and the static contacts is provided between the bottom plate (12) and one end, where a movable contact point is provided, on each of the active contact (8a) and the auxiliary movable contact (8b); when the movable contact (8) moves closer to the static contacts along with the contact support (1), the active contact (8a) and the auxiliary movable contacts (8b) are respectively and sequentially in contact with the static contacts; when closed, the active contact (8a) is firstly in contact with a main static contact of the corresponding static contacts, and the auxiliary movable contacts (8b) are then in contact with the auxiliary static contact of the corresponding static contacts; when disconnected, the auxiliary movable contacts (8b) are separated from the auxiliary static contact, and the active contact (8a) is then separated from the main static contact.
- The rotating shaft device of the circuit breaker according to claim 1, wherein the rotating shaft (2) comprises a steel square shaft core (21) and a housing (22) provided outside the shaft core (21).
- The rotating shaft device of the circuit breaker according to claim 1, wherein the operating mechanism (9) is connected to the contact supports (1) through a plurality of first connecting rods (91); the operating mechanism (9) drives the contact supports (1) to rotate by the plurality of first connecting rods (91); a supporting shaft (92) passes through one end of each of the plurality of first connecting rods (91), and an operating shaft (93) passes through the other end of each of the plurality of first connecting rods (91); one end of each of the plurality of first connecting rods (91) is connected to the contact support (1) through the supporting shaft (92), and the other end thereof is connected to the operating mechanism (9) through the operating shaft (93).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610127244.5A CN107170651B (en) | 2016-03-07 | 2016-03-07 | The turning gear of breaker |
PCT/CN2016/103022 WO2017152627A1 (en) | 2016-03-07 | 2016-10-24 | Rotary shaft device of circuit breaker |
Publications (3)
Publication Number | Publication Date |
---|---|
EP3428945A1 EP3428945A1 (en) | 2019-01-16 |
EP3428945A4 EP3428945A4 (en) | 2019-12-04 |
EP3428945B1 true EP3428945B1 (en) | 2020-09-16 |
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ID=59788905
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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EP16893272.1A Active EP3428945B1 (en) | 2016-03-07 | 2016-10-24 | Rotary shaft device of circuit breaker |
Country Status (7)
Country | Link |
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EP (1) | EP3428945B1 (en) |
CN (1) | CN107170651B (en) |
BR (1) | BR112018067875B1 (en) |
ES (1) | ES2835776T3 (en) |
RU (1) | RU2722238C2 (en) |
WO (1) | WO2017152627A1 (en) |
ZA (1) | ZA201806349B (en) |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN108983087B (en) * | 2018-09-11 | 2024-03-15 | 江苏瑞峰自动化系统有限公司 | Automatic detection system of molded case circuit breaker |
CN109141862B (en) * | 2018-10-16 | 2023-10-27 | 深圳市金合联技术股份有限公司 | Hinge stability testing device |
CN116316242B (en) * | 2023-05-24 | 2023-08-08 | 江苏洛凯智能科技有限公司 | Isolated looped netowrk cabinet cubical switchboard |
Family Cites Families (12)
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SU1056292A1 (en) * | 1982-07-30 | 1983-11-23 | Одинцовское Производственное Управление Водопроводно-Канализационного Хозяйства | Limit selector switch |
SU1644254A1 (en) * | 1987-03-25 | 1991-04-23 | Всесоюзный научно-исследовательский, проектно-конструкторский и технологический институт низковольтного аппаратостроения | Electric drive |
CN2845154Y (en) * | 2005-12-07 | 2006-12-06 | 上海电器科学研究所(集团)有限公司 | The link gear of breaker of plastic casing |
IT1392729B1 (en) * | 2009-01-12 | 2012-03-16 | Bticino Spa | HIGH PERFORMANCE ELECTRICAL SWITCH |
CN201556580U (en) * | 2009-11-24 | 2010-08-18 | 常熟开关制造有限公司(原常熟开关厂) | Low-voltage frame circuit breaker |
CN201804806U (en) * | 2010-07-30 | 2011-04-20 | 上海良信电器股份有限公司 | Plastic casing type circuit breaker with rotating shaft linkage system |
CN202145435U (en) * | 2011-07-29 | 2012-02-15 | 抚顺抚瓷开关制造有限公司 | Novel grounding switch accessorily mounted on high voltage isolation switch |
CN103021745B (en) * | 2011-09-26 | 2015-03-25 | 上海电科电器科技有限公司 | Moving contact linkage structure of modularized circuit breaker |
CN103107050B (en) * | 2011-11-09 | 2017-06-30 | 河村电器产业株式会社 | Possesses the circuit-breaker of the dividing plate of supporting movable contact |
CN204834540U (en) * | 2015-08-31 | 2015-12-02 | 乐清市嘉菱电器有限公司 | Moving contact subassembly among moulded case circuit breaker |
CN105374636A (en) * | 2015-12-17 | 2016-03-02 | 北京明日电器设备有限责任公司 | Moving contact installation support of plastic casing breaker |
CN205542633U (en) * | 2016-03-07 | 2016-08-31 | 浙江正泰电器股份有限公司 | Pivot mechanism of circuit breaker |
-
2016
- 2016-03-07 CN CN201610127244.5A patent/CN107170651B/en active Active
- 2016-10-24 EP EP16893272.1A patent/EP3428945B1/en active Active
- 2016-10-24 RU RU2018133444A patent/RU2722238C2/en active
- 2016-10-24 WO PCT/CN2016/103022 patent/WO2017152627A1/en active Application Filing
- 2016-10-24 BR BR112018067875-9A patent/BR112018067875B1/en active IP Right Grant
- 2016-10-24 ES ES16893272T patent/ES2835776T3/en active Active
-
2018
- 2018-09-21 ZA ZA2018/06349A patent/ZA201806349B/en unknown
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Also Published As
Publication number | Publication date |
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ZA201806349B (en) | 2019-08-28 |
RU2722238C2 (en) | 2020-05-28 |
CN107170651A (en) | 2017-09-15 |
RU2018133444A (en) | 2020-04-08 |
WO2017152627A1 (en) | 2017-09-14 |
EP3428945A1 (en) | 2019-01-16 |
CN107170651B (en) | 2019-09-06 |
EP3428945A4 (en) | 2019-12-04 |
BR112018067875B1 (en) | 2023-01-03 |
RU2018133444A3 (en) | 2020-04-08 |
ES2835776T3 (en) | 2021-06-23 |
BR112018067875A2 (en) | 2019-07-02 |
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