ES2285827T3 - OPERATING MECHANISM OF A MOBILE CONTACT FOR AN AUTOMATIC ELECTRIC CIRCUIT. - Google Patents

Abstract

An operating mechanism of a moving contact (15) for an automatic electrical circuit breaker (10), of novel constructional simplicity, comprises an operating member (28), a system of levers (25) for the engagement of the moving contact (15) with the operating member (25) and for the oscillation of the moving contact (15) from an open position of the circuit breaker, separated from a fixed contact (37), to a closed position of the circuit breaker, with the moving contact (15) in electrical contact with the fixed contact (37), together with elastic means (43) which constantly press the moving contact (15) towards said open position of the circuit breaker, said system of levers (25) interacting with an electrical protection device (34) to release the operating member (28), wherein the levers of said system of levers (25) are made from flat plates. <IMAGE>

Description

Operating mechanism of a mobile contact for an automatic electric circuit breaker.

The present invention is related to a operating mechanism of a mobile contact, particularly Designed for use in an automatic electric circuit breaker.

More particularly, the invention relates to a operating mechanism of a mobile contact, comprising a operating member, a system of levers to apply the mobile contact with the operating member and for the swing of the mobile contact from an open position of the circuit breaker, in the which is separated from a fixed contact, to a closed position circuit breaker, with the mobile contact in electrical contact with the fixed contact, together with elastic pressing means constantly moving contact towards said open position of the circuit breaker Said lever system interacts with a device electrical protection to release the operating member of the latter and to open the circuit breaker.

An operating mechanism of this is known. type per document EP-A-0150920.

The term "electrical contact" indicates a contact between two metallic bodies that conduct the current electrical (for example, the first of these bodies is the contact mobile and the second is the fixed contact), so that the Current can pass from one conductive body to the other.

Mechanisms of the aforementioned type are known, in which the aforementioned lever system comprises a operating lever that supports the mobile contact for your swing to and from the fixed contact. Said lever of operation interacts with a ratchet lever. The lever ratchet is freely supported to rotate on a pin-shaped extension of the operating lever and it keeps in place by means of a bushing and means of retention. Said ratchet lever is pressed by a spring. towards a hook-shaped protrusion of the lever operation, in such a way that it forms an application element designed for the application and release of the member of functioning.

It can be understood from the above that the Known mechanism has numerous disadvantages. The disadvantage main arises from the fact that the operating lever before mentioned, which is provided with bumps, grooves, pins and butt surfaces, it has such a complex shape that it has been manufactured by complicated procedures, for example by casting or injection molding, and consequently should be manufactured from an alloy suitable for casting pressing of highly complex shapes, such as an alloy of zinc, aluminum and copper, known as "zama". Consequently, the known mechanism provided with the support lever before mentioned is difficult to manufacture, while its assembly is complicated and its maintenance is laborious.

The problem referred to in this invention is to propose an operating mechanism for a automatic electric circuit breaker that has features structural and functional such that the above disadvantages cited with reference to the prior art be overcome.

This problem is solved by means of a operating mechanism of a mobile contact for a circuit breaker automatic electric of the type specified above, characterized in that the levers of the lever system are in flat plate shape.

Other features and advantages of the invention will be clear by means of the following description of a preferred embodiment thereof, provided as guidance and without restrictive claim, with reference to attached figures, in which:

Figure 1 shows a side view, in partial section, of an automatic electric circuit breaker;

Figure 2 shows, in a side view, a circuit breaker mechanism illustrated in figure 1;

Figures 3, 4 and 5 show three views in perspective, from three different points of view, of the mechanism illustrated in figure 2;

Figure 6 shows an exploded view in perspective of the mechanism illustrated in figure 2;

Figures 7, 8 and 9 illustrate, in three views side, a detail of the circuit breaker illustrated in figure 1, in Three different operating states.

With reference to the aforementioned figures, the number 10 indicates, as a whole, an electrical circuit breaker automatic. For example, the electric circuit breaker 10 is of the type magneto-thermal or, in other words, a circuit breaker automatic with a magneto-thermal device release.

Said electric circuit breaker 10 comprises a housing 11 in the form of a box, particularly of the type it has a flat box-shaped body, consisting of two half pods 12. In other words, the box-shaped body 11 consists of a half sheath 12 that forms a base and a half sheath that forms a cover (not illustrated). Said half pods are juxtaposed and made integrally with each other by fixing means such as rivets or screws. Said housing 11 in the form of box has on its back (as illustrated with the arrow "R") means 14 of application designed for coupling to a busbar of cross section in shape of omega (not illustrated), in accordance with DIN standards. The part front (as illustrated by arrow "F") of housing 11 in the form of a box, it has a part 16 that emerges outwards. At the top (as illustrated with the arrow "U") and in the bottom (as illustrated by arrow "D") of said housing 11 in the form of a box, slots 18 are arranged designed for the electrical connection of the circuit breaker 10 to the stream. For example, the ends of the cables or bars electric collectors, are inserted into the housing 11 in the form of box through said slots 18. The housing M in the form of modular type box, and in particular has dimensions standard.

Ribs 19 are arranged inside said housing 11 in the form of a box to reinforce the housing 11 in the form of a box, but also to delimit compartments or chambers. A first and a second compartment 20 and 21 are located near the upper and lower parts (arrows "U" and "D") of the box-shaped housing 11. Said compartments 20 and 21 house first and second terminals 22 and 23, designed for the electrical connection of the circuit breaker 10 to the ends of the electric current conductors received in the slots 18. An operating mechanism of a mobile contact is housed 15 in an additional compartment 24 of the housing 11 in the form of a box. The operating mechanism will be described in greater detail in the following text. At the moment, it can be indicated that said mechanism comprises a lever system, indicated as a whole by reference 25, and an operating member, indicated as a whole with reference 28. Said lever system 25 is designed for the application of the mobile contact 15 with the operating member 25 and for the oscillation of the mobile contact 15 from an open position of the circuit breaker 10, separated from a fixed contact 37, to a closed position of the circuit breaker 10, with the mobile contact 15 in electrical contact with the fixed contact 37. The oscillation of the mobile contact 15 and the lever system 25 takes place in a plane (indicated as "P" in Figure 6). Said lever system 25 is electrically connected to one of the terminals, for example the second terminal 23, by means of a flexible conductor cable or braid 26, and by means of busbars 27 (Figure 1). Said operating member 28 comprises a bar with a rod or joint 29, designed to interact with the lever system 25, and with an operating lever 17. The joint, for example a C-shaped folded wire rod, has an end eccentrically connected to the operating lever such that it forms a tilting mechanism. The free end of the joint is bent in such a way that the lever system 25 can be applied thereto. For example, the joint is a rod whose free end is bent orthogonally to the plane "P" of oscillation of the lever system 25, by means of a rod end 100. The operating lever 17 is freely rotatably supported on a pivot 30 which is integrated with the box-shaped housing 11 and located orthogonally to the oscillating plane "P" of the lever system 25. Said operating lever 17 is constantly pressed by elastic means 32 towards a position in which the tilting mechanism is folded back (open position of the circuit breaker). The operating member 28 is housed in the compartment 24 containing the lever system 25, such that the operating lever 17 partially emerges through an opening 31 from the projecting part 16 of the front part "F" of the housing 11 in the form of a box. Next to the lever system 25, an additional compartment 33 is provided that houses an electrical protection device 34, for example an electromagnet, which is of a known type. One end 35 of said electrical protection device 34 is electrically connected to an armature 36. The fixed contact 37 extends from said armature 36 and is positioned such that it can interact with the movable contact 15 when the circuit breaker is in the closed position. A second end 38 of said protection device is electrically connected to the second terminal 22. The electrical protection device 34 comprises a mobile element provided at one of its ends with a firing pin 39 designed to interact with said lever system 25. An arc extinguishing cell 40, housed in a deionization compartment or chamber 41, is interposed between the fixed contact 37 and the armature 36 on the one hand and the busbars 27 on the other hand
(Figure 1).

The lever system 25 is supported by freely rotating way on a single pivot 42 housed in bearings arranged in the half sheaths 12 of the housing 11 in box shape, so that its X-X axis is orthogonal to the oscillation plane "P" of said system 25 of levers Elastic means 43 constantly press the mobile contact 15 so that it rests against a stop 44 arranged in a of the ribs 19 of the housing 11 in a suitable position to form the contact place separated from the fixed contact 37, in In other words, the open circuit breaker position. For example, a helical spring 43 is interposed between the wall of the housing 11 in the form of a box and the mobile contact 15, so such as to constantly press the mobile contact 15 away from the fixed contact 37 (figure 7).

Advantageously, the lever system 25 Includes flat plate levers. In one embodiment, said flat plate levers are arranged in the "P" plane, or parallel to the "P" plane of oscillation of the lever system 25 (figure 6).

In particular, the lever system 25 comprises an application lever 45 consisting of a plate folded like a clamp, to form a first and a second arms 46 and 47 connected to each other by an intermediate part 48.

Eyelets 49 and 50, designed to receive the individual pivot 42 in bearings 51 and 52, are provided in the free ends of said arms 46 and 47. Around said bearing 52, the eyelet 50 of said second arm 47 has an edge or flange 53, capable of forming a coaxial pivot with said bearing 52. A hook 54 extends from the side of the first arm 46 opposite to the operating lever 17. In one embodiment, the edge of the application lever furthest from the operating lever it has the shape of a hook 54. Said hook 54 is designed to be applied with the free end of the joint 29 and, in in particular, it has a partial support surface 55a within the hook 54 for the free end of the joint or end 100 of rod support. Preferably, said hook 54 is tapered externally in such a way as to form an advance front to the application of joint 29 or, in other words, a surface 55b disposed on the outside of the hook 54 is inclined so as to facilitate the passage of the end 100 from the joint 29 to the hook 54. The connecting part 48 of the arms 46 and 47 of the application lever is delimited by a first edge facing the operating lever 17, forming a stop surface 56, and by a second edge, opposite the first, that forms the percussion piece 57 (figures 2, 3, 4, 5 and 6).

Said application lever 45 in the form of clamp houses the mobile contact 15 between its arms 46, 47. The mobile contact consists of a tilting bar comprising a first mobile contact arm 58 disposed at one end with one foot 59, designed to make electrical contact with the fixed contact 37. A slot 60 is designed, arranged in the center of the contact mobile 15, and elongated in an approximately transverse direction with respect to the mobile contact, to accommodate the single pivot 42. A second arm 61 of the movable contact 15 opposite the first arm 58, or operating arm 61, has a fork at its free end 62 forming a seat 63. The intermediate part 48 of the lever 45 in the form of a clamp is housed in said seat 63 of the fork 62. Thus, the operating arm 61 of the mobile contact may oscillate around the intermediate part 48 of the application lever 45, sliding the groove walls 60 on the single pivot 42. An extension 64 in the form of a pin emerges from the edge of the movable contact 15 opposite the lever 17 of operation, and is designed to guide the end of the media elastics 43 that constantly press the mobile contact 15 and the lever system 25 towards the open position of the circuit breaker 10. The mobile contact has an enlarged portion 65 provided with a tab 66, designed for the electrical connection of the mobile contact 15 with braiding 26.

A release lever 67 is arranged, facing mobile contact 15 and housed between arms 46 and 47 of the clamp-shaped application lever 45. In a embodiment, said release lever 67 is a tilting plate, freely rotatably connected with the single pivot 42, by means of a seat 68 formed, for example, by a through hole cross. In particular, the release lever 67 is located with a first arm 69 between said mobile contact 15 and arm 46 provided with the hook 54 of said application lever 45. A part 70, hook antagonist, of said type release lever tilting 67, extends from said first arm 69 in such a manner which interacts with the hook 54 of the application lever 45, to form a handle for the application and release of the end 10 of joint support 29. The term "handhold for application and release "indicates a device that forms, by middle of two semi-brackets that can be put on together, a support and thrust surface for the end 100 of the rod-shaped joint 29. In one embodiment, the edge of the plate that forms the release lever 67 is hook-shaped antagonist 70. Said antagonist hook 70 has a surface 71a partial support inside for the free end of the Joint 2 or end 100 support. Preferably said hook antagonist is tapered externally in such a way as to form an advance front for the application of the joint 29 or, in in other words, a surface 71b inclined so as to facilitate the passage of the end 100 of the joint 29 to the hook antagonist 70 is arranged outside the antagonist hook 70. An extension 72 of the first arm 69 of the lever 67 of release form, at the end of this lever opposite the lever 17 of operation, a top surface 73 that interacts with the mole surface 56 disposed in the application lever 45, to define a maximum closing position of the handle. The term "maximum closing position of the handle" indicates a position of the hook 54 and antagonist hook 70 forming an element of support and thrust for end 100 of joint 29. A second arm 74 of the rocker type release lever 67 is arranged in front of the first arm 69 with respect to the seat 68 of the single pivot 42. Said second arm 74 has an extreme part rounded 75, designed to interact with the device electrical protection 34 and open the handle and release the end 100 of the joint 29.

Elastic means 76 press constantly to said release lever 67, such that they carry their part 70 of antagonistic hook towards hook 54 of the application lever 45. For example, a bent spring 76 it comprises a helical part 77 from whose ends extend arms 78 and 79. Helical part 77 and arms 78, 79 are located parallel to the oscillation plane "P" of the system 25 levers A first arm 78 has a terminal part 80 of support located in the plane of the bent spring 76, and a second arm 79 has an operating terminal part 81, located orthogonally with respect to the plane of the bent spring 76. Said helical part 77 is installed on the edge 53 in the form of pin arranged on the second arm 47 of the lever 45 of application.

The terminal part 80 of the first arm of the folded spring 76 rests on the percussion piece 57 arranged in the middle part 48 of the application lever 45. The part 81 operating terminal of the bent spring 76, which emerges transversely with respect to the lever system 25, acts on the first arm 69 of the release lever 67, carrying the stop surface 73 of the extension 72 of this lever against the stop surface 56 of the intermediate part 48 of the lever 45 of application.

Advantageously, a drive lever 82 is interposed between the release lever 67 and the firing pin 39 of the electrical protection device 34. For example, the lever 45 application is surrounded by an operating lever 82 in the form of a cradle, comprising a grooved body 83 on whose wings 84 and 85 are provided through holes that form the seat 86 of the single pivot 42. Two curved parts are arranged 87 and 88 terminal at the ends of wings 84 and 85 facing each other to arm 58 of the movable contact 15 provided with the foot 59 for the electrical contact. Said curved terminal parts 87, 88 they have, on their outer lateral surfaces, means of application such as seats or sideburns facing each other in openings arranged in the side walls of the housing 11 in box shape These means of application make it possible to connect the leverage system 25 with the equipment placed adjacent to the circuit breaker 10, such as a second circuit breaker provided with a magneto-thermal release device or a differential circuit breaker In one embodiment, said lever 82 of drive is made from electrically material insulating.

The operation of a mechanism to operate a mobile contact of a circuit breaker automatic according to the present invention.

For a clearer understanding of Automatic circuit breaker operation, will be described initially the circuit breaker closing stages, followed by the description of the automatic release or automatic opening stages of the circuit breaker by action of the electrical protection device.

In the open position (figure 7), the circuit breaker 10 has its mobile contact 15 in a separation position with relation to the fixed contact 37. The mobile contact 15, pressed by the elastic means 43 interposed between it and the housing 11 in box shape, keeps the arm 61 operating against the stop surface 44 arranged in the rib 19, and also maintains the wall of the groove 60 against the single pivot 42. The end 100 of the joint 29 is housed in the groove formed by the hook 54 of the application lever 45 carried next to the hook antagonist 70 of the release lever 67 or, in other words, inside the closed handle formed by the hook 54 and the hook antagonist 70. Said handle is held in the closed position by the action of the bent spring 76, which, with part 81 of terminal of your second arm 79, constantly press the extension 72 of the release lever 67 against the surface stop 56 of the application lever 45. When the part is moved of the operating lever 17 emerging from the housing 11 in box shape (as illustrated by arrow "G" in the figure 8), end 100 is held against surfaces 55a and 71a of support of hook 54 and antagonist hook 70, respectively. When the rotation of the operating lever 17 continues, the action of the elastic means 32 acting on the lever and the action of the elastic means 43 acting on the mobile contact 15 are opposite. When the action of elastic means 32, 43 has been exceeded, the lever system 25 and the mobile contact are turned (as illustrated by arrow "H") until foot 59 of the mobile contact 15 is necessarily supported (as illustrated by the arrow I) against the fixed contact 37, forming the electrical contact desired closing circuit breaker 10. In the closed position of the circuit breaker, the operating member 28, which forms the mechanism tilting, is brought to the position below the center, making that the walls of the groove 60 of the movable contact 15 slide (as illustrated by the arrow "L") on the single pivot 42 and pre-loading foot 59 against the fixed contact. During the rotation of the lever system 25, the free end of the part of the joint 29 that is bent to form a end 100 of support, travels in a channel that is formed in the wall of a housing 11 in the form of a box, for example by means of two ribs 89 and 90, curved so that they follow the path to along which the handle travels (figure 8).

If electric device 34 is triggered protection, the firing pin 39 of the mobile electromagnet element emerges (as illustrated with the arrow "M" in Figure 9), until it rests and pushes the body 83 of the drive lever 82. After being pushed by the firing pin 39, the lever drive oscillates (as illustrated by arrow "N") around the single pivot 42, making the second arm 74 of the release lever 67 rotate (as illustrated with the arrow "OR"). When it rotates around the single pivot 42, the lever 67 release opens the handle (as illustrated with the arrow "Q"), raising the antagonist hook 70. The end 100 of the joint slides on the support surface 55a of the hook 54, allowing the mobile contact 15 and system 25 to rotate of levers, pressed by elastic means 43 (as illustrated with the arrow "S"), around the single pivot 42, until they rest against the abutment surface 44 arranged in the rib 19. When opening the handle formed by hook 54 and the antagonist hook 70, the operating member 28 is released or disconnected from the lever system 25, allowing the contact mobile 15 moves to a separation position with respect to the fixed contact 37 or to an open position of circuit breaker 10. The 25 lever system in the open position of the circuit breaker, no longer is affected by the firing pin 39. Due to the action of the spring folded 76, the release lever is carried with the hook antagonist 70 in proximity to hook 54, such that close the handle (as illustrated with the arrow "Z"). He operating member 28, pressed by elastic means 32 acting on the operating lever 17, retracts the end 100 of joint 29, which, guided by the ribs 89, 90, is carried against the inclined surfaces 55b and 71b of the hook 54 and antagonist hook 70 respectively, thus opening the handle and reinserting it into the groove formed by these parts

As can be seen from the description above, the present invention makes it possible to comply with the aforementioned requirement to simplify the construction of operating mechanism for an electric circuit breaker automatic.

In accordance with the present invention, the mechanism comprises a limited number of pieces, and therefore its assembly becomes simple and fast, and its maintenance becomes easier. The constructive simplicity of the proposed mechanism it also allows automatic assembly, for example using power lines automatic or robotic assembly.

The novel structural simplicity of mechanism according to the invention makes it possible to manufacture it with a very low cost

Due to the provision of plate levers flat, the main parts of the mechanism can be made through simple manufacturing processes, such as a process of die cutting.

The material used for the levers of flat plate must mainly meet the type requirements electric, thus proving cheaper than materials used in complicated manufacturing processes by casting in matrix.

The use of flat plate levers makes, advantageously, that the mechanism is compact and particularly light.

Consequently, the mechanism according to the invention makes it possible to obtain a quick automatic opening and reliable circuit breaker or, in other words, the circuit breaker is ready to react quickly to the release order received from The electrical protection device.

The circuit breaker provided with the agreement mechanism with the invention it is advantageously effective. In particular, for a given force exerted by the hammer of the electromagnet on the leverage system, the proposed mechanism provides an opening faster contacts.

Claims (17)

1. Operating mechanism of a mobile contact (15) for an automatic electric circuit breaker (10), comprising an operating member (28), a lever system (25) for the application of the mobile contact (15) with the member (28) for operation and for oscillation of the mobile contact (15) from an open position of the circuit breaker, separated from the fixed contact (37), to a closed position of the circuit breaker, with the mobile contact (15) in electrical contact with the contact fixed (37), as well as elastic means (43) that constantly press the moving contact (15) towards said open position of the circuit breaker, said lever system (25) interacting with an electrical protection device (34) to release the member ( 28) of operation, in which the levers of said lever system (25) are made of flat plates, said lever system (25) and the movable contact are freely supported for rotation in a single pivot (42), said yes Lever stema (25) comprises an application lever (45), with a body consisting of a flat plate bent as a clamp and said movable contact (15) is a swinging type bar, comprising a first arm (58) provided of a foot (59) for the electrical contact and a second operating arm (61), characterized in that said clamp-shaped application lever (45) houses said second operating arm (61) longitudinally between its arms (46, 47 ). 2. Mechanism according to claim 1, wherein said operating arm (61) of the mobile contact (15) it has at its free end a fork (62) that forms a seat (63) and a part (48) of said application lever (45) in the form of clamp is housed in said seat (63). 3. A mechanism according to claim 1, wherein the operating member (28) comprises an operating lever (17) to which the end of a joint (29) is connected to form a tilting mechanism, characterized in that a arm (46) of said clamp-shaped application lever (45) has, at a remote point to said operating lever (17), a hook (54) to accommodate the free end (100) of said joint (29) . 4. Mechanism according to claim 3, wherein said hook (54) has its tapered free end for form an advance front for joint application (29). 5. Mechanism according to claim 1, in which there are eyelets (49, 50) capable of housing the single pivot (42), at the ends of the arms (46, 47) of said clamp-shaped application lever (45). 6. Mechanism according to claim 1, wherein said lever system (25) comprises a lever (67) swing type release. 7. Mechanism according to the claims 3 and 6, wherein said rocker-type release lever (67) it has a part that extends to form an antagonistic hook (70) that interacts with the hook (54) of the lever (45) of application, to form a handle for application and release of the operating member (28). 8. Mechanism according to claim 7, wherein the free end of said part (70) of antagonistic hook is tapered to form a leading front for the application of the joint (29). 9. Mechanism according to claim 7, in which the operating member (28) is pressed constantly by elastic means (32), such that the joint (29) is pushed towards said handle for application and release. 10. Mechanism according to claim 9, housed in a housing (11) in the form of a box, in which said accommodation (11) has ribs (19) designed to guide the joint (29) towards said handle for application and release. 11. Mechanism according to claim 7, in which the release lever (67) is pressed constantly by elastic means (76), such that the part (70) of antagonist hook is carried towards the hook (54) of the application lever (45). 12. Mechanism according to claim 11, wherein said release lever (67) has an extension (72) provided with stop surfaces (73), which interact with the application lever (45) to define a closing position handle maximum 13. Mechanism according to claim 7, wherein said rocker-type release lever (67) has an arm (74) opposite to said part (70) of antagonistic hook with respect to the single pivot (42), said arm interacting (74) with the electrical protection device (34) to open the handle and release the operating member (28). 14. Mechanism according to claim 13, wherein the part (75) of said arm (74) that interacts with The electrical protection device (34) is rounded. 15. Mechanism according to claim 13, in which a drive lever (82) is disposed between the release lever (67) and the electrical device (34) of protection. 16. Mechanism according to claim 15, wherein said actuating lever (82) is supported freely for rotation on the single pivot (42). 17. Automatic electric circuit breaker (10), which It comprises an operating mechanism of a mobile contact (15) according to any one of the preceding claims.