DE2258607A1 - OVERCURRENT SWITCH - Google Patents

Description

Dr. Werner Haßler Lüdenscheid, November 29, 1972 - 8

PATENT ADVERTISER A 72 166

568 LGDENSCHEID
Asenberg 36 PO Box 1704

Applicant: Legrand company

128 Av. du Ml de Lattre de Tassigny 87 Limoges (Haute-Vienne) France.

Overcurrent switch

The invention relates to an overcurrent switch with a fixed Contact, with a movable contact lever, which is activated by elastic elements in the disconnection direction and thus in the lift position is biased with respect to the fixed contact, and with a switching device that on the one hand the movement and the retention of the movable contact lever in the switched-on position and on the other hand the release of the movable contact lever due to a release element such as a magnetic circuit, a bimetal release or the like ensures.

The field of application of the invention is in particular the protection of circuits in electrical installation networks and distribution networks.

The following requirements must be placed on an overcurrent switch: The space requirement must be as small as possible so that the overcurrent switch can be used in a wall of shallow depth or in a control cabinet shallow depth can be built in »On the other hand, the over Current switches have the highest possible disconnection capacity, because the installed connection capacities are getting bigger and bigger. The object of the invention is to solve these each other at the same time contradicting demands.

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This object is achieved according to the invention in that a shift lever on a pivot against the bias of a elastic element is pivotable and equipped with a profile curve that a locking pin in a fixed housing Slot guide and is held in contact with the profile curve by restoring elements and that a latching lever, which is pivotably held in its central area on the movable contact lever, on the one hand at one end latching profile cooperating with the locking pin and on the other hand can be acted upon by a trigger element.

The switching device of the overcurrent switch also has only a comparatively small number of individual parts. she can be kept spatially very small, which enables the use of an arc extinguishing chamber given the external dimensions. This increases the breaking capacity. The formation of contact erosion is reduced. Besides, the application is several tripping elements possible, which increases the operational safety of the overcurrent switch.

According to a preferred embodiment of the invention it is provided that the movable contact lever as a rigid contact lever formed and cooperates with a fixed contact, which is also designed as a rigid element. Farther it is provided that the movable contact lever on the housing or a housing extension with a pivot pin and a Slot guide opposite the contact plane ^ of the movable Contact lever with the fixed contact is inclined, is attached so that the return spring of the contact lever a displacement causes the contact point to the fixed contact. The return spring thus acts as a return element for the contact lever when lifting the contact lever and on the other hand to the preparation of the contact pressure in the closed position. On the one hand, this means a reduction in the number of components required for the overcurrent switch and on the other hand the use of a rigid one

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Contact love. This is more economical than using it of yielding contact levers. For the contacts of overcurrent switches high-quality materials are required anyway.

The inclination of the sliding guide in relation to the contact plane ensures self-cleaning «This is also ensured by the The return spring for the contact lever causes the contact lever to slide over the fixed mating contact in the closed position. As a result, the contact quality is retained over time.

A preferred embodiment of the invention is described below explained with reference to the accompanying drawings, in which:

1 shows an overcurrent switch in closed position j with the housing half removed, partially I. on average, i

a detail of FIG. 1 on an enlarged scale,

a perspective partial view of various elements of the overcurrent switch on an enlarged scale,
a partial section along the line IV-IV in

Fig. 1,

a partial view in the direction of arrow V of the Fig. 1,

a perspective partial view in the direction of arrow VI of FIG. 1,

a partial view corresponding to FIG. 1 for the tripping position of the overcurrent switch and

FIG. 8 is a partial view corresponding to FIG. 1 to explain the release release.

The overcurrent switch according to the invention is completely enclosed in a housing 10. The underside of this housing is designed as a clamping plate 11 which efestigung for egg ne

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Fig. 2 Fig. 3 Fig. 4th Fig. 5 Fig. 6th Fig. 7th

of the overcurrent switch on an equilateral flange rail is determined. This clamping plate can also be used for a different type of fastening of the overcurrent switch to any carrier be trained.

At a distance from this clamping plate 11, the housing 10 forms a parallel to the clamping plate aligned chamber 12, which the Switching device 13 of the overcurrent switch receives.

Subsequent to the clamping plate 11, a first connection terminal 14 is arranged next to one another on the outside of the device. housing, which is electrically connected to a fixed connection contact 15 connected within the housing, an arc extinguishing chamber 16, a bimetallic strip 17 and a second connecting terminal 19 on the outside of the housing 10. The arcing chamber 16 contains deionization plates 20, which in the illustrated embodiment run inclined to the clamping plate 11, for example. This known arrangement allows either, with the same size of Arc extinguishing chamber to reduce the height of the same and thereby the available height for the chamber 12 to accommodate the To enlarge switching device 1j5 and the corresponding release elements or longer with the same size of the switching chamber Use deionization chambers and thus a larger one To achieve volume of the arc extinguishing chamber 16; you can also combine both options.

This inclined arrangement of the deionization plates also allows better centering of the fixed contact and the movable one Contact lever opposite the arc extinguishing chamber 16. Of course, the deionization chambers 20 can also be used Arrange perpendicular to the clamping plate 11.

The connection terminal 19 has a leg 21 which, within the housing 10, has two lateral claws 22 for entrapment in said housing. These claws 22 form a pivot bearing and enable the leg to be deformed

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under the influence of an adjusting screw 23? which in a threaded hole 24 of said leg engages, see Figs. 1 and 5. The leg 21 carries the bimetallic strip 17, which is welded on, for example is. The position of this bimetallic strip can be adjusted with the aid of the screw 23. So is the bimetal strip 17 with one end directly to a connector 19 connected.

The bimetal strip 17 forms a first trigger element. A second trigger element, namely a magnetic circuit 18, is over the arc extinguishing chamber 16, arranged between the same and the switching device 13.

The core 26 of the magnetic circuit 18 is displaceable parallel to the clamping plate and is in the starting position by a spring 4-6 biased. The winding 27 for controlling the magnetic circuit is electrical on the one hand via a line 28 with the bimetallic strip 17 and, on the other hand, connected to a metal housing which serves as a carrier for the magnetic circuit 18. At At its free end, the core 26 has a slot 47 »Fig. 3 ·

The arrangement of the deionization plates 20 is separated by similar pole plates 30 and 31. The pole plate 30 is electrical connected to the fixed contact 15 and forms an extension of the same. The pole plate 31 is electrical with the metal case 29 of the magnetic circuit 18 and forms a stop 36 for the metal housing 29.

The pole plates 30 and 3 ^ are also electrically connected to the respective adjacent deionization plates connected. For this purpose, a respective tongue 32 is used, which by cutting open a Opening 33 is formed in the pole plate concerned. This] tongue is bent up so that one can make contact with the associated Deionization plate received, Figs. 1 and 6.

The pole plates 30 and 31 each have one at the lower edge

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Cutout 34 which is aligned with a labyrinth channel 35 which is incorporated into the housing 10. This labyrinth canal serves to connect the arc extinguishing chamber 16 with the outside space.

The fixed contact 15 is curved. In the space left free as a result, a core 37 made of soft iron is inserted.

A movable contact lever 40 is assigned to the fixed contact 15, which is hinged to the housing 10 or a projection or a carrier connected to the same. For this a swivel-slide connection is provided. The movable contact lever 40 carries a pivot pin 41 which is pivotable and is slidably received in a slot guide 42 fixed to the housing. This slot guide 42 is inclined towards of the clamping plate 11. This inclination of the slot guide 42 is more or less significant for the desired self-cleaning. It can also be vanishing.

The slot guide 42 can be designed as an opening in the housing wall. A reverse arrangement can also be provided, where the movable contact lever has a guide slot which cooperates with a fixed pivot pin .

The contact lever 40 ends in a U-bend 43 which cooperates with the fixed contact 15. In a middle area 3, a breakthrough 44 is provided which engages over the core 26 of the magnetic circuit 18. From this breakthrough 44 a slot 45 goes out. At the other end of the contact lever 40 a line piece 48 is attached, which establishes an electrical connection with the housing 29 of the magnetic circuit 18. Of the Contact lever 40 is subject to the action of a spring 49 which ihjn in the lifting direction from the fixed contact 15. Fig. 1 shows a compression spring on the housing 10 or on a Attachment is supported by a neck or a carrier

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goes out within the housing 10.

The switching device 13 has a switching lever 50, a latching lever 51 and a locking pin 52 * The switching lever 50 is pivotably arranged on a pivot 53 which is aligned with the center of the clamping plate 11. A leg spring 54 biases the shift lever 50 in the off position. One leg of this leg spring rests on a nose 551 fixed to the housing &&? other legs to a nose 56 which is firmly connected to the shift lever 50. According to FIG. 4, the switching lever 50 has a slot 58 into which the corresponding end of the latching lever 51 and a sliding slide 59 engage, which for this purpose has a central longitudinal web. This sliding slide 59 acts on the latching lever 51 under the pretension of the bimetallic strip 17. The sliding slide 59 is also guided in a passage in the housing 29 of the magnetic circuit 18. In its central area, the latching lever 5I is pivotably mounted on a pin 63 ′, which is received in two eyes 64 of the contact lever. The latching lever engages with one end in the slot 45 of the contact lever 40 and in the slot of the core 26; this end of the latching lever 51 is thus enclosed on the one hand between a pin 66 which crosses the core 26 perpendicular to the slot 47 and on the other hand by the rear wall 67 of this slot, which forms a support. The pin 66 is thus a support, so that the core 26 can transmit a tensile force both to the latching lever 5I and to the contact lever 40.

At the other end, the latching lever 51 has a latching profile 70 which cooperates with the locking pin 52. This locking pin 52 is on the one hand in a slot guide 71 t DI® i ⁿ the housing 10 or is formed of the same in batches, and management on the other hand in a slot 72 ^ of the shift lever 50 slidably. The edges of the slot guide 72 form profile guides 74A and 74B ₅ which form a Ruckste11element for the latching lever. the

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Slot guide 72 ends in a latching profile 75. Instead, you can also use a single guide profile on which the locking pin 52 is held in abutment by elastic elements.

In the latched switched-on position according to FIG. 1, the spring 49 acts via the contact lever 40 on the latching lever 51 »egg is pivotably arranged on the contact lever 40. The line of action of the force has a component of the longitudinal axis of the latching lever _{in the direction of arrow F 1 in FIGS.} The same in turn lies in the latching profile 75 of the slot guide 72 of the switching lever 50. As a result, the switching lever is latched in the switched-on position, counter to the action of the leg spring 54, the. biases it in the off position.

The overcurrent switch is tripped by the core 26 of the magnetic circuit 18, which is displaceable against the action of the spring 46 or by the bimetallic strip 17 or by a Manual operation of the shift lever 50.

When triggered by the core 46, the pin 66 transmits a tensile force to the end of the latching lever _{51 and thus pivots the same about the pin 63 in the direction of arrow F 2 of FIG.} The contact lever 40 pivots under the bias of the spring 49 about the pin 41; the U-bend 43 lifts off the fixed contact I5. This lifting is accelerated by the pin 66 of the core 26, which also exerts a pulling effect on the contact lever 40.

At the same time, the shift lever 50 is no longer through the locking pin 52 held. As a result, it pivots on its axis 53 in the direction of arrow F, according to FIG. 1,

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until it comes to the switch-off position according to Fig _# 7.

In this off position, the contact lever 13 is on the Stop 36 of the pole plate 31.

When triggered by the bimetal strip 17, the same pushes the slide valve 59 back. This in turn presses on the latch lever 51, which pivots about its pin 53. This results in the same sequence of movements as described above, in progress.

Finally, in the event of a manual release, the locking pin 52 is turned in the direction of the arrow when the switching lever 50 is pivoted F "Fig" 1, pushed out of the east profile 75 of the slot guide 72; the profile 74-B at one edge of this slot guide causes a displacement of the locking pin in the fixed slot guide 71 towards the end that the Pivot 53 of the shift lever is closest. As a result, the latch lever 51 follows under the tension of the spring 4-9 the locking pin 52, so that the contact lever 40 lifts off the contact 15. '

In any case, the spring 46 holds in the release position according to FIG. 7 the core 26 with the rear wall 67 of the slot 47 in contact with the latch lever 51. The same is so resilient on the Locking pin 52 held in contact by the elastic bias of the core 26. After a, non-daring ~ Another modification of the invention is the latching lever 51 equipped with elastic return elements, for example with a leg spring on the pin 63.

The overcurrent switch is switched on again by Pivoting of the shift lever 50 in the direction of the arrow F ^ after Fig. 7.

The profile 74A of the slot guide 72 shifts the

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locking pin 52 within the slot guide 71 against the Pivot pin 63 of the latching lever 51 out. With this shift the locking pin 52 comes in turn with the latching profile 70 of the latching lever 51 into engagement. With further displacement, the latching lever pivots the contact lever 40 about the pivot pin 41 until the latter is in its switched-on position according to Fig. 1 reached.

After the U-bend of the shift lever 40 with the fixed contact 15 comes into engagement, a self-cleaning of the contact surface takes place by shifting the contact point of the contact lever with respect to the fixed contact. Because the pivot pin 41 of the Contact lever 40 slides in inclined slot guide 42.

The core 37 made of soft iron is produced when the contacts are lifted off an additional field that favors the extinction of the arc between the contacts.

The labyrinth channels 35 allow a pressure equalization in the arc extinguishing chamber 16 by the shutdown gases that are at the separation of contacts form, escape into the atmosphere. The outflow of this gas in the foot area of the deionization plates 20 arises, is promoted by the fact that the pole plates 30 and 31 are each electrically connected to the neighboring Deionization plates 20 are connected. As a result, no arc occurs between these pole plates and the neighboring ones Deionization plates on. They thus jointly form channels for a free outflow of the gas in question.

It is noteworthy that the overcurrent switches have only a minimum number of items, in particular as a result of the direct attachment of the bimetallic strip 17 to the terminal 19 without additional fasteners. The action of the core 26 with the pin 63 also contributes to this the shift lever 40 and at the same time on the latching lever

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_ 11 _ '

51 at. It is also based on the fact that an elastic element simultaneously provides the restoring force for the core 26 and for the latching lever 51 *

The parts of the fixed contact and the movable contact lever that come into contact with one another are each curved. So that they are in Einsehaltst.ellung starting from the point of contact from each other ₀ In firing position of FIG. Is a switching is not possible, even when an operator holds the lever 50 in _switched-o

The latching lever is balanced around its pivot pin 63, i.e., pivot 63 is in the center of gravity of the latching lever. This increases the moment of inertia and, consequently, the opening time of the movable contact lever degraded.

In the overcurrent switch according to the invention, the axis lie of the switching lever, the locking pin and the pivot axis of the latching lever both in the switched-on position and also in the lifting position on a straight line «, this is essential for the functional reliability of the arrangement. This arrangement also favors a better distribution of the switching device within the housing «, because the shift lever can easily be placed over the middle of the clamping plate facilitates the installation of the overcurrent switcho The outside view of the housing and the shift lever is symmetrical. This improves the appearance of the arrangement

The overcurrent switch according to the invention is compact and space-saving. With the same space requirement, he has a larger available interior space for the installation of various individual parts ο

The return spring 4-9 for the contact lever 40 represents the Abj lift and in the closed position the contact system and the

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necessary contact pressure between the contact lever 40 and the contact 15 ensures. These two contact elements can be used as rigid parts, so inelastic, be formed.

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Claims (16)

P a t e η t a η s ρ r ü c h e 1. Overcurrent holder with a fixed contact, with a moving one Contact lever, which by elastic elements in the disconnection direction and thus in the lift position compared to the fixed Contact is biased, and with a switching device, which on the one hand the movement and the ffesthaltung of the movable Contact lever in the switched-on position and, on the other hand, the release of the movable contact lever due to a release element such as a magnetic circuit, a bimetallic release or the like ensures, characterized in that a switching lever (60) pivotable on a pivot pin (53) against the bias of an elastic element (54-) and with a profile curve (72) is equipped that a locking pin (52) in a housing-fixed slot guide (51) and by return elements is held in contact with the profile curve (72) and that a latching lever (51) * is in its central area is held pivotably on the movable contact lever (4-0), on the one hand at one end a with the locking pin (52) cooperating latching profile (70) and on the other hand can be acted upon by a release element (26 or 59). 2. Overcurrent switch according to claim 1, characterized in that that the pivot pin (53) of the shift lever (50) ,. the locking pin (52) and the pivot pin (63) of the Verklihkungshebel (51) lie essentially on a straight line. 3. Overcurrent switch according to claim 1 or 2, characterized in that that the switching lever (50) has a second slot guide (72) for the locking pin (52), the said. Profile curve and the restoring elements forms. 4. Overcurrent switch according to one of claims 1 to 3, characterized in that a side surface of the housing (10) of the Overcurrent switch is designed as a clamping plate (11) for attachment to a support device that in the vicinity of the 309823 / 08U _ 1 A- - Clamping plate (11) within the housing (10) an arc extinguishing chamber (16) is arranged with deionization plates (20), that the switching device (13) is on the side of the housing opposite the clamping plate (11) at a distance therefrom is located and that the triggering device is a magnetic circuit (18) between the deionization chamber and the switching device comprising a magnetic core (26) which is displaceable against the action of an elastic restoring device (4-6) essentially operated parallel to said clamping plate (11). 5. Overcurrent switch according to claim 4, characterized in that that the magnetic core (26) has at one end an actuating element which is used to transmit a tensile force to the movable Contact lever (4-0) is suitable. 6. Overcurrent switch according to claim 4, characterized in that that the magnetic core (26) at one end has an actuating element which is used to transmit a tensile force to the Latching lever (51) is suitable. 7. Overcurrent switch according to claim 5 and 6, characterized in that that said actuating elements are realized by a single pin (66) which extends in the transverse direction in the core (26) is inserted near said end. 8. Overcurrent switch according to one of claims 4 to 7, characterized characterized in that the core (26) has an actuating element (67) for transmitting a compressive force to the latching lever (51) possesses, whereby the elastic Ruckste11element (46) of the Core (26) is also effective as an elastic return element for the latching lever. 9. Overcurrent switch according to one of claims 4 to 7, characterized characterized in that the latching lever (51) is an elastic Has reset element. 309823/0814 1258607 10. Overcurrent switch according to one of claims 1 to 9? .Due to this characterized in that a bimetal strip is used as a trigger element (17) is provided which acts on the latching lever (51) by means of a slide (59). 11. Overcurrent switch according to one of claims 1 to 10, characterized characterized in that a compression spring (4-9) is provided as a biasing element for the movable contact lever (40), 12. Overcurrent switch according to one of claims 4 to 11, characterized in that the arc extinguishing chamber (16) is a package Contains deionization plates (20) and on both sides of the same pole plates (30, 31), the pole plates each having one Cutout (34) as a passage to a labyrinth channel (35) of the housing (10). 13. Overcurrent switch according to one of claims 4 to 12 “thereby characterized in that the fixed contact (15) and the movable contact lever (40) are each electrically connected to the associated terminal Deionization plates are connected. 14. Overcurrent switch according to claim 12 and 13 »characterized in that that the electrical connection between said contacts and the associated deionization plates via the associated pole plates (31-31) takes place, each a contact tongue for the adjacent deionization plate wear. 15. Overcurrent switch according to one of claims 1 to 14, characterized characterized in that the profile curve (72) of the shift lever (50) a latching profile (75) for holding the locking pin in place (52). 16. Overcurrent switch according to one of claims 1 to 15? through this characterized in that the movable contact lever (15) as 309823 / 06U rigid contact lever and with a fixed contact (15) cooperates, which is also designed as a rigid element. 17 · Overcurrent switch according to one of claims 1 to 16, characterized in that the movable contact lever (40) on the Housing or a housing extension with a pivot pin (4-1) and a slot guide (42) opposite the contact plane of the movable contact lever is inclined with the fixed contact, is attached so that the return spring (49) of the contact lever (40) causes a displacement of the contact point on the fixed contact. 309823 / 08U