DE10129176C1 - Multi-pole switch for collector rail system has cover fitting over fuses provided with stop acting as counter-bearing for switch operating lever - Google Patents

Abstract

The multi-pole switch has switch contacts (6) positioned in a row across the collector rail system within a housing (1,2), a fuse (21) associated with each switch contact, all switch contacts operated by a common slider (5) and a pivoted operating lever (8). A cover (11) is hinged to the housing for covering the fuses and has a stop (38) acting as a counter-bearing for the operating lever in the closed position.

Description

The invention relates to a multi-pole switching device for use on busbar systems, with fuses and arranged in a row across the busbar system, in one ge Switch contacts mounted in the housing, with each fuse contact assigned fuse, the Switch contacts can be actuated via a common slide mounted in the housing means of a pivotally mounted actuating lever is displaceable.

In such a switching device, the fuses serve in particular for overload and short circuit protection. Cylindrical fuses are preferably used in the switching device.  

A multi-pole switching device of the type mentioned is known from DE 299 13 698 U1. Since such switching devices are also operated by laypeople, to avoid incorrect operation and loading To prevent damage to the device, suggested that it be a combined switching and blo Has ckiervorrichtung. This consists of an operating lever between an one switch and an off position is switchable back and forth, an actuator assembly for Switching switching contacts of the switching device, the actuating arrangement between egg ner contact and an interrupt position can be switched back and forth, a blocking device device for each switch fuse unit for blocking the actuation arrangement in the sub break position and a locking device for locking the fuse link in one Working position, wherein the locking device between a locking position and a free switch position is switchable back and forth.

Such a switching device is structurally extremely complex and therefore, not least because of the com complicated assembly of the individual parts, very expensive. It is also based on the principle that Block the start-up process. The precisely definable force that the user has is problematic to switch on, as this is within the discretion of the user. A break in the Blocking device can lead to security problems.

From DE 12 73 033 B is a fuse distribution strip for a cable distribution cabinet knows, which has a slidable pivot lever, which takes out a scarf Prevented carriers and fuses prevented.

EP 0 418 206 A2 describes a multi-pole switching device for use on busbar systems described in which a hook attached to a slider is provided, which one Lid holds when the switch is closed.

The object of the invention is a structurally simple and inexpensive to manufacture switching device to create, which dispenses with a blocking device and in which the operating lever only can then be used effectively when the switching device is in a defined state located.

The problem is solved in a switching device of the type mentioned in the introduction that a Hood for covering the fuses is pivotally mounted in the housing and the actuator supply lever is slidably mounted in the direction of adjustment of the slide in the housing, a  Stop on the hood in its closed position as a counter bearing for the operating lever for the purpose of fixing it in the direction of adjustment of the slide.

The invention is based on the knowledge that in addition a hood for covering the Si fuses should be used, the hood in its closed position the counter bearing forms for the operating lever. If the hood is not closed, the operating lever cannot work ne effective force transferred to the slide, with the result that the switch contacts are not in their closed position can be transferred. Only when the hood is in the clasp position,  thus nothing stands in the way of switching the switching contacts on or off the actuating lever, the actuating force for actuating the slide can be initiated. The hood thus forms the part of the bearing point for the actuating lever or Switch toggle that forms the force pad when switched on or when switched on. The The device is switched on when the hood is open due to the missing mechanical assignment of the Hood to the thrust bearing of the operating lever or shift knob prevented.

To achieve this function, it is essential that the operating lever in the direction of the Slider is slidably mounted in the housing. In the closed position of the hood, the Stop of the hood moving the operating lever in the direction of the slide, so that the actuating lever can transmit the actuating force to the slide when swiveling. For this is the actuating lever in the region of its pivot axis, for example with a control cam Mistake.

Preferably, a spring is provided, which in the switch-on direction when the slide is moved the slide is biased. This spring in particular the opening movement of the Slider supports and also the operating lever, which is form-fitting with the slide cooperates in a defined direction, based on its degree of freedom in the direction of the Slider, preloaded. The spring is useful between the housing and one with the loading actuating lever cooperating slide part arranged.

The mounting of the actuating lever can be realized particularly easily if the housing an elongated hole arranged in the direction of movement of the slide or a pair of parallel elongated holes cher for receiving a bearing shaft of the actuating lever. The one on the operating lever adjacent to its pivot axis cam or shift approach is closed Hood at their stop.

The actuating lever also has a functional function, the hood in its closed position Lock position. For this purpose, the actuating lever should be provided with a shoulder that at closed cover engages behind a projection on this.

Further features of the invention are so in the claims, the description of the figures as shown in the figures themselves, it being noted that all features and combinations of individual features are essential to the invention.

In the figures, the invention is illustrated using an exemplary embodiment, without this to be restricted. It shows:

Fig. 1 is an exploded view of the switching device according to the invention,

Fig. 2 is a perspective view of the switching device shown in Fig. 1, with the housing front part,

Fig switch contacts a longitudinal center section located through the switching device, with an open cover and in the open position. 3,

Switch contacts located, the switching device in the sectional view of FIG. 3, but with the cover removed and in switched-on Fig. 4,

Fig. 5 shows the area of the switching device with the operating lever in egg ner enlarged view shown in Fig. 4,

Fig. 6 in Fig. 5 illustrated in the circular sector bearing region of the actuating lever in an enlarged representation,

Fig. 7 is an illustration of the switching device according to FIG. 5, but with the hood and not closed

Fig. 8 is an illustration of the switching device according to FIG. 7, but clarified in the open position of the actuating lever.

The device has a housing divided in the longitudinal direction of the device with the housing parts 1 and 2 . The two housing parts 1 and 2 can be plugged into one another, so that the housing can be formed in this way. The housing parts are made of plastic and are formed as an injection molded part. They each have three foot-like fastening hooks 3 for attachment to three rectangular busbars 4 of a busbar system. In the longitudinal direction of the housing parts 1 and 2 , thus oriented perpendicular to the longitudinal extent of the busbars 4 , a slide 5 is inserted into the housing between the two housing parts 1 and 2 . This serves to accommodate three switch contacts 6 . Each switch contact 6 is assigned to a phase and is designed as a metal plate which is arranged perpendicular to the sliding direction of the slide 5 . The Plat te is guided perpendicularly to the plate plane with play in the slide 5, and is biased by a compression spring mounted in the slider S 7 in closing direction of the slider. 5 The slide 5 is displaced by means of an actuating lever 8 which is pivotably mounted in the two housing parts 1 and 2 . On the side of the housing facing away from the actuating lever 8, a cover 11 is pivotably mounted in the two housing parts 1 and 2 . In the closed position of the cover 11 , the actuating lever 8 can be pivoted to transfer the switching contacts 6 into the switch position, with a web 15 on the actuating lever 8 engaging behind a shoulder 16 on the cover 11 when the device is switched on, so that it is in this position of actuation Cleaning lever 8 can not be opened.

The nested housing parts 1 and 2 also serve to accommodate three threaded sleeves 17 with terminals 18 . Each threaded sleeve 17 is assigned to a busbar or a phase and is used for screwing in a screw cap 19 for the purpose of conventional conductive contacting of the head 20 of a cylindrical fuse 21 inserted into the screw cap 19 . These relationships are best seen in the illustration in FIG. 3, where the sectional illustration of the right fuse 21 is shown .

Two movable fixed contacts 22 and 23 are positioned between the respective cylindrical fuse 21 and the associated fastening hook 3 or associated busbar 4 . Both fixed contacts 22 and 23 are perpendicular to the level of the busbar system, thus in the screwing or unscrewing direction of the respective fuse 21 movably in the housing 1 and 2 set or guided. The fixed contacts 22 and 23 of each phase are arranged in mirror image and have central contact sections 24 and 25 , which are arranged parallel to one another and serve to contact the busbar 4 or the foot contact 26 of the respective fuse 21 . Between the contact sections 24 and 25 , a non-conductive spacer 27 is arranged. The sections of the fixed contacts 22 and 23 facing the respective switching contact 6 are angled outwards with respect to the axis of symmetry of the fixed contacts, so that contact sections 28 are formed which can be brought into contact with the assigned switching contact 6 . Lugs 29 on the slider 5 prevent the respective switching contact 6 from being pressed by the compression spring 7 in the switched-off position of the switching device against the contact sections 28 of the fixed contacts 22 and 23 . The contact sections 28 engage behind regions of the housing parts 1 and 2 arranged perpendicular to the busbar plane. The sections 30 of the fixed contacts 22 and 23 facing away from the contact sections 28 , which are floatingly supported in the housing parts 1 and 2 , accommodate a sliding spacer element 31 between them. In principle, this element could also be part of the housing, but this would impair the function of the floating contact of the fixed contact 22 .

The actuating lever 8 serving to adjust the slide S is held radially without play in a bearing pin 36 passing through a bore in the actuating lever, which in turn engages in elongated holes 37 in the housing parts 1 and 2 on both sides of the actuating lever 8 . These elongated holes 37 are oriented in the direction of adjustment of the slide 5 . In the area of the bearing pin 36 , the actuating lever 8 is provided with a cam 9 which engages in a transverse groove 10 of the slide bers 5 . The cover 11 is provided in the region of its end having the attachment 16 with two attachments 38 which, when the cover 11 is in the closed position, protrude into the housing, specifically in the gap 39 which is between the housing and the actuating lever 8 in the region of its bearing pin 36 educated.

The mode of operation of the switching device according to the invention is as follows:
When the cover 11 is open and thus when the switching contacts 6 are open, the device is plugged onto the three busbars 4 , the three fastening hooks 3 engaging behind the busbars 4 . Then the screw caps 19 , which take the cylindrical fuses 21 , are screwed into the threaded sleeves 17 , the contact section 25 of the fixed contact 23 being contacted and screwed in the direction of the busbar 4 when the foot contact 26 of the respective fuse 21 is screwed in. As a result, the spacer element 27 is also displaced and presses on the contact section 24 of the other fixed contact 22 . About the screwing process of the respective fuse 21 thus the tension of the fixed contact 23 to fuse 21 and the fixed contact 22 to the busbar 4 is reached. After screwing in the screw cap 19 with the fuses 21 , as shown in FIG. 3, the cover 11 is closed, whereby, as can be seen in particular in FIGS. 5 and 6, the lugs 38 of the cover 11 assume a position , in which they form the abutment for a cam-like region 41 of the actuating lever 8 adjacent to its pivot bearing and prevent the bearing axis of the actuating lever 8 , realized by the bearing pin 36 , from moving in the longitudinal direction of the elongated hole 37 or the elongated holes. When pivoting the actuating lever 8 from the position shown in FIG. 3 into the position shown in FIG. 4, the slide 5 is displaced by means of the cam 9 of the actuating lever 8 and the respective plate-shaped switching contact 6 under the action of the compression spring 7 contacts the two contact sections 28 of the fixed contacts 22 and 23 . The aforementioned movement of the slide 5 takes place against the force of the compression spring 40 acting between it and the housing. The device is thus in the switched-on state, which is illustrated in FIG. 4. From the respective busbar 4 , the current flows via the fixed contact 22 and the switching contact 6 to the fixed contact 23 , from there via the fuse base 26 through the fuse to the fuse head 20 and the conductive area of the screw cap 19 to the threaded sleeve 17 and from the connecting terminal 18 via a connected one Lead to the consumer.

FIGS. 7 and 8 illustrate in comparison with the situation shown in FIG. 5, the two, but when the cover 11 is not in its closed position difference union end positions of the actuating lever 8. FIG. 8 a illustrates the conditions in ge preopened cover and in the open position located switch contacts and in the open position be findlichem operating lever 8. The compression spring 40 holds the slide 5 in a position in which it rests on the housing and holds the switch contacts in the open position. Here, between the actuating lever 8 and the housing parts 1 , 2, the gap 39 for inserting the sets 38 on the cover 11 is formed. If the actuating lever 8 is inadvertently transferred to its closed position without the covering hood being in its closed position, as is illustrated in FIG. 7, this leads to the actuating lever 8 being supported on the housing parts 1 and 2 during pivoting, but due to the eccentricity of the actuation lever 8 in its storage area, the actuating lever 8 moves exclusively in the direction of the adjacent fuse 19 facing the end of the elongated hole 37 without the switching process occurring.

After plugging the device onto the busbars 4 is used in the housing parts 1 and 2 pivotable about an axis 32 element 33 to fix the device relative to the Sam melschiensystem. For this purpose, an extension 34 of the element 33 engages behind one of the busbars 4 on its side facing away from the fastening hook 3 . As illustrated, a further extension 34 can be provided, which serves to fix a busbar that is wider than that shown in the exemplary embodiment.

Claims (8)

1.Multipolar switching device for use on busbar systems, with fuses ( 21 ) and in a row arranged transversely to the rail system, in a housing ( 1 , 2 ) ge switch contacts ( 6 ) with each switch contact ( 6 ) associated fuse ( 21 ), where are operable upon the switch contacts (6) on a common, in the housing (1, 2) slide-mounted (5) which, by means of a pivotably in the housing (1, 2) actuating mounted lever (8) displaceable characterized in that a hood (11) is pivotally mounted in the housing (1, 2) is mounted which serves to cover the fuses (21), and the actuating lever (8) in the direction of adjustment of the slide (5) is displaceably mounted in the housing (1, 2) , wherein a stop ( 38 ) on the hood ( 11 ) in its closed position serves as a counter bearing for the actuation lever ( 8 ) for the purpose of fixing it in the direction of adjustment of the slide ( 5 ). 2. Device according to claim 1, characterized by a spring ( 40 ) which biases the slide ( 5 ) in its switched-on position in the switched-on position of the switching contacts ( 6 ). 3. Apparatus according to claim 2, characterized in that the spring ( 40 ) between the housing ( 1 , 2 ) and a part of the slide ( 5 ) cooperating with the actuating lever ( 8 ) is arranged. 4. Device according to one of claims 1 to 3, characterized in that the housing ( 1 , 2 ) an elongated hole ( 37 ) arranged in the direction of movement of the slide ( 5 ) or a pair of parallel slots ( 37 ) for receiving a bearing shaft ( 36 ) of the actuating lever ( 8 ). 5. Apparatus according to claim 4, characterized in that the actuating lever ( 8 ) adjacent to its pivot axis ( 36 ) is provided with a switching projection ( 9 ) which engages in a sliding groove ( 10 ) arranged transversely to the switching direction of the slide ( 5 ). 6. Device according to one of claims 1 to 5, characterized in that when the hood ( 11 ) is closed, its stop ( 38 ) contacts the actuating lever ( 8 ), in particular a cam-like region ( 41 ) adjacent to the pivot axis ( 26 ) of the actuating lever ( 8 ). 7. Device according to one of claims 1 to 6, characterized in that the actuating lever ( 8 ) in its position corresponding to the switched-on position of the switching contacts ( 6 ) blocks the cover ( 11 ) in its closed position. 8. Apparatus according to claim 7, characterized in that the actuating lever ( 8 ) has at least one extension ( 15 ) which can be brought into a rear engagement position with a projection ( 16 ) from the cover hood ( 11 ).