EP2562779A1 - Closable side lever drive of an electric switcher device - Google Patents

Abstract

The drive (100) has a handling system (120) having a lever (125), a handle base (121) comprising locking openings (122,126) respectively. A coupling element (140) is provided for coupling the electrical switching device (200) with handling system. The locking openings are arranged in such a manner that shackle of a shackle lock is passed through two locking openings only if lever is in OFF position. A closure plate is arranged to block locking openings for passage of shackle if switching contacts are not separated.

Description

The invention relates to a side lever drive of an electrical switching device.

Electrical switching devices usually have handles, e.g. in the form of switching knobs or handles, on, with the help of the switching device can be manually switched on or off. For safety reasons, these switchgear must be able to be secured in the OFF position against inadvertent switching on in certain applications. For this purpose, such switching devices usually features that allow to complete the handle by means of one or more U-locks in the OFF position.

Such electrical switching devices usually have a mechanical switch lock. The switch lock includes a lever system and switch contacts, at least one of which is movable. To switch on the switch contacts are guided to each other until they touch. To compensate Kontaktabhebekräften, which may be caused by electromagnetic forces at current flow, such switching devices include means for applying a contact pressure force. To shut off the contacts must be lifted against this contact pressure force each other. In order to ensure that the contacts do not fall off again after lifting and the switching device unintentionally switches on again, such switching devices usually have means with which, when switched off, a force is exerted on the switching contacts which keeps them open. These forces only act until the contact system has reached a tipping point during the switching process. To turn on or off the lever system must be moved in the switching movement against the hold open or contact pressure to the tipping point. If the switching device can be switched, that is, if the switching contacts are not blocked, for example by welding, the respective switching movement is overcome the tipping point automatically and driven by the forces that arise from the electrical switching device itself, such as the contact pressure force or the holding force until the contact system has reached a stop.

There are applications in which the electrical switching device is permanently mounted in a control cabinet and must be operable from the outside when the control cabinet is closed. Remote drive systems such as side levers and door drives serve this purpose. The conventional side lever drives in the USA are drives for electrical switchgear that are permanently mounted in a control cabinet. In this case, such switching devices can be mounted on the rear wall of the cabinet. For example, is from the US 5,973,279 a remote drive mechanism is known, with which by means of a flexible cable as a transmission element and a lever which is mounted as a handle outside the cabinet, as well as an operable with the flexible cable coupling element which connects the handle of the electrical switching device with the transmission element, one on the rear wall in Inside a control cabinet mounted switching device can be turned on or off even when the control cabinet is closed from outside the cabinet.

Instead of using a flexible cable as a transmission element and the use of a corresponding linkage is conceivable. Such sidewall drives are marketed by the applicant as an accessory for circuit breakers and disconnectors. Because of the fixed linkage, the electrical switching device must always be installed in the control cabinet so that there is no other device between the electrical switching device and the side wall of the control cabinet.

In the aforementioned devices, an additional locking of the electrical switching device prevents that when the electrical switching device, the cabinet door can be opened and that when the door is open, the electrical switching device can be turned on. The latter function can be bypassed eg for maintenance purposes by trained personnel.

Known side lever drives, in which the electrical switching device can be located further away than in the immediate vicinity of the handle of the remote control are not suitable due to their design and thus the size and length of the lever arms or transmission elements, the European standards (IEC) with respect to a safe Switch position indication and lockability in the safe state, that is to say in the OFF position of the switch contacts. The display must not indicate OFF if the switching device itself is not in the OFF position and no more operating force is applied. This condition could e.g. occur when the OFF indicator is reached only by the operating force on the handle, but because of a corresponding deformation of the handle and / or the transmission element but the switching device itself still remains in a position in which the flow of current is not interrupted. The contacts of such switching devices may e.g. weld in the ON position in the event of a fault in the electrical system such that the breaking force of this welding exceeds the force required to deform the remote control elements such as the handle, the transmission element and the coupling element. A similar effect occurs in other than fixed by welding contacts. Furthermore, the standard stipulates that in such a case, the handle of the switching device may not be locked in the OFF position.

This requirement of the standard meet the usual manual drives within the scope of this standard. For example, is from the DE 43 22 215 A1 a lockable rotary actuator for circuit breaker known in which it makes a moving relative to the opening movement component impossible to complete the handle, as long as the switching device has not reached the final OFF position. The restoring force of the switching mechanism with welded or fixed switch contacts serves to butt against the switch knob of the circuit breaker and a driver of the rotary actuator for the switch knob lockable slide with separate latches for the switch knob and the driver part, with its locking on the handle and the driver part at the same time come into engagement with the result that the gate valve can not get into the locked position when welded or retained switch contacts. The actuation and the completion of the switching device is only possible directly on the switching device itself.

The object of the invention is therefore to provide a side lever drive of a switching contacts containing electrical switching device, in which the handle can be complete only in the OFF position of the switching device.

According to the invention, this object is achieved by a device having the features of independent claim 1. Advantageous developments of the device will become apparent from the dependent claims 2-11.

The invention provides that the device for the mechanical remote control of a switching contacts containing electrical switching device includes a handling system with a lever and a handle base, a transmission element and a coupling element, wherein the handle base has a stationary first Abschließöffnung and the lever via a second Abschließöffnung, the are arranged so that the bracket of a U-lock can only be passed through both Abschließöffnungen when the lever is in the OFF position, and the electrical switching device further also has a handle, wherein the handle of the switching device for on or Turning off the electrical switching device must be moved to a respective tilting point, and the handle of the switching device in the turn-off after reaching the breakpoint and when disconnecting the switch contacts the switch-off movement driven by a spring emerging from the switching device wherein the handling system has a third closure opening via a closure plate movable relative to the base element of the handling system, the closure plate (150) defining at least one of the closure openings (122, 126) on the handle base (121) or lever (125) the passage of a bracket of a U-lock is blocked if the switch contacts are not disconnected.

The transmission of the switching movement of the handle on the transmission element via an intermediate element. In this case, the executable switching movement on the handling system is limited so far that the handle of the switching device can be moved beyond the respective tilting point of the lever system of the switching device, but not to the end position of the handle of the electrical switching device corresponding to the position of the open switch contacts. If the switching device can be switched, the handle of the Switching device from a further switching movement, where it is driven by the contact pressure or holding force. In this case, the transmission element which is connected without play with the coupling element, taken along. The intermediate element is advantageously connected to the transmission element such that the transmission element can move relative to the intermediate element further in the direction corresponding to the respective switching movement. The locking plate is moved by a first driving member on the transmission element against the force exerted on the Verschließblech and presses it in the non-aligned position with the stationary first Abschließöffnung the base element of the handling system in a position with the fixed first Abschließöffnung the base member the handling system is aligned when the handle of the switching device moves beyond the tipping point of the switching device. On the other hand, if the switching contacts of the switching device are blocked, the handle of the switching device does not move beyond the tipping point. Thus, the transmission element does not move further, whereby the locking plate is not actuated. The locking plate blocks in this case at least the fixed opening arranged on the handle base. The handling system of the remote control is now not lockable.

Further advantages, features and expedient developments of the invention will become apparent from the dependent claims and the following description of preferred embodiments with reference to the drawings.

Fig. 1

Seitenhebelantrieb gemäß Stand der Technik

Fig. 2

Perspektivische Darstellung eines erfindungsgemäßen Seitenhebelantriebs und eines elektrischen Schaltgeräts in AUS-Stellung

Fig. 3

Seitenansicht eines erfindungsgemäßen Seitenhebelantriebs und eines elektrischen Schaltgeräts in AUS-Stellung

Fig. 4

Seitenansicht eines erfindungsgemäßen Seitenhebelantriebs und eines elektrischen Schaltgeräts in EIN-Stellung

Fig. 5

Seitenansicht eines erfindungsgemäßen Seitenhebelantriebs und eines elektrischen Schaltgeräts mit Hebel des Seitenhebelantriebs in AUS-Stellung bei blockierten Schaltkontakten

Fig. 6

Seitenansicht eines erfindungsgemäßen Seitenhebelantriebs und eines elektrischen Schaltgeräts mit Hebel des Seitenhebelantriebs in Zwischenstellung bei blockierten Schaltkontakten

From the pictures shows:

Fig. 1

Side lever drive according to the prior art

Fig. 2

Perspective view of a side lever drive according to the invention and an electrical switching device in the OFF position

Fig. 3

Side view of a side lever drive according to the invention and an electrical switching device in the OFF position

Fig. 4

Side view of a side lever drive according to the invention and an electrical switching device in the ON position

Fig. 5

Side view of a side lever drive according to the invention and an electrical switching device with lever of the side lever drive in the OFF position with blocked switching contacts

Fig. 6

Side view of a side lever drive according to the invention and an electrical switching device with lever of the side lever drive in the intermediate position with blocked switching contacts

In Fig. 1 a side lever drive 100 according to the prior art is shown. An electrical switching device 200 (not shown), for example, mounted in a control cabinet (not shown) is provided with the handle 125 of the side lever drive 100, which may be mounted outside of the cabinet, by means of a handling system 120, a flexible cable 110 and a coupling element 140 connected. The handling system 120 includes a handle base 121 in which a first closure opening 122 is fixedly inserted. The lever 125 includes a second closure opening 126 which is arranged so that the shackle of a U-lock can be guided through the Abschließöffnungen 122, 126 when the lever 125 is in the OFF position. On the handle base 121, a switch position indicator 123 is mounted so that the position of the lever 125 with respect to this switch position indicator 123, the switching position of the electrical switching device 200 can be read when its switch contacts are not blocked. The switching movement of the lever 125 is transmitted to the flexible cable 110 via an intermediate element 130. The intermediate element 130 has a stationary pivot bearing 131 around which the Intermediate element 130 can rotate. Furthermore, the intermediate element has a hinge 132.

Electrical switching devices 200, in particular electromechanical switching devices, have in their interior means for applying contact forces and opening forces. These forces must be overcome when switching. Depending on the size of the electrical switching device 200 to be switched, these forces to be overcome are considerable. In addition, frictional forces can occur in the side lever drive 100, which must also be overcome when switching. In order not to let the mechanical forces to be applied to the lever 125 to switch the electrical switching device 200 via the side lever drive 100 be too large, the lever 125 of the side lever drive 100 is usually dimensioned correspondingly large. Thereby, and by the possible elastic deformations of the individual elements 110, 120, 140 of the side lever drive 100, such as e.g. the possible stretching of the flexible cable 110, and the force carrying elements of the electrical apparatus 200 may be possible by applying a corresponding force to the lever 125 to move the lever 125 into the exhibition, although the switching contacts of the electrical apparatus 200 e.g. are blocked by welding and therefore the current flow through the electrical switching device 200 is still not interrupted.

Fig. 2 is the perspective view of a side lever drive 100 and an electrical switching device 200 according to the invention in the OFF position. To turn off the electrical switching device 200, the lever 125 of the side lever drive is moved to the illustrated OFF position. In this position, the stationary first closure opening 122 of the handle base is aligned with the second closure opening 126 of the lever. The movement of the lever 125 is transmitted to the flexible cable 110 via the intermediate member 130. This flexible cable 110 is connected substantially free of play with the coupling element 140. The coupling element 140 itself is connected substantially free of play with the handle 210 of the electrical switching device 200, so that the movement of the lever 125 can be transmitted to the handle 210. In this case, the handle 210 is moved against acting in the electrical switching device 200 contact pressure force to a tipping point. At this tipping point change into the electrical switching device, the balance of power so that now the Kontaktoffenhaltungskraft is greater than the contact pressure and the switching contacts together with the handle 210 cover another way, without the need for a force introduced from the outside. This path traveled by the handle 210 of the electrical switching device 200 is transmitted via the flexible cable 110 to the handling system 120 of the side lever drive 100. As a result, a locking plate 150, which is not visible in this view and which contains a third locking opening 151, is moved such that this third locking opening 151 is aligned with the first and second locking openings 122 and 126 and the bar of a U-lock is passed through all three locking openings 122, 126, 151 can be performed. On the handle base 121, a switch position indicator 124 is attached, at the position of the lever 125, the switch position can be read.

In Fig. 3 is the same situation as in Fig. 2 shown in a side view. It can be seen that the handle 210 of the electrical switching device 200 is in the OFF position, that is to say in an end position of its possibility of movement. The flexible cable 110 is guided for connection to the intermediate element 130 of the handling system 120 through a slot located at a first end 133 of the intermediate element. To limit the possibility of movement of the flexible cable 110 without taking along the intermediate element 130, there is a thread on this first end 133 of the flexible cable 110 onto which a first and a second nut 112, 113 are screwed, these nuts 112, 113 having such an outside diameter that they do not fit through the slot at the first end 133 of the intermediate member 130. The nuts 112, 113 may be secured on the threads of the flexible cable 110 with appropriate measures. For this purpose, it is advisable to counter the nuts 112, 113 with other nuts or, for example, by splinting or gluing to prevent them from twisting. By the switching-off movement of the lever 125, the intermediate element 130 is pulled at its second end 134 in the direction of the handle base 121. This movement is converted via the pivot bearing 131 into a rotational movement of the first end 133 of the intermediate element 130. Up to the tilting point position of the handle 210, the intermediate element 130 presses with its first end 133 against the third nut 113. When the tilting point is reached the lever 125 in an intermediate position, not shown. The further, after reaching the tipping point covered path of the switch contacts and thus the handle 210 is transmitted from the handle 210 of the electrical switching device 200 to the flexible cable 110. The flexible cable 110 can thereby move through the oblong hole at the first end 133 of the intermediate element 130. The distance on the flexible cable 110 to the second nut 112 is at least as great as the distance that covers the flexible cable 110 from the tipping point to the stop of the handle 210. On the flexible cable 110, a first nut 111 is applied to the same or another thread with a larger diameter than the thread for the second and third nut 112, 113. This first nut 111 is seen in the direction of the coupling element 140 behind the second and third nut 112, 113 and behind the locking plate 150, through which the flexible cable 110 is also guided. In this case, this first nut 111 is in such a position that it only comes into engagement with the locking plate 150 when the tipping point is reached. The outer diameter of this first nut 111 is selected so that it can take the locking plate 150. Also, this first nut 111 may be secured against rotation by known means. By way of the tipping over additional travel path of the flexible cable 110, the locking plate 150 is moved with its second end 153 in the direction of the first end 133 of the intermediate element 130. The locking plate 150 is rotatably mounted in the handle base 121 (not shown) such that by the described movement of the second end 153, the first end 152, in which the third locking aperture 151 is located, moves to a position in which all three locking apertures 122, 126, 151 are aligned.

Fig. 4 is the side view of a side lever drive 100 according to the invention and an electrical switching device 200 in the ON position. The switch-on movement of the lever 125 causes the intermediate element 130 to be pushed away from the handle base 121 at its second end 134. This movement is converted via the pivot bearing 131 into a rotational movement of the first end 133 of the intermediate element 130, wherein the intermediate element 130 also moves in its joint 132. Up to the tilting point position of the handle 210 presses the intermediate element 130 with its first end 133 against the second nut 112. The further, after reaching the tipping point covered way the Switching contacts is transmitted from the handle 210 of the electrical switching device 200 to the flexible cable 110. The flexible cable 110 can thereby move through the oblong hole at the first end 133 of the intermediate element 130. The distance on the flexible cable 110 to the third nut 113 is at least as great as the distance that travels the flexible cable 110 from the tipping point to the stop of the handle 210. The closing plate 150 is acted upon by a force, for example, by a spring (not shown) which presses the second end 153 of the locking plate 150 in the direction of the coupling element 140. Thereby, the first end 152 of the locking plate 150 is moved away from the position in which the third closing opening 151 is aligned with the first closing opening 122 in the handle base.

In Fig. 5 is shown in a side view of a side lever drive 100 of the invention and an electrical switching device 200, the situation in which the lever 125 of the side lever drive 100 is pressed into the OFF position, although the switch contacts are blocked and the handle 210 of the electrical switching device 200 in an intermediate position located. This position of the lever 125 is possible because when applying a correspondingly large force F on the lever, the elements 110, 125, 130, 140 of the side lever drive, as well as the force-carrying elements of the electrical switching device, deform and so the path difference arises between the Position of the lever 125 and the handle 210, which can not be moved beyond the intermediate position due to the blocked switch contacts exists. The lever 125 can not be further moved because of its mechanical stop, so that even by a deformation of the elements 110, 125, 130 and / or 140, the first nut 111 does not come into engagement with the second end 153 of the Verschließblechs 150. The closing plate 150 is thus not moved from its predetermined by the application of force rest position to the position in which the third Abschließöffnung 151 with the first Abschließöffnung 122 which is stationary on the handle base, aligned. Instead, the locking plate blocks the first and second locking opening 122, 126. The lever 125 can therefore not be completed in this position.

In Fig. 6 is shown in a side view of a side lever drive 100 of the invention and an electrical switching device 200, the situation that the switching contacts of electrical switching device 200 are blocked in the ON position, the lever 125 has been set in the OFF position and now no more force is exerted on the lever 125. The handle 210 of the electrical switching device 200 is located as in Fig. 5 shown in an intermediate position. The deformations of the elements 110, 125, 130, 140 of the side lever drive 100 and the force-carrying elements of the electrical switching device 200 are relaxed, since no more force is exerted on the lever 125, and the lever 125 has moved back to an intermediate position. In this position, none of the three locking openings 122, 126, 151 are aligned, so that the side lift drive 100 is not lockable.

The illustrated embodiment has a flexible cable 110 as a transmission element. Instead, other transmission elements, such as a solid rod, are conceivable. The loading of the Verschließblechs 150 with a force is done in the illustrated embodiment with a spring. But there are also other ways of applying force possible. For closing off the side lever drive 100, other closing means than the aforementioned padlocks are also conceivable. Likewise, the driving elements designed as nuts 111, 112 and 113 can be designed differently. For example, it is also possible to clamp or glue corresponding driver elements 111, 112, 113 onto the transmission element 110.

LIST OF REFERENCE NUMBERS

100

Side lever drive

110

flexible cable

111

first mother

112

second mother

113

third mother

120

Handling system

121

Handle base

122

first closing opening (fixed, base element)

123

Position indicator

124

Position indicator

125

lever

126

second closing opening (lever)

130

intermediate element

131

pivot bearing

132

joint

133

first end

134

second end

140

coupling member

150

Verschließblech

151

third closing opening (closing plate)

152

first end

153

second end

200

electrical switching device

210

handle

F

force

Claims (11)

Device (100) for the mechanical remote control of a switching device containing electrical switching device (200), comprising a handling system (120) with a lever (125) and a handle base (121),
a transmission element (110), and
a coupling element (140),
wherein the handle base (121) via a fixed first Abschließöffnung (122) and the lever (125) via a second Abschließöffnung (126), which are arranged so that the bracket of a U-lock only through both Abschließöffnungen (122, 126) out can be when the lever (125) is in the OFF position, and
wherein the electrical switching device (200) also has a handle (210), wherein the handle (210) of the electrical switching device (200) for switching on and off of the electrical switching device (200) must be moved to a respective tilting point, and the Handle (210) of the switching device in the off movement after reaching the breakpoint and separation of the switch contacts the switch-off movement - driven by a force from the electrical switching device (200) springing force - continues,
characterized,
in that the handling system (120) has a closing plate (150) movable relative to the handle base (121) of the handling system (120), the closing plate (150) having at least one of the closing openings (122, 126) on the Handle base (121) or the lever (125) blocked for performing a bracket of a U-lock when the switch contacts are not separated. Apparatus according to claim 1, characterized in that the transmission of the switching movement from the handle (125) to the transmission element (110) via an intermediate element (130). Apparatus according to claim 2, characterized in that between the transmission element (110) and intermediate element (130), a relative movement is possible when the movement of the handle (210) of the electrical switching device (200) over the tilting point of the electrical switching device (200) also takes place. Device according to one of the preceding claims, characterized in that the handle base (121) has a stop which limits the handle (125) of the side lever drive (100) in their movement before the handle (210) of the electrical switching device (200) their end position reached. Device according to one of the preceding claims, characterized in that the locking plate (150) is subjected to a force which holds it in such a position that it blocks the first closure opening (122) when it is not moved by the transmission element (140) another position is moved. Device according to claim 5, characterized in that the force is applied to the locking plate (150) which holds it in such a position that it blocks the first closing opening (122) by a spring. Apparatus according to claim 6, characterized in that the spring is a torsion spring. Apparatus according to claim 6, characterized in that the spring is a compression spring. Apparatus according to claim 6, characterized in that the spring is a tension spring. Device according to one of the preceding claims,
characterized in that the transmission element (110) is connected to the coupling element (140) substantially without play. Device according to one of the preceding claims, characterized in that the locking plate (150) by the transmission element (110) is moved when the switching contacts of the electrical switching device (200) open.

Images