DE102010032828B4 - Switching device, in particular circuit breaker with toggle lever - Google Patents

Abstract

Switching device (1), in particular circuit breaker, the switch lock (18) of which can be actuated by hand via a rocker arm (7) mounted on the housing, which can be reset to its rest position by a spring element (10) when the switch lock (18) is actuated, the spring element (10) is designed as a leg spring and is mounted inside (9a) of a handle bearing pin (9), characterized in that the rocker arm (7) has a cylindrically shaped base body (8) in which the handle bearing pin (9) is formed in the center.

Description

The invention relates to a switching device, in particular a circuit breaker, the switching mechanism of which can be actuated by hand via a rocker arm mounted on the housing, which can be reset to its rest position by a spring when the switching mechanism is actuated.

Switching devices are brought into their functional position by actuating or operating elements, that is, the switching devices are switched on or off. When switched on, a mechanical energy storage device, preferably a torsion or spiral spring, is tensioned, and the control elements are reset when triggered by a magnetic release or by a thermal release by releasing the stored spring energy. The switch position is visually indicated to the operator by the position of the control element, i.e. the switch handle.

In a known embodiment, a helical spring is used to reset the operating element, the inner, bent end of which is pushed onto a movable part with a groove. The spring is supported on the inner leg by wedging it in the groove and is tensioned by turning the outer leg. The outer leg is then locked in place in a recess provided for this purpose.

In other switching devices, a torsion spring is usually used to reset the operating elements in the case of rotary actuators. The part to be driven by the torsion spring is installed first and then the torsion spring is subsequently installed in such a way that the spring body and a spring leg fit into the recesses provided for this purpose. The second leg is assembled by clamping, positioning and hanging.

From the prior art, this goes from the EP 1 401 005 A2 a switching device with rotary switch handle for actuating the switch lock of an electrical switching device, which has a switch lock inserted in a switch lock housing with a spring which acts on the rotary switch handle in the return direction, the rotary switch handle being rotatable on a bearing pin formed on the housing wall of the switch lock housing and with an eccentric arranged hole receives an actuating pin of the switch lock. The bearing pin and the actuating pin project perpendicular to the mounting plane of the switching device in the direction of the front. The spring is designed as a helical spring, at one end of which a short leg and at the other end a long leg are provided, the short leg protruding radially, whereas the longer leg is tangential, and the longer leg has a bend through which a stage is formed. In addition, it is provided that the handle has a recess into which the spring body of the spring with the short leg can first be inserted, the short leg engaging in an axially extending, radial groove. A vertically protruding bar is formed on the handle, against which, after the longer leg has been inserted and pivoted, its bend rests resiliently and the spring is thus held in the recess.

the EP 0 646 280 B1 describes a switching element that works in particular with a switching handle, which is reset by a torsion spring that is received in a receiving space of the switching element. The spring is supported on the one hand with a spring end on the body of the switching element and, when the switching element is deflected, on the other hand with a spring end on the body of the switching element base or the housing receiving the switching element. The receiving space is delimited by a jacket of the element body, in particular the switch handle, which forms a suspension slot for the spring end supported on the switch element when it is deflected in such a way that a supporting edge is designed to be inclined upwards and downwards, starting from a central position. At the bottom of the support base there is a recessed hanging pocket for the torsion spring. The suspension slot forms on its upper side, after a sector intended for tensioning the torsion spring, another suspension pocket for one of the spring ends of the torsion spring.

From the pamphlet JP H07 130 274 A a switching device is known whose switch lock can be operated by hand via a rocker arm mounted on the housing, which can be returned to its rest position by a spring element when the switch lock is operated, the spring element being designed as a leg spring.

Furthermore, in the document CN 1 01 677 049 A a switching device according to the preamble of independent claim 1 disclosed.

The disadvantage of the prior art is the relatively large amount of space required to accommodate the parts, in particular the handle and the spring, and for the area swept over during the on / off movement.

Accordingly, the object of the present invention is to create a switching device, in particular a circuit breaker, the switch lock of which is mounted on the housing The rocker arm can be operated by hand, which has a stable and powerful design of the handle mounting and a compact design.

This object is achieved by a switching device with the features of claim 1. Advantageous training and further developments, which can be used individually or in combination with one another, are the subject of the dependent claims.

According to the invention, this object is achieved by a switching device, in particular a circuit breaker, the switch lock of which can be operated by hand via a rocker arm mounted on the housing, which is returned to its rest position by a spring or can be reset when the switch lock is operated, the spring being a leg spring is formed and is mounted inside a handle journal. The invention is characterized in that the rocker arm has a cylindrically shaped base body in which the handle bearing pin is formed in the center. The storage of the leg spring, in particular the rotary handle return spring in the interior of the handle bearing pin, enables a compact design. The leg spring according to the invention has a relatively small outer diameter and a relatively large spring length due to its mounting in the handle bearing pin. The compact design according to the invention creates the possibility of hanging a drive bracket either to the left or right of the handle or, alternatively, to use a bracket on both sides at the same time. This leads to a better introduction of force into the drive yoke and to a more flexible design of the assembly sequence.

Due to the small space requirement of the spring according to the invention, the space swept by the switching on / off movement is smaller. The use of a relatively rigid bearing journal reduces the path losses for the switching mechanism, especially when swelling or vibrating with thermoplastic housing material. The construction according to the invention enables an optimal introduction of force into the outer shell of the device. This leads to a low bearing load on the force application area, which is particularly advantageous in the case of thermoplastic constructions. In addition, the molding of the spring ends, which can be mounted blind, is advantageous. The use of a relatively stiff spring also simplifies assembly.

In a particularly advantageous embodiment it is provided that the leg spring is formed over the length of the bearing journal. The spring according to the invention is provided with a smaller outer diameter due to its mounting in the handle bearing journal and with a large spring length compared to conventional springs for a similar use. This large spring length contributes to the stability of the construction as well as to optimal power transmission.

A further advantage is that the leg spring has two leg ends, the leg ends being arranged at any angle, but preferably of approximately 90 ° to one another. In particular, a parallel alignment of the leg ends to the coil spring axis is also possible. The parallel alignment also enables a space-saving embodiment. The leg ends preferably have the same lengths, but different lengths are also possible. The leg ends allow the spring to be preloaded.

According to the invention it is also provided that the leg ends can be designed to be variable with regard to their length, an embodiment with the same lengths being particularly preferred, since this is particularly easy to assemble.

It is structurally advantageous if the handle bearing pin has a projection against which a leg end rests after the torsion spring has been installed. This projection also enables the torsion spring to be preloaded.

In a particularly advantageous embodiment it is provided that a recess is arranged in the interior of the handle bearing pin, into which a leg end of the leg spring can be inserted. This recess, together with the projection which is arranged on the handle bearing pin, enables the spring to be pretensioned.

The switching device according to the invention with a positioning of the return spring in the bearing pin is characterized by a compact design, which creates the possibility of hanging the drive bracket either on the left or right or alternatively on both sides of the handle, so that the introduction of force into the drive bracket is improved and a more flexible one Assembly sequence is enabled. The spring itself is characterized by a small footprint and a small swept area during the on and off movement. In addition, it is made relatively stiff, which also facilitates assembly.

Further advantages and embodiments of the invention are explained below with the aid of exemplary embodiments and with the aid of the drawing.

• 1a in einer perspektivischen Darstellung ein Gehäuseteil eines Schaltgeräts, insbesondere eines Schutzschalters, aus dem Stand der Technik;
• 1b in einer perspektivischen Darstellung einen von Hand betätigbaren Kipphebel eines Schaltgeräts aus dem Stand der Technik;
• 1c in einer perspektivischen Darstellung eine Feder aus dem Stand der Technik, die auf einen Lagerzapfen für den Kipphebel aus 1b aufsteckbar ist;
• 1d in einer perspektivischen Darstellung einen Ausschnitt eines Zusammenbaus aus Gehäuseteilen, Kipphebel und Feder aus dem Stand der Technik;
• 2 in einer perspektivischen Darstellung ein erfindungsgemäßes Schaltgerät, insbesondere einen Schutzschalter;
• 3 in einer perspektivischen Darstellung einen Ausschnitt eines ersten Gehäuseteils;
• 4 in einer perspektivischen Darstellung einen Ausschnitt eines zweiten Gehäuseteils;
• 5 in einer perspektivischen Darstellung einen von Hand betätigbaren Kipphebel;
• 6 in einer Schnittdarstellung den Kipphebel nach 5;
• 7 in einer perspektivischen Darstellung ein erfindungsgemäßes Federelement;
• 8 in einer perspektivischen Darstellung einen Antriebsbügel;
• 9 in einer perspektivischen Darstellung einen Ausschnitt des konstruktiven Aufbaus eines erfindungsgemäßen Schaltgeräts aus dem zweiten Gehäuseteil, dem Kipphebel, der Feder und dem Antriebsbügel;
• 10 in einer perspektivischen Darstellung aus einem seitlichen Blickwinkel den Ausschnitt aus 9;
• 11 in einer perspektivischen Darstellung einen Ausschnitt des konstruktiven Aufbaus eines Schaltgeräts aus dem ersten Gehäuseteil, dem Kipphebel, der Feder und dem Antriebsbügel;
• 12 in einer perspektivischen Darstellung aus einem seitlichen Blickwinkel den Ausschnitt aus 11.

They show schematically:

• 1a a perspective view of a housing part of a switching device, in particular a circuit breaker, from the prior art;
• 1b a perspective view of a manually operable toggle lever of a switching device from the prior art;
• 1c in a perspective view a spring from the prior art, which is made on a bearing pin for the rocker arm 1b is attachable;
• 1d in a perspective illustration a detail of an assembly of housing parts, rocker arm and spring from the prior art;
• 2 a perspective view of a switching device according to the invention, in particular a circuit breaker;
• 3 a perspective view of a section of a first housing part;
• 4th a perspective view of a section of a second housing part;
• 5 in a perspective view of a manually operable rocker arm;
• 6th in a sectional view of the rocker arm 5 ;
• 7th a spring element according to the invention in a perspective view;
• 8th a drive bracket in a perspective view;
• 9 in a perspective view a detail of the structural design of a switching device according to the invention from the second housing part, the rocker arm, the spring and the drive bracket;
• 10 in a perspective view from a side view of the detail 9 ;
• 11th in a perspective view a detail of the structural design of a switching device from the first housing part, the rocker arm, the spring and the drive bracket;
• 12th in a perspective view from a side view of the detail 11th .

1a shows a housing part 100 a switching device, in particular a circuit breaker from the prior art. The housing part 100 has a cylindrical bearing journal 101 on, which is used to store an in 1b illustrated, manually operable rocker arm 102 a switching device is formed. The rocker arm 102 essentially comprises a cylindrically shaped base body 103 and a handle element 104 . In the cylindrically shaped body 103 a cylindrical cavity is formed in the middle, which is for receiving the bearing pin 101 is provided.

In 1c is a spring known from the prior art 105 shown on the trunnion 101 the end 1a is mountable. In 1d is the assembly from a housing cover 106 , Rocker arm 102 and feather 105 shown, the spring 105 here on the journal 101 is arranged.

2 shows a switching device 1 , especially a circuit breaker. The switching device 1 consists of two housing parts 2 , 3 built into one another. On the switchgear 1 there is also an actuating element 4th , via which a switching function can be triggered. In 3 is the first part of the housing 2 shown, in which a preferably cylindrical blind hole-like recess 5 is arranged. This in 4th illustrated second housing part 3 likewise has a preferably cylindrical blind hole-like recess 6th which, however, has a smaller diameter than the recess 5 of the housing part 2 .

5 shows a manually operable rocker arm 7th of a switching device 1 . The rocker arm 7th essentially comprises a cylindrically shaped base body 8th and an actuator 4th , which is designed as a handle. In the cylindrically shaped body 8th is a preferably cylindrical handle journal in the middle 9 formed in which a spring 10 internally 9a is insertable. The handle journal 9 has a preferably semi-concentric projection 11th on. In the in 6th shown sectional view of the rocker arm 7th is the handle bearing pin 9 shown, the outside of the preferably semi-concentric projection 11th and inside 9a a recess 19th having.

In 7th is a spring element according to the invention 10 shown, preferably a leg spring with two leg ends 12th , 13th , which are preferably arranged at an angle of about 90 ° to each other. The spring element 10 is preferably over the length of the handle journal 9 formed and has a diameter which is smaller than the diameter of the handle bearing pin 9 .

8th shows a drive yoke 14th , which is preferably U-shaped with two side legs 15th , 16 that have a connection area 17th are connected to each other. The drive bracket 14th transmits the switch position of the actuating element 4th on the key switch 18th . From the 9 shows that the leg end 12th of the spring element 10 on a preferably semi-concentric projection 11th of the handle journal 9 is arranged adjacent. From the 10 also shows that the side thighs 15th , 16 of the drive bracket 14th into the intended receiving openings of the actuating element 4th or the key switch 18th are stored.

11th shows the structural design of the switching device according to the invention with the first housing part 2 , the rocker arm 7th and another drive bracket 14th . In 12th is shown like the side thighs 15th , 16 of the drive bracket 14th into the intended receiving openings of the actuating element 4th or the key switch 18th are stored.

The switching device according to the invention with a positioning of the return spring in the bearing pin is characterized by a compact design, which creates the possibility of hanging the drive bracket either on the left or right or alternatively on both sides of the handle, so that the introduction of force into the drive bracket is improved and a more flexible one Assembly sequence is enabled. The spring itself is characterized by a small footprint and a small swept area during the on and off movement. In addition, it is made relatively stiff, which also facilitates assembly.

Claims (6)

Switching device (1), in particular circuit breaker, the switch lock (18) of which can be actuated by hand via a rocker arm (7) mounted on the housing, which can be reset to its rest position by a spring element (10) when the switch lock (18) is actuated, the spring element (10) is designed as a leg spring and is mounted inside (9a) of a handle bearing pin (9), characterized in that the rocker arm (7) has a cylindrically shaped base body (8) in which the handle bearing pin (9) is formed in the center. Switching device (1) Claim 1 , characterized in that the leg spring (10) is formed over the length of the handle bearing pin (9). Switching device (1) Claim 1 or 2 , characterized in that the leg spring (10) has two leg ends (12, 13). Switching device (1) Claim 3 , characterized in that the leg ends (12, 13) have the same length. Switching device (1) according to one of the preceding claims, characterized in that the handle bearing pin (9) has a projection (11) against which a leg end (13) rests after the leg spring has been mounted. Switching device according to one of the preceding claims, characterized in that a recess (19) into which a leg end (12) of the leg spring can be inserted is arranged in the interior (9a) of the handle bearing pin (9).

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