FI67454B - ELEKTRISK AVBRYTARE MED KIPPMEKANISM - Google Patents

Description

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JgK m (11) utlAggningsskrift 674 5 4 ('♦ S)? Alcr, t reddolrt t - / (51) K * Jt / h * .Ct3 H 01 H 23/20 ENGLISH — FINLAND (21) - * «« «—Cin.b, f 773679. (22) HiUmhpM * -02.12.77 '' (23) AKupMvft — GMgfeitarfag 02.12.77 (41) TaftrtJuflcMcH - Blhrttoffaneftg 03.06.79

National Board of Patents and Registration ...________ _ .. „._ '(M ΝίΜΜηριη | i taNLUtakn m.-

Petent- och regieterstyrelaen # AmMcm «l« d ock «Lakrtt ·» pabHearad 30.11.84 (32) (33) (31) «» 11 »» - · ^ «priori * · * (71) Aktieselskabet Laur. Knudsen, Nordisk Elektricitets Selskab,

Haraldsgade 53, DK-2100 Mbenhavn 0, Denmark-Danmark (DK) (72) Asger Ilium, Solrtfd Strand, Denmark-Danmark (DK) (74) Oy Kolster Ab (54) Rocker arm mechanism

The present invention relates to an electrical circuit breaker having a rocker arm mechanism and at least one fixed contact and one movable contact in a clutch arm, one end of which is attached to a bearing, and a drive rocker lever.

A large number of electric rocker switches of the type described are known, e.g. installation switches, which are intended for use in connection with an electricity distribution network. Although the invention e.g. to such circuit breakers, the circuit breaker mechanism discussed herein is not limited to them in any way.

In connection with known switches, it is common to use a helical spring as either a tension spring or a compression spring to provide a swinging movement of the clutch arm. Since the tension spring has to be fastened by means of loops, this complicates the manufacture and assembly of the individual parts of the circuit breaker. In particular, the mechanical installation of the tension spring is difficult to perform. In known compression spring switches, this spring is usually located in the switch so that its axis is substantially perpendicular to the drive lever or the front side of the switch, so that it has contributed to the high design height or depth of the switch. However, such a high design height of the circuit breaker is often undesirable, e.g. in the case of an external wall-mounted circuit breaker, but also in the case of a wall-level circuit-breaker. Known switch designs have often also required a relatively large angular rotation of the actuation lever or key to achieve a sufficient cutting distance. which, in accordance with the standards set for mounting switches, must be at least 3 mm. Naturally, the large angular rotation of the operating key also contributes to increasing the overall height of the assembled switch, especially in the case of a so-called large-key operating-friendly switch.

The object of the present invention is to provide an electric rocker switch with a very low construction height and a small angular rotation of the drive lever, and that the individual parts of the switch are at the same time simple to manufacture and assemble.

According to the invention, this is achieved in that the pressure screw spring surrounds the movable coupling arm, one end of which is against the stop on the coupling arm in the vicinity of this coupling end, while the other end is fixed against the shoulder of the operating lever, the spring being dimensioned to oscillate with respect to the clutch arm about this response and that the clutch arm and spring are approximately parallel to the drive lever.

In connection with such a solution, the described arrangement of the movable clutch arm, the compression spring and the operating rocker arm results in a very dense structure with a very low height. Switching of the clutch arm takes place in connection with the oscillation of the spring end away from the contacts caused by the rocker arm, whereby the end of the clutch arm supporting the contact below the spring rotates to a different position after a certain oscillation of the spring head. It further follows from the described design of the circuit-breaker that, despite its small-sized structure, it has sufficient space for the necessary switching or switching distance.

3 67454

It further follows from the described solution that, despite the relatively small dimensions, a compression spring with a relatively large diameter can be used. This makes the spring easy and cheap to manufacture. Furthermore, the described design and placement makes the spring relatively easy to install mechanically. It should further be noted that the spring is not conductive and is therefore not damaged by overloading the circuit breaker.

In one embodiment of the switch according to the invention, the operating rocker arm has a channel-shaped hollow space with open ends below the operating surface for receiving a clutch arm and a spring, said shoulder being formed by an internal flange at the end of the hollow space. In this way, good control and protection of the clutch arm and spring is achieved. However, it must be underlined that the clutch arm is not moved from one position to another by means of the operating lever, since the change is caused solely by the oscillation of the spring and the swinging movement takes place independently of the movement of the arm.

According to the invention, the hollow space may be substantially open at the bottom, in which case there should only be sufficient material to ensure that the end of the spring stays against said shoulder. This makes it easier to move the clutch arm and spring into the channel-shaped hollow space and at the same time saves material when manufacturing the drive rocker arm.

In one embodiment of the switch according to the invention, the width of the clutch arm decreases from the stop for the spring towards the fixed end. Thus, the maximum oscillation movement of the spring relative to the clutch arm is possible with the otherwise installed dimensions.

According to the invention, the clutch arm may have an expanded main part and the clutch arm bearing may consist of a plate with a cut for receiving the end of the clutch arm, the plate having a gentle bend inwards towards said main part. It is thus achieved that the part of the circuit breaker in question is easy and therefore inexpensive to manufacture as a result of its simple shape. Furthermore, the installation of the clutch arm is very simple, in which case it is simply placed in said cut, after which the spring holds it in it.

The invention will now be described in more detail with reference to the drawing, in which Fig. 1 shows a longitudinal section of an embodiment of an electric rocker switch according to the invention, Fig. 3 is a longitudinal section of the circuit breaker perpendicular to the previous one, Figs. 3, 4 and 5.

In the drawing, reference numeral 1 denotes a switch-operating rocker arm, i.e. a key, which is mounted on a pivoting shaft 7 by means of bearing pins 8 and 9 in a switch housing, of which only a part 10 supporting bearing pins is shown here. The arm 1 and the housing 10 are of electrically insulating material. The upper side 11 of the arm 1 is intended to be activated at one or the other end to change the position of the switch. In this connection, it should be noted that the switch mechanism shown in Figures 1 and 2 must, of course, be installed in such a way that there is no immediate access to the conductive parts and the arm 1 can be activated by means of a separate cover plate.

The fixed contacts 5 and 6 co-operate with the contact points on the movable clutch arm 3, which clutch arm is pivotally attached to a bearing 4 fixed to the switch housing. When the device has both stationary contacts 5 and 6, the switch can be used as a changeover switch. However, the second contact 5 and 6 can be omitted and the switch then acts as a simple shut-off switch.

A screw spring 2 is pushed onto the clutch arm 3, which is against the stop 12 on the arm 3 at the end closest to its points of contact. At its opposite end there is a spring 2 against the shoulder 13 of the operating lever 1. This shoulder is substantially perpendicular to the upper side 11 of the wobble lever. The spring 2 is made so that it is compressed in the installed state of the clutch arm 3 and the operating lever 1. The spring is further, as shown in Figures 1 and 2, dimensioned with a considerably larger inner diameter than the width of the clutch arm 3 at its bearing end, while the clutch arm is made so that its width decreases from the stop 12 towards this end. The spring can thus perform a relatively large movement with respect to the clutch arm in its transverse direction perpendicular to its plane, while the spring can oscillate as an axis 12 of the stop.

67454

As shown in the drawing, the spring 2 is located in the channel-shaped hollow space 14 on the operating lever 1. This hollow space 14 should be dimensioned to allow free spring oscillation therein when the position of the clutch arm changes between the fixed contacts 5 and 6. If desired, the lower wall 15 of the arm can be partially omitted, so that, as shown by the dotted line 16 in Fig. 1, only a short wall piece is left to ensure that the spring 2 remains in place against the shoulder 13.

The opening 17 in the shoulder or flange 13 of the channel-shaped hollow space 14 allows the operating lever 1 to swing about its axis 7 during the changeover movement of the switch.

In the embodiment shown, the bearing 4 is formed of a bent metal plate with a cut 18 into which the end of the clutch arm 3 is inserted and held therein by a protruding wing part 19. To ensure retention of the clutch arm, the wall portions 20 have a gentle outward bend next to the cut 18. during surgical installation. It is found that the installation of the moving parts is limited to the insertion of the clutch arm 3 and the spring 2 into the channel 14 of the drive lever 1 and the placement of the bearing end of the clutch arm 3 and the bearing pins 8 and 9 in their respective bearings. The moving parts are held exclusively by these and the stationary contacts 5 and 6 are not necessary to limit the oscillating movements, so that one of them can be omitted without further ado. Incidentally, this also has the advantage that the stationary contacts can be installed after the moving parts have been fitted.

It is clear from the drawing and from the above that the individual metal parts included in the circuit breaker, namely the spring 2, the movable clutch arm 3 and the bearing 4, are very simple in shape and therefore very simple and inexpensive to manufacture.

The operation of the switch will now be explained with reference to the diagrams of Figures 3-5, which use the same reference numerals as Figures 1 and 2. In the position of the switch shown in Figure 3, with the switch arm 3 against the lower stationary contact 6, the right end of the lever 1 oscillates upwards. The switch is thus in the opposite position to that shown in Figure 1.

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In the position shown in Fig. 3, the compression spring 2 applies forces at its bearing point to the stop 12 of the clutch arm 3 and the shoulder 13 of the operating lever lever 1. These forces are indicated by arrows and provide, as is immediately apparent, a downward component at 12 pressing the movable contact against the fixed contact 6 and upwards. at 13 in the orienting component, which keeps the operating lever 1 in the rotational position shown.

In the diagram of Fig. 4, the switch is shown in the central position of the operating arm 1, so that in its drawing the right end is oscillated downwards past the position where the axis of the spring 2 coincides with the clutch arm 3. In the position shown, the force component at point 12 has just changed direction from the downward to the upward direction compared to the clutch arm 3. In paragraph 13, the opposite is true. The arm 3 therefore tends to rotate against the stationary contact 5 shown in Figures 1 and 5 and is held in this position by spring forces, indicated by the arrows in Figure 5.

It is understood that the changeover engagement is caused by the oscillation of the spring head which is against the shoulder 13 of the operating lever and not in such a way that this operating lever slowly moves the spring and with it the clutch arm 3 from one position to another. The changeover is therefore a fast swinging movement that takes place independently of the movement of the operating lever.

The described structure of the switch causes only a small angular rotation of the operating lever to be required to provide sufficient oscillation of the movable contact and thus a sufficient cutting distance. In the embodiment of the switch according to the invention, a turning movement of 2 x 5 ° is thus used, whereas a movement of at least 2x8 ° has previously been common.

It is found that the design of the circuit breaker shown, in which the clutch arm and the surrounding spring are approximately parallel to the operating lever in the middle position, allows the above-mentioned very low circuit height of the circuit breaker. The small angular rotation of the operating key also contributes to the low design height.

The described installation of the spring, in which one end is mounted on a wobble lever of insulating material, avoids that the spring is conductive and is therefore not damaged by possible overloading of the circuit breaker.

67454 in circuit-breakers in which the clutch arm itself forms a spring »

By shaping the switch so that the pivot axis 7 of the operating lever 1 moves a short distance away from the center line, the switch is made to act as a monostable switch. This is not shown in the drawing, but can be seen immediately by looking at the diagrams in Figures 3-5.

Claims (4)

8 67454 An electrical switch having a rocker arm mechanism and at least one fixed contact (6) and one movable contact in a clutch arm (3), one end of which is fixed to a bearing (4), and a drive rocker lever (1), wherein the other end of the coil spring (2) is in connection with a part (12) of the clutch arm (3) near this clutch end, while the other end is fixed to the operating lever (1), and where the spring (2) is dimensioned so as to swing relative to the clutch arm around its connection point, and where the clutch arm and the spring are approximately parallel to the drive lever, characterized in that the coil spring (2) is a compression spring surrounding the movable clutch arm (3), the width of the clutch arm decreases from the stop (12) for the other end to the fixed end, and the other end is located against the collar (13) in the operating lever lever (1). Switch according to claim 1, characterized in that the drive lever (1) has a channel-shaped hollow space (14) with open ends below the operating surface for receiving the clutch arm (3) and the spring (2), said shoulder (13) forming a hollow space (14) internal flange at the end. Switch according to Claim 2, characterized in that the channel-shaped hollow space (14) is substantially open downwards. Switch according to any one of the preceding claims, characterized in that the clutch arm (3) has an extended bearing head part (19) and that the bearing (4) for the clutch arm consists of a plate with a cut (18) for receiving the clutch arm end and gentle bending towards said main part .