PL35010B1 - - Google Patents

Description

The invention relates to electric snap action switches in which the movable contact element is made of a flexible material and, upon actuation, has a tendency to jump over its dead position. The actuating mechanism of the circuit breaker according to the invention has at least one contact device fixed and at least one movable contact device and a bell. The movable contact device is made of a thin, elastic plate, e.g. from a steel and copper alloy in the form of a rectangular frame, in which the longitudinal sides are cut, and the inner strip, connecting the transverse sides, is uniform whole frame. The longitudinal sides of the frame may be, on both sides of the cut, suitably curved, which makes the sides resiliently compressible, or in another embodiment, the inner strip is resiliently extensible due to suitable bending. At the free ends of the frame, one or more contacts may be fixed, corresponding to the contacts, provided on the fixed contact devices. The cantilever is a suitably shaped arm or push-rod, and depending on the mode of operation of the movable contact device, the lever may be be stocked in springy parts. Said compression-spring parts may have the shape of curved metal leaf springs, respectively seated in the bifurcated arms of the cantilever. Figures 1 and 2 show the toggle switch in a side view and a front view, respectively, Fig. 3 shows the circuit breaker. the metering plate after removing the cover in the front view, Fig. 4 - a section of the circuit breaker along the line A-A in Fig. 2 with an enlarged scale, Fig. 5 - a perspective view of the movable contact organ and cantilever according to Fig. 1 - 4 , Fig. 5a - a changeover switch in a longitudinal section with a movable contact device of a different embodiment, Fig. 6 - a perspective view of a movable contact organ of a different embodiment, and a view of a pressure catch adapted to cooperate with this organ, Fig. 7 - longitudinal section of a pushbutton switch with contact device, according to Fig. 6 and Fig. 8 - cross section of a push button switch of a different design. 1 and 2 show hull 1, cover 2 provided with openings 4, and thumb 3 bells. The above-mentioned parts of the switch are made of a suitable insulating material. Metal screws are inserted through the holes 4, by means of which the cover 2 is fixed to the switch body 1. S Figs. 3 and 4 show the movable contact device 7, holes 4 ' , corresponding to the apertures 4 in the cover 2 (FIG. 2), then the terminals 6, (to which are attached the conductors of the circuit which the switch is to disengage, the terminals being electrically connected to the fixed contact devices 12, and holes 5 for mounting the switch on the wall. Fig. 5 shows the movable contact device 7 and the bell cooperating with us. The movable contact device 7 has pins 8, bent in the shape of the letter S, so that each of the four tongues is resiliently compressible and an inner strap 13. The inner strap 13 is provided with a hole II which enables the movable contact device 7 to be fastened to the clamp U 'on the switch housing 1 (Fig. 4). The cantilever is provided with a thumb 3 and on the bifurcated arms, there are indentations 15 into which the tongues 8 engage in order to articulate it in the switch. In the position of the cantilever, shown in Fig. 4, the free ends of the movable contact organ 7 are bent in opposite directions, the right end pressing firmly against the contact 14 and the left end against the contact 12. In this position, the right rockers 8 are bent upwards and the left one downwards. Clockwise rotation of the lever results in a gradual compression of the spring pins 8 and tensile stresses in the non-stretchy internal organ 13. After reaching the dead-end position, this occurs when the thumb 3 levers are in position, perpendicular to the plane of the base of the switch body 1, the minimal movement of the cantilever in the same direction causes the tongues 8 to suddenly expand, and thus automatically, rapid rotation of the cantilever in the same direction up to the stop and the bending of the pins 8 and the movable contact organ 7 in opposite directions as in the previous state. In this position, the right end of the movable contact organ presses strongly against the contact 12, and the left end against the contact 14. Rotation of the lever in the opposite direction causes, in the same way, the return of the components of the mechanism to the home position. Switch according to Fig. 1-4 can be a single-pole or multi-pole circuit breaker depending on the electrical connections in the circuit breaker, with the contacts 12, 12 and 14, 14 connected to the terminals of the electrical circuit that the circuit breaker is to disengage or serving as stop devices for limiting the movement of the free ends of the contact device 7. Fig. 6 and 7 show a movable contact device 7 in a different embodiment (Fig. 6), used in a pushbutton switch (Fig. 7). The movable contact device 7 has spring-loaded tongues 8 and an inner strip 13, waved in its central part, making the strap resiliently extendable. The inner strap 13 is provided with a hole U, which enables the movable contact device 7 to be fixed to the clamp 7 'of the switch. The push rod has at the lower end of each of its arms 24 opposite grooves into which the ends of the tangs 8 engage. has a head 23 and is slidably seated in the upwardly projecting extension 22 of the switch housing (FIG. 7). In the position of the push-pull rod shown in FIG. 7, the pins 8 are pivoted downwards and the inner strap 13 is bent downwards. upwards, the free end of the movable contact device strongly pressing against the stop device 31. The upward movement of the stick causes the elongate part of the inner strip 13 to gradually stretch. After reaching the dead position, this is when the plane of the tongues 8 is occupied position, parallel to the plane of the base of the circuit breaker, minimal movement of the stick in the same direction suddenly causes the inner strip 13 to pinch and bend it pins 8 and the bend of the free end of the movable contact organ 7 in opposite directions as in the previous condition. Movement of the button rod in the opposite direction causes, in the same way of operation, the return of the actuating mechanism components to their original position. 8 shows a pushbutton switch with a movable contact device 7 according to Figs. 5. The free ends of the jeezerites 8 enter the cavities 57, which are coiled in insulating posts 56. The center of the inner strip 13 is washed by the projection 50 of the fuselage 51 Button 51a is pivotally attached to cover 52 at point 61 'and has two downwardly directed arms 54, 55 that can move through openings provided for this purpose in cover 52. 8, the left free end of the movable contact device 7 adjoins the organ 58, which can be made as an insulating bumper device or as an electrical contact to which the end of the circuit disrupted by a switch is connected, and the right end of the movable contact organ 7 is adjacent to an organ 61, which, like organ 58, can be designed as an insulating stop device or as an electrical contact. Switching the circuit on and off by means of the switch according to Fig. by manual or other displacement of the button 5a, which causes one arm to move downwards, and the other towards upwards. The arm 54 or 55, during its downward movement, causes the movable contact device 7 to operate according to the principle described above. 5a shows a movable contact device 7, in which the pins 8 do not have undulating bends and are bent during operation of the switch only by appropriate activation of the bells. PL

Claims (7)

Claims 1. A snap-action electric switch having at least one stationary contact device and at least one moving contact device, and a cantilever, the movable contact device being a closed frame, provided with an internal strip connecting the lateral sides, characterized in that each long side of the frame is broken, and the inner strip of the frame fits without any gap between the lateral sides. 2. The circuit breaker according to claim A method as claimed in claim 1, characterized in that the inner strip of the frame is resiliently non-extendable and the sides are resiliently compressible. 3. Circuit breaker according to claim The method of claim 1, characterized in that the inner strip of the frame is resiliently extendable and the sides are resilient. 4. The switch according to claim The process of claim 2 or 3, characterized in that the extending or compressible resilient parts have a corrugated form. 5. Switch variant according to claim The frame of claim 1, in which the long sides of the frame and the inner strip are non-compressible and non-extendable, characterized in that the lever has resiliently compressible portions at the points where it contacts the free ends of the cut sides of the frame. 6. Circuit breaker according to claim A method according to any of the claims 1-5, characterized in that the cantilever has a bifurcated arm with appropriately shaped ends. Sidney Geoffrey Young Deputy: College of Patent Attorneys For Patent No. 35010 Ar. 1 jv 6 ^ v /////// "'' 6 'W 3? ¦ </ J U To patent description No. 35010 Ark, 2 3Zoy.JA S4 $ //' fS 8 ST SO S6 ST S / 6 / To patent description 35010 Sheet 3: jzu ?? Z4 8 & 30 "Press" Stalinogród, 4092, - 8. 7. 52 - R-3-184G7. - BI letters. 100 - 150 PL