DE640701C - Self-releasing push-button switch, especially tariff monitor - Google Patents

Description

Automatic push-button switch, especially tariff monitor The invention relates to an automatic push-button switch. It is intended in particular for tariff monitors, but also for other types of switching devices, z. B. in overcurrent switches or switches with remote tripping, applicable.

Such switching devices are generally subject to the condition that malfunctions, in particular the generation of switching arcs, are caused by improper or improper use must be ruled out. Furthermore, the devices have a high response accuracy with high switching capacity. - '' With the ones so far known switching devices, in particular tariff monitors of this type, were the The above-mentioned conditions were only fulfilled for the sake of convenience, or they just let themselves through achieve relatively intricate mechanisms.

The invention is based on the idea of creating a device which meets all or mentioned conditions at the same time and at the same time one has such a simple structure that it can be carried out with the small dimensions, as they are with installation devices, z. B. in fuse bases, are common.

The automatic push-button switch, especially the tariff monitor (Current limiter), according to the invention has two abruptly moving contact organs, one of which turns on the power and the other disconnects the power. According to the invention a single tension spring is used for the switch-on device and the switch-off device, which is preferably tensioned via a toggle lock when the button is pressed and when switching on the switch-on device and when switching off the switch-off device the instant jump movement issued. Is advantageous when pressing the button first the shut-off device is in the switch-on position, while the switch-on device on its switch-on movement until the button returns to its rest position a locking prevents and only after reaching the rest position of the locking is released. Another one controlled by the switch-on element is expedient Latch provided allowing a 'depression of the button on its return prevented in the rest position. By using a single tension spring ' the push button switch has a particularly simple structure. At the same time is through the abrupt movement of the switching on and off and by locking the After switching on, the push button is avoided by slow operation the push button at the interruption points of the switch arc can be drawn. It is also essential that the switching arc is extinguished no additional solenoid coils are used, as is the case with overcurrent switches for '.' 'higher performance has been the case so far. Di.eh ', arrangement of two contact organs, which are adjusted by a tensioned tension spring is rather powerful enough to safely switch off the switching capacities that occur with current limiters.

There are already circuit breakers with two contact organs known from which one serves as a switch-on device and the other as a shut-off device. Both Known switches has the tension spring, the switching element when the switch is turned on with an instantaneous jump movement into the switch-on position Switching off the switch has no effect on the switch-off device. So that the shutdown device performs an undelayed jump movement when switched off, are the familiar ones To provide the switch with a second tension spring. While with the switch according to According to the invention, the switch-on pushbutton has a downward movement and a subsequent one Executes upward movement, moves the switch-on pushbutton in the known switches only downwards. The power button remains in its lower position for so long until the switch trips. A lock for the switch-on pushbutton in the switch-on position is not available with the known switches. As a result of the lack of a second Locking can be done by moving the power button upward arc Generate between the switching element and the stationary contact parts.

Before going into further inventive features, let us consider a Embodiment explained in more detail. On the drawing is a push button switch shown with automatic release. Fig. I shows the switch in the off position, Fig. 2 shows the same switch with the power button pressed, Fig. 3 shows the switch in the completed switch-on position. In Fig. 4 is a side view, in Fig.5 is a Top view shown. The Fig. 6 and 7 show two different circuits of the contact and trigger organs.

The switching mechanism contains the following parts. i is the power button. The contact element (shut-off element) which interrupts the current is denoted by 2. It consists of an insulating slide and carries a contact bridge 3, which is in the Switch-on position occurs between two stationary contact terminals 4 (FIGS. 6 and 7). 5 is the second contact element (switch-on element). It also consists of an insulating part and a contact bridge attached to it. The contact bridge of the switching element connects in the switched-on position two further contact pieces 6 of the switch base (Fig. 6 and 7), of which the; a contact piece with one of the two connection terminals 7 and the other is connected to an "Abeiden contact clamps" 4. Except for the two Terminals 7 are two more terminals 26 on the switch base arranged.

The push button i sits on a rod 8 and is under the action of a spring g which tries to keep it in the rest position shown by FIGS. Between the push button and the two contact organs 2 and 5, a toggle lever lock is arranged, which consists of the two members io and ii. The member io is rotatable about a fixed axis 12. The member ii is mounted on a driver 13 which is attached to the slide switch 2 and serves as a counter-support for a helical spring 14. The spring sits on a rail 15 on which the switching element 5 is attached. The trigger armature of a solenoid 17 is designated by 16. ig and 2o are thermostats for switching on the coil 17 (Fig. 5 to 7).

The device has the following mode of operation.

In the switched-off state, the parts of the mechanism take those shown in Fig. i visible location. To turn on the button i is shown in FIG Position pressed. By pressing the button, the terms io and ii existing toggle lock stretched and thereby the contact slide 2 in the Switch-on position moved. At the same time, the compression spring 14 is tensioned and thereby exerted on the contact member 5, a force tending to it also in the Bring the switch-on position. However, as long as the button i is pressed, it engages Rod 8 in an opening of the rail 15 connected to the contact member 5 'and holds this fixed. As a result, the switching element 5 remains for the contact pads 6 initially still in the open position.

If the button i is released, it returns to its rest position. The locking bar 8 releases the rail 15. As a result, the stored one comes Force of the tension spring 14 to the effect, so that the switching element 5 by leaps and bounds in the Switch-on position and the circuit finally closes (Fig. 3).

If the magnet 17 is excited and thereby the armature 16 is attracted, the locking of the toggle linkage at 18 (Fig. 2 and 3) is canceled. Now, the spring 14 moves (Fig. 3) the carrier 1 with the seat 3 thereto isolation shuttle 2 along with contact member 3 - to the left in the off position. The current is therefore interrupted by the contact element 3. After the switch-off has taken place, the carrier 13 strikes the left end of the slot in the rail 15 and thereby moves the rail with the switch-on element 5 into the position indicated by Dig. i reproduced rest position.

The switch has in terms of its construction and mode of operation a number of advantages and development opportunities, which are discussed below is.

The switch-on element 5 is switched on by a jump movement, which cannot be delayed by improper use. Organ 5 can, since it only causes a switch-on process and, as a result, relatively little is claimed to be very small. Switching off is also carried out by a non-delayable jumping movement of the contact organ 3. This organ is due to Training of its wearer: 2 suitable as an insulating slide, the ones in question switch off the highest switching capacities without errors. One can use the stationary contact pieces 4 of the switch base so arrange; that the contact surfaces let 2n insulating walls are, so the slide 2 moves as it were in an insulating channel. To this In this way, the arc-extinguishing whirl of an insulating slide switch can still be used amplify and thereby increase the switching capacity.

A generation of switching sparks by only pressing the push button i partially pushes it into the switch housing and before the switch-on process is complete releasing again is not possible. The switching element 5 'occurs only then in action when the button is fully depressed in the switch. He will released beforehand, there is no electrical circuit at all.

The switch has a relatively simple structure. This is for Partly due to the fact that despite the use of two contact organs one and the same spring 14 is used, both the switching step of the switching element as well as to generate the switching step of the disconnection element. Fulfilled according to the invention this spring also has a third function. It serves at the same time to to put the lock into action, which requires pressing the button i after completed Switching on excludes.

The simplicity of the switching device is also due to that the rod 8 for guiding the push button and the rail 15 for guiding the switching element 5 can also be used as a locking bolt, which on the one hand is the spring 14 when switching on, do not let it go into action until the push button i has returned to its rest position (Fig. 3) and on the other hand also pressing again of the button with the circuit switched on.

The trip coil 17 is not immediate in the tariff monitor shown switched into the circuit to be monitored. Rather, it lies like the circuit diagrams 6 and 7 can be seen in the shunt and -will only through a thermostatic Switching device switched on. From the two thermostats of the switching device is the one, ig, connected to the circuit to be monitored. The other thermostat 2o is only exposed to room temperature. Used in the circuit to be monitored If the power is too high, the bimetal strip heats up and does thereby contact with the strip 2o. This switches on the solenoid and -the tariff monitor triggered. With the help of an adjusting screw 2i is the distance between the two thermostats and thus the tripping current intensity can be set. Using the two. Thermostats in such a way that the generated by them Switching process is dependent on their differential movement, results in independence of the release process from the room temperature. So it is prevented that the tariff guard responds when the temperature of the room surrounding it increases, the one to be monitored Circuit but no current or no current that is too strong is drawn. -The constructive The thermostatic switching device is designed for the tariff monitor shown made so that the two bimetal strips on opposite sides of the Switch base are located in order to prevent the only to compensate for the Room temperature serving strip is influenced by the 'heat of electricity in the other pear-shaped strips. ' The bimetal strip 2o is with one arm 22 provided. At. A contact spring 23 sits on this arm. At the free end of the spring is the mating contact that interacts with the dimetallic strip ig. With The distance between the contact spring is determined by means of the adjusting screw 2i located on the arm 22 23 set by lever 22. The screw 21 is provided with a scale 24 on which the tripping current is specified.

The apparatus described can be connected so that the to be monitored Circuit is switched off single-pole. This arrangement is shown in FIG. However, the same apparatus can also be switched in such a way that a two-pole disconnection he follows. Such a connection is shown in FIG reproduced. For the purpose of remote tripping of the switch can be parallel to the contacts of the thermal Switching device can be connected to a trunk line. The switch can then can also be controlled by temperature relays or thermostats that are in more distant locations Apparatus, e.g. B. Oven are installed.

The switch according to the invention can also be equipped with a trigger element provided for manual release. For this purpose, a second push button 25 (Fig.-4) which acts on the trip armature 16 are used.

The thermal and magnetic trigger elements can be proportionate have small dimensions. In the case of thermostats, this is due to the fact that these organs only have to cause a switch-on process and consequently their contact element is little used. The coil 17 can also be made with small dimensions and form relatively few coil turns. The coil can be dimensioned so that it is extremely stressed. in such a way that they operate continuously would not stand. The coil is only switched on for a short time. At the When the switch is activated, it is also switched off. When using a Such a heavily loaded coil can be further reduced in size. By the formation of switches according to the invention, it is possible, for example, tariff monitor, which meet all possible conditions at the same time, with dimensions produce that are no larger than that of the usual fuse elements. Included the individual parts of the switching device can be designed to be relatively strong.

In using the switch, e.g. B. as an overcurrent switch, can the triggering devices can also be effective differently than in the case of the tariff monitor described. For example, you can switch the thermostat directly to the mechanical Let the release mechanism take effect. It is also possible to trigger the switch by an electromagnetic overcurrent release in the circuit to be monitored or by a magnet located in a remote-controlled circuit.

Claims (7)

PATENT CLAIMS: i. Automatic push-button switch, in particular Tariff monitor, with two abruptly moving contact elements in the same circuit, one of which switches on the current and the other switches it off by a single tension spring (14), which when the button is pressed, preferably over a toggle lock (io, i i), is cocked and when switching on the switching element (5) and the instantaneous jump movement when the shut-off device (2) is switched off granted. 2. Push-button switch according to claim i, the shut-off member when pressed of the button before switching on the switch-on device in the switch-on position is, characterized by a lock, which the closing movement of the closing element (5) until the button (i) returns to its rest position when it is reached this rest position releases the switch-on element. 3. Push button switch according to claim i, characterized by a lock controlled by the switch-on element (5), the. a depression of the button (i) after its return to the rest position prevented. 4. Push-button switch according to claim 2 and 3, characterized in that the locking mechanism acting on the switch-on element (5) and the locking mechanism acting on the push-button (i) of a rod (8) seated on the push-button (i) and one on the switch-on element (5) seated rail (15) are formed, the rod (8) engaging in an opening of the rail (15) during switching on and thereby holding it in place, after the rail (1 5) has been switched on, a movement of the rod (8) prevented. 5. push button switch according to claim i, characterized characterized in that the shut-off member articulated on the toggle joint consists of a Insulating slide (2) with an embedded contact bridge (3) and one Carrying driver (13), which acts as a counter-position for between the switch-on and switch-off elements effective tension spring (14) is used, which, along with the switch-on element (5) below the switch is arranged in a cavity of the insulating base. 6. Push button switch according to claim i, characterized in that the automatic release from an outside of the circuit to be monitored by a thermostatic switching device. (i9) controlled solenoid coil (17) consists, whose tripping armature (16) when not energized Solenoid coil the knee joint (io, ii) holding the tension spring (14) in locks its stretched position. 7. push button switch according to claim i and 6, characterized characterized in that, in addition to a current-carrying thermostat (19), a second, not carrying current Temperature compensation thermostat (2o) provided is, which are both arranged at such a distance from each other that the Current heat generated in the first thermostat does not affect the second thermostat exercises. B. circuit breaker according to Claim.r with an outside of the to be monitored Electric circuit lying voltage coil, which is controlled by thermostats or remote control is switched on, characterized in that the solenoid (z7) only switched on during the response of the thermostatic switching device and is designed for short-term loads.