DE867260C - Switch-off device - Google Patents

Description

The invention relates to a device for switching off the driving part of a machine system, if there is too much resistance against the driven part. Such devices are in themselves already in different forms men known, z. B. as a slip clutch, centrifugal switch, etc. If an electric motor is used as the driving force Part is used, fuses are usually sufficient to overload the driven part or the driving part. So it can be B. in a conveyor system for milk cans happen that. a Milah can overturned for some reason and become stuck. Then the Break the conveyor chain or other machine parts can be damaged. The known Safety devices are not enough. The invention aims to provide a device which is easy to arrange in a suitable place and which takes effect very quickly when the driven Part gets stuck in some way.

According to the invention, a dynamo is connected to the driven part, which one Solenoid energized), which keeps the driving part switched on, with an occurring overload by decreasing the speed of the dynamo, the magnet is not or too weakly excited and the driving part z. B. by means of a Spring or a weight is switched off.

The invention is shown schematically in an exemplary embodiment in the drawing.

The electric motor ι drives over an intermediate ^ shaft 6 and gear 5 to shaft 4 ·. On the shaft 4 sits a sprocket 3, over which a Conveyor chain 2 is performed. The sprocket 3 carries a ring gear 7, with which a gear 8 of the Generator 9 is engaged. Instead of gear transmission for the generator or the dynamo machine a friction transmission can of course be used. 1 The dynamo provides the electricity to excite the

Electromagnet ii8 which controls switch 19.

This excitation can happen immediately, as shown in dashed lines in the drawing, or via a Transformer 10 with one to be discussed in more detail Contraption. The switch 19 can be an ordinary zero-voltage switch. A spring 22 is used to Switch-off if the magnet 18 is not energized, while a button 21 is used to switch on.

The device works as follows: When the conveyor is switched on, presses; the button 21 against the action of the spring 22, to turn on switch 19, whereupon the motor starts up and the chain 2 moves along the transport track! moved.

Then the button 21 can be released, since the generator 9 supplies power to excite the Electromagnet 18, which turned the switch 19 on holds. If the conveyor chain 2 is now stuck, the speed of the sprocket 3 and consequently of the generator 9. The generator then delivers • too little current for the electromagnet, and the switch 19 is turned off under the influence of the spring 22. The error in the conveyor can be lifted and the device can be put into operation again.

The device described has the disadvantage that it is difficult to install a generator or a dynamo manufacture that at. a small decrease in the speed immediately results in a sufficient decrease in voltage to get and to quickly control the electromagnet ^ see switch of the drive motor allow.

According to the invention, this disadvantage is based on folr corrected way !: The generator 9 feeds a transformer whose secondary voltage over a / certain area can be regulated in a known manner isib, e.g. B. with half of branches and one Shift arm. For this purpose, of course, can also a normal transformer with a voltage divider connected across the secondary winding is used. The secondary edge of the transformer 10 contains a rectifier 11, preferably with double rectification. The easiest way to get to this Purpose with a bridge circuit according to Graetz Metal rectifiers can be used. In series with this rectifier is a neon lamp or a Discharge tube 12 is provided, while over the diagonal points of the bridge the winding of a DC relay 13 is connected to armature 14, Failure contact 15 and normally open contact 16.

In the circle of the anchor 14 and the working contact 16 is a suitable power source, e.g. B-. a transformer 17, arranged ·, this circuit feeds the electromagnet 18 of the electromagnetic switch ^ 19 in the supply circuit of the motor.

The transformer 17 can be dispensed with, when the secondary winding is placed on the transformer 10.

The device is adjusted in such a way that at normal speed of rotation of the shaft 4 and thus of the generator 9 the alternating voltage in the secondary circuit of the transformer 10 is so high that 'the neon lamp ignites. This voltage should therefore be above the ignition voltage of the lamp 12. The voltage is rectified by the rectifier so that the relay 13 is traversed by direct current, its armature 14 attracts, whereby the contact 16 is closed. The transformer 17 then feeds the electromagnet 18, which opposes the switch the spring action 22 keeps switched on.

If for any reason the driven part stalls or if there is an impermissible delay occurs, the voltage of the generator 19 goes down, whereby the secondary voltage of the Transformer 10 is reduced. The setting is such that in the event of a dangerous deceleration the secondary voltage goes down to one. ' Value which is below the erase voltage the neon lamp 12 is so that this lamp goes out.

When the driven part stalls, the Gietnieratorspanniung completely gone, so that; the neon no The lamp goes out and the secondary circuit is de-energized.

As soon as the neon lamp 12 goes out, the relay 13 drops out. The magnet 18 is de-energized, and the Spring 20 switches off switch 19 and thus the motor. As already mentioned, switch 19 is provided with a push button 21, which is depressed is held during the start-up period of: Motor 1, i. H. during the period in which because of the still too low speed of the generator 9 provides insufficient voltage to the Ignite neon lamp 12. As soon as this lamp lights the push button can be released and the device secures the system or the machine.

The device described is a completely automatic and reliable monitoring and Fuse, even if there is a fairly small delay in the driven part. This can occur due to excessive mechanical resistance or when · material to be conveyed between the gears gets what happens with certain machines! can.

The device can also be used to protect against exceeding the normal speed. In this case the setting of the secondary voltage should be done with the help of the voltage regulation shown be such that 'at the normal rotation number, the neon lamp 12 does not ignite, the Working contact 16 and the normally closed contact 15 of the Re-Iais 13 can be changed. In the case of an impermissible

If the speed is exceeded, the relay. 13 excited, and the circle of magnet 18 is interrupted! so that the engine 1 is switched off.

Both options can of course be combined.

Claims (6)

PATENT CLAIMS: i. Device for switching off a driving part of a machine system if the driven part suffers too great a resistance, characterized in that a dynamo machine is connected to the driven part, which supplies the current to excite a ¹ electromagnet, which the driving! Part keeps switched on; whereby, in the event of an overload due to the decrease in the speed of the dynamo, the magnet ^{1 is} not or too weakly excited and the driving part, e.g. B. is switched off by means of a spring or a weight. 2. Apparatus according to claim 1 with an electric motor as the driving part, characterized in that that the electromagnet is a switch in the circuit of the electric motor controls. 3. Apparatus according to claim 1 or 2, characterized in that the dynamo machine is coupled to the driven shaft. 4. Apparatus according to claim 1 to 3, characterized in that the dynamo machine feeds a transformer, in whose secondary circuit a neon lamp or a discharge tube is arranged in series with a rectifier, which feeds a relay, its contacts Control the solenoid circuit. 5. Device according to claim ^ characterized in that that. the relay closes the switch-off magnetic circuit when it is energized holds. 6. Apparatus according to claim 4 for securing against exceeding the speed, characterized in that the secondary ^{voltage 1 of} the transformer is set such that this voltage remains below the ignition voltage of the neon lamp at normal speed, while the relay interrupts the switching magnetic circuit when energized 1 sheet of drawings © 5707 2.53