DE601522C - Protection device for jaw crusher with break plate - Google Patents

Description

Bibliotheek Bur. Ind. Self-dom

17 SEP. 1934

ISSUED ON AUGUST 17, 1934

The invention relates to a device for operating jaw crushers that are suitable is, the particularly high stresses that occur with these machines and to protect the machine against dangerous malfunctions. In order to explain the invention, the basic structure is first given with reference to FIG. 1 of a jaw crusher. The crushing arm 1 is at its upper end around the Axis 2 is mounted so that it can swing. The push rod 3, which is driven by the eccentric shaft 4 in Movements going up and down are offset by plates 5 and 6 on the one hand supported against the frame 7 and, on the other hand, against the crushing rocker 1. at with every up and down movement the crushing arm is pressed against the left wall 8 of the machine frame and pulled back again by the spring tension rod 9. The push rod 3 is driven via a flywheel 10 by means of the electric motor 11, whereby a translation 12 can still be switched on.

The breaking plates that are used in the power transmission between the engine and the crushing arm The purpose of _ 5 and 6 is to protect the main parts of the machine against impermissible To protect stresses. The fracture plates are dimensioned in a known manner so that that they are destroyed as soon as 8 resistances between the crushing arm 1 and the frame occur that exceed a certain minimum.

When dimensioning the drive for such ge jaw crusher one encounters considerable Trouble; because the greatest power, which from the driving electric motor must be given away, does not occur during operation of the crusher, but when starting up on. In crushers with a higher capacity, the weight of the pull rod 3 is so great that that about five times the normal operating power of the engine has to be provided in order to start the working machine travel. It follows from this that the working machine is not in the other electromotive Drives can be protected against overloads in the usual way that the motor is equipped with overcurrent protection devices that respond as soon as the Engine power exceeds a certain minimum value. Rather, it must be the ones mentioned special safety elements are arranged in the work machine itself, which is independent of the operating state of the driving motor only take into account the load conditions of the driven machine.

The invention is based on the knowledge that that with the protective devices used up to now not yet sufficient

*) The patent seeker stated as the inventor:

Dipl.-Ing. Armin Ballauf in Berlin-Spandau.

Claims (4)

001522 operational reliability can be achieved. According to the invention, therefore, an inevitable relationship between the driving motor and the machine itself is created in that the breaking plates connected between the drive and the crushing rocker are connected to an electrical control circuit for the drive motor. The motor is automatically switched off as soon as ίο the break plates are destroyed. The shutdown of the motor is not made dependent on its own electrical overload, but on the overload of the work machine, which, as already mentioned, is not possible in the usual purely electrical way due to the special operating conditions to which a stone crusher is subjected. An accident that occurred in such a stone crusher has shown that the safety device according to the invention is of extraordinary safety-related and economic importance. The break plates had been properly destroyed in the event of overstressing, but were caught again and clamped between the push rod 3 and the crushing rocker 1. As the driving electric motor continued to run, the connections between the flywheel and the eccentric shaft were sheared off. The flywheel rotated on the stationary eccentric shaft and heated it up in a short time by the frictional heat generated in such a way that the shaft was sheared off and broke. This industrial accident would have been avoided with certainty if the stone crusher had been equipped with the protective device according to the invention. There are various options for connecting the fracture plate to the control circuit of the driving motor. As indicated in FIG. 1, the lines 15 and 16 coming from the holding coil 13 of the power switch 14 are connected to the two break plates 5 and 6, namely the break plates are connected in series. If one of the two plates is destroyed, the circuit is interrupted, the switch 14 is triggered and the motor 11 is switched off. The same purpose can also be achieved in that relatively weak conductor pieces connected to the control circuit of the switch are fastened to the break plates . On the break plates 20 and 21, conductor pieces 22 and 23 are fastened with tabs or the like, specifically in the longitudinal direction of the break plates. The two conductors 22 and 23 are connected in series through an intermediate connection 24. 65 "Offers a further improvement and increased safety the arrangement shown in FIG. An insulating tube 26, which is made of a fragile material such as glass or the like, is attached to the break plate 25. In the tube there is a non-rigid conductor through which the lines 27 and 28 connected to the ends of the insulating tube are connected to one another. Mercury, iron filings, an electrolyte or a similar substance can be used as an electrical, non-solid conductor. If the construction of the fracture plates allows it, a hole can also be made in them and this hole filled with the non-rigid conductor. The voltage of the electrical circuits in which the break protection elements are switched on is expediently chosen so that touching the break protection element is not dangerous, i.e. as usual under 2 Patemtassi'Köcue: 1. Protective device for jaw crusher with breaking plates between drive and Breaking rocker, characterized in that the breaking plates in electrical control circuits the prime mover are switched. 2. Device according to claim 1, characterized in that on the fracture plate A tube made of fragile insulating material, such as glass or the like, is attached, in which an ioc Ladder made of non-rigid material, e.g. B. Mercury, iron filings, an electrolyte, is housed. 3. Device according to -Anspruch 1 and 2, characterized in that several 10; Break plates are connected in series in a control circuit. 4. Device according to claim 1 to 3, characterized in that the control circuit for voltages below the contact limit, e.g. 24 volts, is sized. For this purpose ι sheet of drawings