DE506831C - Electric pulley block - Google Patents

Description

GERMAN EMPIRE

ISSUED ON SEPTEMBER II, 1930

REICH PATENT OFFICE

PATENT LETTERING

CLASS 35c GROUP

Demag Akt.-Ges. in Duisburg

Electric pulley system Patented in the German Empire on July 5, 1927

In the case of electric pulley blocks with a larger load capacity, the limit switch can be accommodated in the pulley ζ. B. difficulties in the side lids or caps. You will be amplified when like this in the subject matter of the invention is the case, the task is set, the limit switch not to be addressed to me as an exception, but operationally. The pretty

jo bulky failing switches takes in such Cases take up a lot of space and adapts to the compact design of the electric pulley block not on.

Similar difficulties arise with the

J5 Training and accommodation of the control on, which is usually done by shift drums for larger electric hoists must become.

These shortcomings are addressed by the

ao invention eliminated by using the winches widely known but at Electric pulley blocks previously unused contactor control in one Limit switch located in the auxiliary circuit in a cap or some other part of the electric cable itself, the pushbuttons, which also switch an auxiliary circuit, in one handle or the like and the main current contactors for starting, Limit switch and the like are placed outside of the electric pulley block. Despite the with In this way, the wrong pull retains its compact and simple design Service. It is also possible to use the same limit switch for small load capacities in the main circuit, for larger load capacities, however, in the contactor circuit switch and thus get by with a minimum number of types.

In the drawing represents

Fig. Ι a circuit diagram for a limit switch with contactor control,

Fig. 2 shows a similar circuit diagram.

Fig. 3 shows a preventive device associated with this circuit incorrect connection of the drive motor for three-phase current.

Fig. 4 shows a contactor circuit with a motor monitor as a further application example of the inventive idea.

In Fig. Ι R, S and T denote the three phases of a three-phase line, A the controller, B the contactor, E the limit switch and F the pulley. The line T is connected to the motor immediately at 1. The current flows from line 6 ″ via contact 3, in the raised position of controller A via segment 5 to contacts 6 and 7. From this, a branch current flows through coil 8 of contactor B, further via 9, 10, limit switches E and Line 11 to line T. This energizes coil 8 of contactor B and its core closes switch 12,

so that now the main current can flow from 7 via switch 12 and line 13 to terminal 14. The current curve of phase R is similar, namely via 4, 15, 16, 12, 17 to terminal 18.

If the load is now raised to the upper limit, the stop 19 of the stroke limiter interrupts the switch E, the contactor B drops out and the motor is stopped. If it is to be lowered, the contact pieces 20 and 23 of the controller A come into action. Phased then flows via 3, 20, 21, 22 to 17 and terminal 18, phase R flows via 4, 23, 24, bridge 25, 26 to line 13 and terminal 14.

The switch 12 is bypassed. The sequence of phases is when lowering reversed, the motor therefore runs in the opposite direction.

Since the limit switch is bypassed when lowering, special precautions must be taken in order to prevent the highest hook position from being exceeded in the event of incorrect connection to the phases. The bridge 25 is therefore initially not used, so that the controller in the lowered position Motor only connects to two phases. This only hums, but can even be wrong Do not lift the connection. · In the lifted position of the controller, will be correct Lift the connection of the load hook and trigger the limit switch; wrong connection is easily visible by lowering the hook.

According to Fig. 3, damage can be caused by

Exceeding the stroke limit due to incorrect connection to the phases can be avoided by providing the limit switch E with three contacts 31, 32, 33, of which the first is connected to a supply line necessary for lifting, the second to a lowering line, during the third contact provides the connection to the phase line. The actuating rod 34 of the stroke limiter engages via a lever 35 on the current-

conductive sector 36, which is subsequently rotated by approximately i8o °. Included he first switches off the lever line, but then also the lowering line, so that the Power supply cut off in any case at a certain maximum position of the load regardless of whether the two lines are swapped or not.

In Fig. 2 a circuit is shown in which the removable bridge 25 in the Auxiliary circuit is switched. Otherwise, the circuit and the reference symbols correspond to those from FIG. 1.

In Fig. 4 the application of a circuit for electric pulley blocks is shown, in which the resistors in the rotor circuit of the drive motor are short-circuited intermittently, as is already known for other purposes. The circuit makes it very easy to operate, even for heavy pulley blocks, from 5 t to 10 t, and even inexperienced people cannot do any damage by switching them on too quickly. The control can then be done by push buttons D in the same simple and safe manner, such as. B. in low-voltage systems.

In the circuit diagram, R, S and T again designate the three phases of a three-phase line. If the push button, which is housed in a housing designed as a handle, is moved from right to left, a current flows from line R, 52 via contact 50, line 49 to the normally closed contacts 48 and 47 of contactors B _A and B ₃ , from there via contacts 46 of the chute B ₂ to the coil 45 of the contactor B ₁ , then through line 44 to the pushbutton contact 43, 42, 41 and back via 40 to line 51 and S. The contactor B ₁ is thereby attracted and moves the switch 53 on, so that now the main current can flow through the two lines 51 and 52 via switch 53, lines 54, 55, limit switch E, to the terminals 56 and 57 of the motor. The third phase runs via the coil 61 of the monitor W to the terminal 62 on the motor. Now the motor starts up, the resistors R in the rotor circuit being switched on. If the push button D is moved in the opposite direction, contactor B ₂ with switch yj responds and the direction of rotation of the motor is reversed. When one of the contactors B ₂ or B ₁ is switched on, another circuit is closed, which starts from contact 65 via the normally open contacts of contactors B ₁ and B ₂ , line 68, contact 69 of guard W _1, line 70, coils 71 and 72 of the Contactors B ₃ and B ₁ and line 73 or 74 flows back to line 51 and 6 ″. The switches 75 and 76 are actuated in quick succession by the contactors B ₃ and B ₄ thus excited and the resistors in the rotor circuit are thereby split into two Stages switched.

Here, too, the limit switch can be actuated via a contactor, similar to n ₀ as in the first two examples. Correspondingly, the contactor control can also be used with drive by direct current or single-phase current. The contactor control can also be set up in such a way that the load is automatically switched off at both ends of its stroke, as is possible with the contactor control at all, despite high currents and voltages, all electrical iao parts in the block and tackle itself and in the handles to keep its control small and

to accommodate the main power switch in any suitable location.

Claims (4)

Claims: 5 1. Electric pulley block with push button circuit and one in the auxiliary circuit lying limit switch, characterized in that the limit switch ίο within the electric hoist itself, the push-button switch, which is also located in an auxiliary circuit, in one handle and the one controlled by both Motor contactors are outside of the electric hoist. 2. Electric pulley block according to claim 1, with three-phase drive, characterized in that that in the power lines, the switches or the manual operation of the Electricity-affected control elements are built in, which prevent possible wrong connection of the drive motor or render it harmless. 3. Electric pulley block according to claim 2, characterized in that in a Phase of the three-phase line a removable bridge is installed in such a way that in its absence the load is lifted over the highest permissible position is prevented even if the limit switch has no effect on the motor circuit. 4. Electric pulley block according to claim 2, characterized in that the limit switch one after the other or at the same time switches off both a power line required for lifting and the lowering line, so that even if the two lines are interchanged, the load is not raised or lowered beyond the permissible level. For this purpose 2 sheets of drawings