DE88107C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

To achieve a safe production operation in shaft systems, it is necessary that the Conveyor speed towards the end of the conveyance as soon as the upward conveying bowl comes near the hanging bench or the descending bench near the filling point, will be reduced accordingly so that one is able to turn the bucket on or completely safe and independent of the reliability of the foreman (machine operator) to calm down and thus a Exaggerating the same over the pulleys and causing damage in the shaft to prevent, and furthermore, that the hoisting machine automatically, without human intervention, will prevent you in detail. Case of exceeding the maximum permitted speed.

The security apparatus according to the present invention should meet these requirements.

A centrifugal governor mounted in the housing C receives rotary motion from the drive shaft N by means of pulleys 0 o ¹ and bevel gears RPST. Most advantageous is a regulator with spring loading by springs α and b over the adjusting nuts cd on the adjusting sleeve e. The wave N is in any suitable manner, e.g. B. by counter crank or by gears with WeUe and clutch, by chain wheels and drive chain, etc., connected to the cable basket shaft of the hoisting machine, so rotates alternately in a promotion in the direction of the arrow (Fig. 3) and in the next opposite. This movement is correspondingly also transmitted to the two worm shafts H ₁ and the worms m M ₁ by the three spur gears XYZ (FIGS. 2 and 3). The latter have opposite threads, one on the left, the other on the right. As a result, the worm gears VV ₁ always rotate in opposite directions to each other, so z. B. with increasing thread of m to the right, a direction of rotation of the wheel F in the sense of the arrow (Fig. 1) corresponds to the arrow directions of XYZ, while V ₁ rotates in the opposite direction. The gear ratios are so dimensioned that the wheels VV ₁ always make less than one complete revolution during a conveyor train.

In this way, a scaled-down image of the double conveying movement is obtained in the rings of the worm gears FF ₁ , which also corresponds to its original when conveying from different depths (from different levels). A locking tool is arranged on the shaft t , as is found in a very analogous manner on the loose basket of the hoisting machine. Namely, the internally toothed disk K corresponds to the loose cable cage and carries gear Y attached to its hub extension, while K itself sits loosely on t. The disk L is by spring and nut. connected to the ■ shaft t and carries radially movable sliding blocks p, which can be pushed into the teeth of K with their tooth-like end.

The sliding blocks ρ are connected by rods to the sliding sleeve ο , which is under spring pressure η and which can be moved axially by the release fork q. The shaft r of the latter is connected to the loose basket brake by rod s in such a way that, as soon as this is pulled and the loose basket is prevented from participating in the rotary motion of the hoisting machine, toothed jaws ρ are also removed from the teeth of K , whereby the disc K is decoupled and the transmission of motion from gear Y through disk K to shaft t is canceled. If the hoisting machine rotates in this state, only the wheel F ₁ representing the fixed basket moves, while V, like the loose basket, remains stationary on the machine and only participates in the movement again as soon as the loose basket brake is released, ρ and so L is dynamically connected to K again.

With the wheels VV ₁ , different pins α β γ d (Fig. Ι a and 3) are either firmly connected or adjustable within reasonable limits; at a suitable time they come into contact with one of the toothed levers λ, which is coupled above by the rod T ₁ , guided horizontally on the guide rods H _{1 by} means of the frogs kk _x and at their lower ends with the nuts μ (Fig. 1 a) are connected. The latter are also straight horizontally in the slotted round guides ο above and press under certain circumstances on the feeler levers ν ρ (Fig- ι and 2), which are attached to the shafts ξ and π with the roller levers y and ^.

In the position shown, the angular levers H and / or under the rollers of the roller levers y and ^, carrying a weight Q. at the long end and swinging around shaft w , are held in their raised position. ■

Depending on the position of the regulator sleeve W, in whose ring nut the two-armed lever f loaded with weight g , which together with h and i forms the toggle levers connected to the rod r _x , engages, the upper end of λ takes up when the. Frogs k on the bars H _{1 in} different positions on them, where λ rotates around the bolts of the nuts μ lying on ν ρ . The position shown and the dotted line correspond to the lowest middle and highest position of the regulator sleeve W, which in turn are determined by the different speeds of the hoisting machine.

As soon as the rotation of one of the wheels V or V ₁ has progressed so far that one of the pins α β γ can come into contact with the projections λ, it pushes the latter with continued rotation of V respectively. V ₁ to the side. So nuts μ press the button ν ρ and release the lever H respectively. / from, the weight of which falls and thus the shut-off of the steam or generally of the motor substance.

In terms of its position, the pin α corresponds to λ ζ. Β. a stand of the upward moving conveyor pan of about 40 m under the hanging bench. When pin β has reached the position of α, the conveyor pan is about 20 m below the hanging bench, and as soon as pin γ takes the position of α , it is about 10 m below the hanging bench. On the side of the wheels VV ₁ facing away from the pins α β γ , a fourth pin d is adjustable, which, pushing on the corresponding toothed lever λ, acts in a displacing manner as soon as the conveyor bowl is in the range of approximately -f- ι m height in relation to the hanging bank level (= zero) has come.

When the regulator sleeve W reaches its highest position and the conveying speed exceeds its maximum, the legs hi of the toggle lever form an elongated angle (180 °), and the toothed levers λ, which can be rotated about the bolts of μ, come into a position such that the frog k presses on the upper end of a two-armed lever U in such a way that the lower end η thereof, by means of a push rod and the associated button μ, rotates the corresponding button ν and thus the shaft ξ carrying the button and the roller lever y by so much, that the role of the roller lever y lets go of the short leg of the angle lever H so that the long leg falls down due to the gravity of the weight Q. placed on it and thereby suddenly interrupts the supply of motor substance to the conveyor motor, even if the. The conveyor bowl has not yet come close to the hanging bench, so the αβγό pins cannot yet exert their effect.

The toothed levers λ, activated by the pins d , on the pushbutton p, the shaft π and, in order to release the weight lever J , on the roller lever \, perform a completely analogous function, only with the difference that they are steam, weight, and electric or other elementary brakes are quickly activated and the steam inlet and outlet are also blocked.

So that now the part of the pins α. β γ d thrust practiced on the toothed lever λ at the upper end at V ₁ cannot interfere with the regulator, the frogs k or k _{1 are} held on the rods / or I ₁ at the given moment. For this purpose, the guide rods / 1 _{1 are} toothed below. Rails κ (Fig. 1 and Ta) attached, in

the gaps in which the levers & ε connected by the stop pin t and the push rods ζ of αβγ or d detached pawls engage as soon as the apparatus is required to act. The frogs k U ₁ are so respectively by pawl £ ■ on the guides I. I _{1 held} during the shift of the toothed lever λ.

The following example shows how the security apparatus works Funding train explained:

Immediately with the beginning of the rotation of the crank respectively. The cable cage shaft of the hoisting machine also sets the drive shaft JV and the dynamically connected shafts t and t _u, wheels V and V ₁ , and the regulator in rotary motion. Assuming that the rotary movement initially takes place in the direction of the arrows and at a speed whose maximum does not exceed the maximum number of revolutions permitted, the regulator sleeve W will essentially remain in its central position. If the maximum permissible rotational speed of the machine is exceeded during a pull for any reason, with or without the fault of the driver, the regulator sleeve W moves upwards and, with the toggle lever hi in the extended position, immediately causes the lever U, λ y and H to shut off the Steam on the machine and thus its standstill. Before further conveying can take place, the master driver has to open the safety shut-off valves, throttle flaps etc. again by pulling levers and wires or the like and "insert" levers y and H again, ie bring them into the position shown. If, in the course of this uninterrupted train, the conveyor bowl has reached the shaft height of -40 m, then wheel V has turned in the direction of the arrow so far that the pin α touches the tooth of the toothed lever λ. If the drive were to continue at the same speed, at this point the lever H would be released by shifting the lever λ, that is, the machine would again be brought to a standstill. If, however, shortly beforehand the master driver has slowed the conveying speed so far that the lever λ is brought into such a position by the regulator that the pin α inactively passes λ, the conveyance continues and the master driver must continue the deceleration of the rotary movement so that the regulator sleeve W. sink even more, so finally lever λ can no longer be hit by pin γ. In this way, the conveyor bowl also passes the shaft heights - 20 m and - 10 m without hesitation and reaches the suspended bank (. +. Zero). Are justified, depending on the circumstances which (etc Seilausgleichung) in the approved conveyor speed and the conditions of the machine - - shortly before or shortly afterwards occurs but pen and into action, solves the elementary brake by means of the lever ^ / from their bondage and causes it without Consideration for the master driver, that the conveyor bowl comes to rest in any case at the height between the hanging bench and the adjusting disks.

If the rope is well balanced, an integral brake is sufficient. which is only engaged by the security apparatus if the Conveyor bowl in spite of the slowing down of the conveyance forced by the apparatus has driven high above the hanging bench. In the case of insufficient or small rope adjustment it will be advisable to arrange two elementary brakes, one of which is too large Speed near the hanging bench gradually and the other above the hanging bench acts completely suddenly.

The fact that the elementary brake only applies when the conveying speed is reduced is the harmful effects which the sudden required at high speed strong brakes on the ropes and all parts affected thereby the carrier practices to use prevention.

Claims (2)

Patent claims: ι. A device for influencing the speed of elevator machines, characterized in that on rotating discs or wheels (VV ₁ J pins, teeth or the like (αβγδ) reproducing the movement of the conveyor cage are arranged one after the other in such a way that one or the other of them may pins etc on lever (K) acting as soon as the by Centrifugalregulator by means of the toggle lever (hi) moving lever (K) can be approximated these pins on exceeding the permissible conveying speed, which lever (K) recede in contact with one of these pins and Use the arms (vp) to trigger the weight levers, which cause the steam to be shut off or to brake. 2. In the device referred to under 1. the arrangement that the 'different levers (K) with their pivot points on a shaft (r ₁ ). are mounted, which lies in two on guide rods sliding frogs (H ₁₎ (Iţic _1), this (ο. β γ d) striking one of the pins on the lever (K) by this bethätigte locking device (διεζρχ) on the Rods (H ₁ ) are held in order to remove the disturbing effect of the thrust of the lever (K) on the regulator. In the case of the i. and 2. means the arrangement that, if the maximum permissible conveying speed is exceeded, one of the frogs (k) operated by the regulator strikes the upper end of a two-armed lever (U) , the lower end (η) of which by means of a push rod on the corresponding Nufs ( μ) of the associated lever (K) and thus acts on its arm (v) , which triggers the weight lever causing the Dainpfabsperrung. For this purpose 2 sheets of drawings.