DE294681C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

Vr 294681 - CLASS 81 e. GROUP

H. FLOTTMANN & COMP, in HERNE i.W.

Drive for shaking chutes that move in the event of a fall.

Patented in the German Empire on May 18, 1915.

In the case of shaking chutes that, be it on a rising level or hanging on pendulums, are raised by a motor and then fall back freely at the end of the return stroke There is an extraordinarily different burden to carry out their conveyance. this is particularly the case when such dump carriages are used in underground mines because here is the length of the slide

ίο changes, the work goods soon in large, soon falls in small amounts, but above all because those are subject to change of location Have slides in different inclinations to work.

Maintain such slide systems with butting, d. H. with flywheelless and with the Slide to be driven in synchronism with motors. Since you are now underground is dependent on leaving the motor in the slide, regardless of whether the work resistance the channel has become larger or smaller, it must be chosen so that he can overcome the greatest work resistance. Furthermore, since the engines are mostly are in the unskilled hands of the miner, who usually fails to keep the equipment - Compressed air - to be adjusted accordingly by operating a throttle device, so it often happens that the slide with lower work resistance, namely when stored flat.

If the well-known hydraulic power transmission is used for the drive, this occurs Ubelstand is not one, but then it is missing. required acceleration difference between up and down stroke.

The invention therefore aims to avoid the possibility of the shaking slide To secure an accelerated return stroke according to their mode of operation.

The purpose is achieved by the fact that the thrusting motor uses a throttled liquid, keitskolben sets in motion, the throttling of which is under its own weight The return path taking place on the slide is changed so that it provides the required slide acceleration allows.

This can be done by the fact that the throttle device is automatically and return stroke of the shaking chute to a different opening or by doing that a plunger offers a variable passage opening for the displaced liquid on its way. The throttling should be followed when lifting the chute, be it over the entire lift or before the lift change Type of liquid brake act strongly retarding, while the fall with the required Acceleration can happen.

The invention is illustrated in the drawing, namely represent:

Fig. Ι a shaking slide system partly in section, partly seen from the side,

Fig. 2 shows the plan of the same plant,

3 shows a section through a throttle device with an alternating opening, and FIG

4, 5 and 6 show a vibrating slide system

in which the special type of throttling is brought about directly by the plunger will.

The shaking slide ι moves with its rolling elements 2 on the sloping Surfaces 3. This movement is caused by the reciprocating piston 4 of the motor 5 conveyed. The motor 5 is preceded by a cylinder 6, in which the piston serving as a plunger Piston rod 7 is immersed. The cylinder 6 is filled with water, which acts as a liquid piston serves, and is displaced when the plunger 7 is immersed. . Through the hose 8 and the throttling device 9, the liquid piston enters the hollow piston 10, the cavity of which is in direct contact with the interior of the cylinder 11. The hollow one Piston 10 is in the cylinder 11 by the universal joint coupling 12 and the angle bracket 13 are connected to the slide 1 in an articulated manner is. The piston 10, however, is supported against the firmly anchored abutment 14, namely also by a universal joint coupling 15.

The throttling device g has a valve body 17 in its valve chamber 16, which is moved by the liquid piston as far as its guides allow, and the has its seat on the opening 18 of the intermediate plate 19 when the liquid piston flows through the valve body bore 20 to the left, which, however, the full opening 18 at Releases the flow of the liquid piston to the right.

The operation of this facility is as follows:

If the piston 4 is acted upon from the left by the drive means, the plunger is displaced 7 the water from the cylinder 6 into the cylinder 11 until the piston 7 has found its right end position. Thus, since the piston 10 is fixed, the cylinder 11 must over moved this piston away to the right. So he will lift chute 1. In this way, the liquid piston has the relatively narrow bore 20 of the valve body 17 must flow through, and since this flow rate is far from in increases to the same extent as the working pressure of the piston 4, an excessive speed, d. H. So a going through the vibrating chute 1, do not occur when lifting.

The motor 5 now reverses. The piston 4 can here from the right with the drive means be applied. However, this can also be omitted, so that it is caused by its own weight the slide is returned to its original position. In any case, it is now with Stroke change of the liquid piston in the cylinder 11 by the motor reversing pressure-free do; it is returned to the cylinder 6 by the slide weight. Here he finds the opening 18 of the throttle device 9 fully open, so that he faster flow back, so the slide can fall back faster than the way there took place.

It goes without saying that this mode of operation should be performed with a view to unconditional pause the cycle between the engine and the chute is only possible if the liquid piston remains completely inelastic, d. H. if it is not through an air cushion, as is the case with the known hydraulic power transmissions is common in the so-called collector is influenced.

With regard to the peculiarity of the working method of the vibrating chutes working in mines it is not necessary that the throttle opening for the liquid piston changes for the outward and return travel insofar as it is smaller for the upward stroke than for the return stroke, and remains constant for the duration of the stroke.

A success similar to that shown by the device according to FIGS. 1 to 3, Rather, it can also be achieved by the device according to FIGS.

Here the chute 1 is moved in the same way by rolling elements 2 on an inclined rolling plane 3 like the slide 1 according to FIGS. 1 and 2. On the slide floor, the motor 5 is with the Fastened piston 4, the piston rod 7 also serves as a plunger. This plunger dips into the hollow piston 10. Its cavity is, as in the embodiment 1 to 3 with the interior of the cylinder, which is also attached to the bottom of the slide 11 in direct connection. The cavity of the piston 10 is now held so that the clear width decreases to steadily towards the bottom, so that the end of the plunger 7 when immersed in the piston 10 a steadily decreasing clear ring against it Leaves free inner wall. In addition, the piston 10 is against the abutment 14 by means of Ball 21 supported, which can roll on the surface of the abutment. The change of direction of the motor 5 is done in a known manner by stopping the lever 22 against the fixed stops 23. By these, the taps 24 are accordingly on the inlet or exhaust posed.

The facility works as follows:

If the piston 4 is acted upon from the left, the plunger 7 is supported against the Liquid in the flask 10 from. The chute 1 is with the cylinder of the engine 5 to the left emotional. At the same time, however, the cylinder 11 also goes to the left. This causes the plunger to dive 7 deeper into the piston 10 because the liquid from the piston 10 into the cylinder 11 must cross. This liquid is subject to the transmission ratio

the pressure of the propellant that acts on the piston 4. You will first since the throttling is almost zero, to be able to overflow quickly. But since the throttling with further Immersion of the plunger 7 becomes larger and larger, the speed must counteract Remove the end of the lift accordingly. This adapts to the required slide movement exceptionally well, because the upper stroke change should take place gently.

If the motor 5 has reversed, the liquid must flow from the cylinder 11 into the piston 10 flow back. But you can only do this according to the between the plunger 7 and the Inner wall of the piston 10 existing free opening. Since this opening during the return stroke grows, the slide can take on the acceleration demanded of it; so she will have reached the required speed at the end of the return stroke. Controls the engine 5 again, the lift begins again, and since this is almost completely unbraked, so the slide with an initial acceleration that is extraordinarily favorable for the promotion pulled away under the advancing good.

The throttling effect sought in the context of the invention, different for the upward and downward strokes, lies in the reversal of the change possibility of the throttle opening. In addition there is the different flow rate of the Liquid in the hollow piston 10 according to the different pressure for the on and Return stroke, once by the motor 5 and the other time by the weight of the slide is exercised.

Claims (3)

Patent Claims: 1. Drive for conveying chute carriages in the fall, in which a pushing Motor acts on the chute by means of a liquid piston, characterized in that that when lifting the chute (1) the liquid piston is throttled, the throttling of which is below the Dead weight of the slide taking place return paths is changed so that it is the required Allows slide acceleration. 2. Drive according to claim 1, characterized by a change in stroke automatically changing throttle opening. 3. Drive according to claim 1, wherein a penetrating in the liquid piston The plunger plunger dips into a hollow piston with a tapering inner width, thereby characterized in that the cross section of the plunger piston (7) compared to the tapering clear cross section of the hollow piston (10) is dimensioned so that when the plunger (7) penetrates, an increasing Throttling of the displaced liquid is effected. 1 sheet of drawings.