DE1152665B - Ski conveyor system - Google Patents

Description

Ski conveyor system In ski conveyor systems, it is known to use skips with a hanging lock to use, its actuation at the unloading point with the help of a discharge curve and a device that works together with it and is attached to the skip.

So is z. B. in a known system, the bottom flap of the Skips through a pair of articulated levers and a specially mounted roller lever that both work separately with a discharge curve and a control curve, to control. The opening of the bottom flap, which is rotatably mounted at its lower end of the Skips is caused by the fact that the pair of articulated levers with the one at its joint seated roles intervenes in the two-sided leading discharge curve and with the rest Upward movement of the ski opens the bottom lock in a conclusive manner. It cantilevers the pair of articulated levers far out of the skip profile, since its length is determined through the length of the bottom flap. The discharge curves must lead on both sides act so that the closure is not under its own load and that of the material being conveyed can hit the role of the roller lever freely. Also the control cam of the roller lever must have a two-sided leading effect, so that both the lowering of the flap during the Buoyancy like lifting again during the descent control smoothly and transmit the loads resulting from the flap and its pair of articulated levers can. The known device relates to a skip for upward conveyance, on the other hand, the solution according to the invention relates to a skip for hanging in conveyed goods, d. H. for downward conveying. The solution is to skip the mount of conveyed goods a one-armed mounted on the skip, directly as a support member laying against the hanging flap, this leading into the closed position and up to Engaging the lock is arranged therein holding pivot lever, the when opening the hanging flap in cooperation with the discharge curve from the skip profile can be swiveled out and when exaggerating the downhill ski against the the swinging movement closing the hanging flap by an exaggerated curve from the open one Hanging flap can be swiveled away freely upwards into the skip profile.

Compared to the known solution, there is the advantage that only the locking member and the one-armed pivot lever fixedly mounted on the skip during the opening and closing of the lock act on the hanging flap. While of the overdriving process, the hanging flap changes the one occupied by the unloading Position not, d. That is, it is not exposed to any external forces. For the locking mechanism, simple components are used that are in their Constructive training adapted to the rough shaft hoisting operation without difficulty can be. The hanging flap never leaves the profile of the ski. When overdoing it is only the pivot lever by a friction curve from the open flap swiveled away into the skip profile. He is none other than the one from his own Exposed to load resulting from its own weight. The discharge curves used and exaggeration curves only need to be formed on one side, thereby making them possible simplified and the risk of a. Disturbance due to pollution is reduced.

The drawing illustrates an embodiment; it shows Fig. 1 the skip with hanging flap and locking mechanism according to the invention at the unloading point, FIG. 2 is a sectional view of FIG. 1.

In the case of the arrangement according to FIG. 1, there is a flip lock of the ski 1 from the hanging flap 2, the locking member 3 and the pivot lever 4 as a support member. The mentioned links are also dashed to identify the opening process shown. The locking member 3 consists of the locking levers pivotably mounted about the bolt 5 6 with the rollers 7.

As FIG. 2 shows particularly clearly, the locking levers 6 so arranged on the side walls of the ski that their rollers 7 on the end face survive. When the skips run into the unloading position, they run onto the assigned ones Locking curve 8 = open (see also Fig. 1); The locking levers 6 swiveled clockwise so far that the noses sitting at their lower ends 9 release the hanging flap 2.

The support member 4, which, like the hanging flap 2, can be pivoted about the bolt 10 is stored, has a triangular shape and is free with the edge 11 against the also triangular stop bar 12 of the hanging flap 2. The support member has three rollers 13 a to 13 c (see. Also Fig. 2), which on a common Axis 14 are arranged. As with the locking member 3 are also available with the support member 4 each of the outer rollers on the other end face .des Skips over, The middle roller 13 b faces the lath 15 at a small distance from and with this has the task of opening the lock .during to prevent the hanging flap 2 from opening further while driving through the shaft. By doing the roller 13 b is set against the guide bar 15, it supports the hanging flap 2 from. The two outer rollers 13 a and 13 c only take effect during the unloading process, by running onto the associated discharge curves 16.

At the unloading point are the discharge curves 16 and the Locking curves 8 (in Fig. 1 they are shown in dashed lines, @ because they are through the guide rails are covered), which are on both sides of the guide rails 15 and 17 on carriers or Halzeinbrichen are attached (see. Fig. 2). Only the exaggeration curve 18 is arranged in the plane of the interrupted track plate 15. She works at the exaggeration Skips with the middle roller 13 b of the support member 4 together.

The skip carries the transfer chute 19 and the struts on the underside 20, on which the vessel base 21 is attached. The one built into the transfer chute 19 Stop 23 prevents the hanging flap 2 from pivoting out beyond the skip profile. The elastic transfer surface 22, e.g. B. consisting of rubber, prevents trickling through of the contents when unloading the Skips.

The following is the operation of the new skip conveyor described above all with regard to the exaggeration process.

As soon as the skip - moving downwards - moves into the unloading position, the two outer rollers 13 a and 13 c of the support member 4 run on the discharge curves 16 on. Since these have advanced a little against the track plates, this occurs on the rollers 13 a and 13 c when running a contact pressure perpendicular to the direction of movement of the Skips. This contact pressure is transmitted from the support member 4 to the stop bar 12 and thus -auf the hanging flap 2 and presses it against the outlet opening of the Skips 1. This relieves the noses 9 of the locking levers 6.

The locking levers 6 are meanwhile with their rollers 7 on the locking curves 8 running obliquely to the vertical run up. As a result the relief of the noses 9 they are smoothly deflected in a clockwise direction. The hanging flap 2, which is thus completely released, opens under the pressure of the conveyed material now to the extent that the rollers 13 a and 13 c of the support member 4 at the lower Evade the development of the discharge curves 16. The conveyed material flows through the Transfer chute 19 into the unloading pocket, not shown. When open the hanging flap rests against the stop 23. So act in this opening process the support member 4 and the locking lever 6 with the corresponding discharge curves 16 and 8 together.

If the ski is overdriven, the hanging flap 2 remains opened and the conveyed material flows out. That can be accepted. Dangerous however, the support member 4 that has stepped out of the skip profile can become. so but the support member is loosely pivoted and runs during the exaggeration process with its middle roller 13 b on the exaggeration curve 18 on. During this movement process it is pivoted counterclockwise according to the invention into one on the skip profile swiveled free space provided for this purpose (both positions are shown in dashed lines). The exaggeration process is thus both for the skip and its locking mechanism also safe for the facilities in the area of the unloading point. The elastic transfer surface 22 is pushed by the transfer chute 19 when exaggerated safely pushed aside.

When traveling upwards, the movements of the support member 4 take place in the reverse order. The running rollers 13 a and 13 c running against the discharge curve 16 from below deflect the support member 4 in the direction of the discharge opening and thus press the hanging flap 2 against the same. Shortly thereafter, the locking levers 6 also step back into the locking cam 8 and thus secure the hanging flap.

Claims (4)

PATENT CLAIMS; 1. Skip conveyor system with a lockable skip Has hanging flap lock, to operate it at the unloading point with a Discharge curves interacting device attached to the skip is provided, characterized in that .in a skip (1) for hanging in conveyed goods A one-armed (2) legender, this leading into the closed position and until the intervention of the Lock is arranged therein holding pivot lever (4) when opening the hanging flap (2) in cooperation with the discharge curve (16). from the skip profile can be swiveled out and counteract when overdriving the downhill ski (1) the pivoting movement closing the hanging flap (2) by means of an exaggerated curve (18) from: the open hanging flap (2) can be swiveled freely upwards into the skip profile is. 2. Skip conveyor systems according to claim 1, characterized in that the hanging flap (2) and the pivot lever (4) are coaxially mounted. 3. Skip conveyor system after Claim 2, characterized in that as. Locking a swivel, on the skip mounted roller lever (6) is provided is the one at the unloading point interacts with unlocking cams (8). 4. Skip conveyor system according to claim 3, characterized in that the discharge curve (16) is designed so that when the ski is retracted into the discharge position, the pivot lever (4) initially presses against its subsequent opening movement against the hanging flap (2) and thereby releasing the locking member (3) relieved. Considered publications: German Patent Nos. 579 209, 582 053, 588 939, 605 537, 705 783, 819 067.