DE624422C - Process for emptying storage containers for granular and powdery materials by means of gaseous pressure medium acting on the surface - Google Patents

Description

Method for emptying storage containers for granular and powdery Materials by means of gaseous pressure medium acting on the surface object the invention is a method for emptying storage containers for granular and powdery moist or dry materials using compressed gas. The emptying of storage containers was previously done either by simply draining the goods. or by the fact that the material is pressed out or conveyed by means of compressed air or the like. In the former process, bridging often occurred over the spout of the goods, which prevented the leakage. The conveyance of the goods with compressed air had the defect that the compressed air acting on the surface of the goods only the middle part of the material was conveyed out of the container and thereby a crater arises, through which the air can get to the outlet opening without promoting good. The goods in the container could no longer be conveyed out at all because the compressed air presses the same against the walls of the container.

It has also been suggested to mechanically insert the good into Movement-holding means. destroy the craters formed by the compressed air and to prevent the goods from getting stuck in the container. But all these means are sufficient not enough to ensure proper emptying of the storage container.

In order to remedy these deficiencies, the one located in the storage container Well, while it is under the pumping action of the pressurized gas, under the constant Pressure held by a resilient plate, which the pressurized gas constantly counteracts the outer wall of the container directs.

Several embodiments of the invention are shown in the drawing shown, namely Fig. R shows a storage container for sand and granular materials in section, Fig. z shows a section through two storage containers arranged next to one another, which can be emptied alternately, Fig. g a section through the storage and filling container of a sandblasting blower, Fig. q. a section through one on modified plate pressing the material, Feg. 5 a modification of the drive the printing plate.

The method according to the invention can be used in all cases in which it is a question of conveying granular or powdery moist or dry goods from a storage container. It can be used for grain silos or for emptying collection containers for any goods which are at least so close that the pressurized gas cannot easily pass through the gaps. It can also be used just as well for lead foundry machines for conveying the sand, for sandblasting machines for conveying the granular sand. It can also be used in blow molding machines for filling all kinds of molds. The method is also advantageously carried out as follows: The goods stored in the container i should be fed into the. Container i can be introduced, be conveyed to outlet 4. Around here, a penetration of the to 1 to 6 atm. To avoid compressed pressurized gas through the material and thus the formation of scratches, a plate 5 acts on the surface of the material and is guided in the detachable lid 7 of the container i by means of a Kölbjenstaiige 6. The piston rod 6 carries a piston 8 at the upper end, which can slide up and down in a pressure cylinder 9. The piston rod 6 is sealed against the container i by a stuffing box io or the like. In the cylinder 9 can also be a at the upper end. Pressurized gas can be introduced through line ii and valve i @ 3 in a controllable manner. To be able to lift plate 5 after emptying of the reservoir, at the lower end of the cylinder 9 pressurized gas may be initiated through a provided with a .Regelventil 1 3 line 14 also. The valves 12 and 1 3 are .eingerichtet in a conventional manner so that they can in the closed position, the pressurized gas from the cylinder 9 entvdeichen to be able to move the piston 8 by the pressurized gas from the opposite side.

The mode of operation of this device is as follows: After the container i is filled with the material, the same is to be fed from the container i through the outlet opening 4 to the points of consumption. First the valve 12 is opened and the piston 8 is pressurized. As a result, the plate 5 is pressed onto the surface of the goods. Once now the compressed gas line 2 is opened (rode the pressurized gas above the plate 5 in the tank. The plate 5 is carried out but not tightly i in the container, leaving a small annular gap 15 free. As a result occurs the compressed gas through this ring gap 1 5 and the material lying under the plate 5 exits to the outlet. The plate 5 must always lie tightly on the material in order to prevent the pressure gas from penetrating through the material The plate is elastic to the material and presses itself firmly against the same, for example craters forming in the material, immediately closing. Emptying takes place until the plate 5 has reached the bottom of the container. In the exemplary embodiment shown, the bottom is towards the center ° Slightly inclined, but it can also be flat and have several outlet openings 4.

If the container i is emptied, the compressed gas supply is first at 2 shut off by means of the valve 3, as well as the supply of pressurized gas through pipe i i to the Cylinder g. Then valve 13 is opened so that the pressurized gas flowing in here the piston 8 lifts. As soon as the plate 5 has reached its highest position, can the container can be filled with fresh goods. This can be done through a lockable Filling opening or after lifting the cover 7 with all parts hanging on it.

The device described so far is for a discontinuous one Facility to be regarded as sufficient as a rule. It is for most Foundry machines, such as B. blow molding machines and the like, i11 fully sufficient, because what is in the storage container - good for several forms that need to be filled one after the other.

If, however, the goods are to be used in a company that is constantly working, then: It must be constantly supplied to the point of use. In this case it is advisable to provide several storage containers i (Fig. 2). Each of these has the parts explained for FIG. The outlets 4 are led to a switching element 16 which connects either one or the other container i to the consumption line 17. The valves 3, 12 and 1 3 of the linen container are conveniently connected to those of the other container i by rods 1 8, 1 9 and 2o; that the open position of one valve corresponds to the closed position of the other. These connections can also be applied to just some of the valves.

A filling or lock container 21 can also be provided for the storage container, which can be filled while the container i is being emptied and, after the latter has been emptied, allows the goods contained in it to be quickly transferred to the storage container i. Such an arrangement is shown in FIG. The container 2 1 is placed on the container i, - which is equipped with the same auxiliary equipment as the device according to FIG. -In the lid? One or more openings 22 are provided in the container which can be closed by cones 23. Each cone is suspended from a rod 24 which is hinged to a lever 25. The levers 25 of all cones 23 are arranged on an axis 26 passing through the container; which can be moved by an adjusting device 27 in order to raise or lower the cones 23. A special compressed gas line 28 with valve 29 serves, if necessary, for introducing compressed gas into the container 2 i in order to transfer the material introduced into the thesis into the container i. The transfer of the goods from .dem container zt in the container i can take place after or during the movement of the plate 5. The material is conveyed through the annular gap 15 under the plate 5.

Instead of holding the compressed gas directly into the container, it can also guided through a hollow piston rod 6a to the hollow plate 5a (Fig. 4). In this case, the hollow plate 5a is inclined outward directed channels 3o, which, however, must open above the lower edge of the plate 5a. Since in this case the entire compressed gas through the hollow piston rod and thus through the cylinder 9 must go, the piston 8 must be so large that it also is able to press the plate 5a against the material in the container i.

Instead of advancing the plate 5 through the piston 8 by means of pressurized gas, any other type of elastic advancing device can also be selected. For example, instead of the piston rod 6, there can be a spindle 3 i, the nut 32 of which is driven by an electric motor 33. An adjustable sliding coupling 34 must be switched on between the motor 33 and nut 3a, or the motor 33 is provided with a load regulator 35 which switches it off when the motor 33 is overloaded. The piston 8 can also be moved by a pressurized fluid instead of by pressurized gas.

Claims (1)

PATENT CLAIMS: i. Procedure for emptying Vor. advice containers for granular and powdery materials by means of gaseous pressure medium acting on the surface, characterized in that the material in the storage container is held during discharge by the compressed gas under the constant pressure of a flexible plate acting on the surface, the compressed gas only on the wall of the container can affect the conveyed material. a. Device for carrying out the method according to claim i, characterized in that the plate which acts on the material during discharge from the container by the compressed gas is moved by an additional mechanical pressure medium. 3. Device for carrying out the method according to claim i, characterized in that the pressure plate leaves an annular gap free in the container, through which the compressed gas can only partially act on the surface of the goods.