DE1130754B - Device for conveying fine-grained goods to a higher level - Google Patents

Description

Device for conveying fine-grained material to a higher level There are devices for the pneumatic or hydraulic conveyance of fine-grained Well known where the material to be conveyed in dense bulk has the cross-section the delivery pipes are completely filled.

With this promotion the good becomes as it were like a tightly closing one Piston to the desired delivery head by means of a static overpressure on one side brought. The frictional forces can reduce the throughput of air through the column of goods between the fine-grained particles with possibly little whirling up like this to be reduced far that the conveyed material is similar to a liquid also upwards flows through pipes and pipe bends at a low speed and thus sets a correspondingly low abrasion. The application of this funding principle comes across, however, with regard to the necessary for the control of the flow of conveyed material Valves, cellular wheels, mechanical locks or the like. On difficulties if larger pressure differences occur within the conveyor system. The invention relates to a device for conveying fine-grained material to a higher level, at which the conveying work is done by a gaseous pressure medium. The invention is based on the task of a simple working according to the above-mentioned principle Device for conveying fine-grained goods to a higher pressure level without shut-off devices of the type mentioned, such as slides, cellular wheels, etc. to create for the conveyed material. The inventive training can be seen in the fact that the device consists of a inclined displacement with controlled pressure medium inlet, one on the delivery side provided and at an angle connected to the displacement pipe and one arranged on the Gutzufuhrseite, adjoining the displacement inclined Feed pipe with a pneumatically achievable shut-off and that with periodic supply of the pressure medium in the displacement by the pressure medium on the one hand a blocking of the material supply in the feed pipe Gas flow brought about and on the other hand that located in the displacement and delivery pipe Gutsäule is moved in the sense of promotion.

The device according to the invention is distinguished from the known by the advantage that only one for the control of the gaseous pressure medium controllable shut-off device is required, since the control of the material flow is only takes place through the pressure medium used for the promotion itself in a pneumatic way. In order to make this possible, the shut-off that can be achieved pneumatically is required in a manner known per se on the feed pipe - separated from the feed of the Pressure medium - gas-permeable wall parts or slots provided. These slots allow a gas flow after switching on the pressure medium supply in the cubic capacity by the material stored in the feed pipe, under whose effect the particles of the Conveyed goods against each other and against the channel walls with regard to the friction that occurs be held.

In order to ensure safe operation in the device according to the invention to ensure that the pressure medium inlet of the cubic capacity is arbitrary or inevitably controlling shut-off device arranged in such a way that the particles of the material to be conveyed be kept away from the passage cross section of the pressure medium inlet. Around to improve the controllability of the conveyor device designed according to the invention, can according to the further embodiment of the invention in addition to the gas-permeable slots for the accelerated discharge of pressure medium in the area of the cubic capacity there is yet another Pressure medium discharge nozzle with a discharge valve be available.

The invention further relates to the design of the pressure medium supply system. This can advantageously be in the pressure medium inlet with a pressure medium storage space be provided, the supply of a certain, the intended delivery stroke allows adapted amount of pressure medium.

It also offers advantages to have a piston compressor in the pressure medium inlet to provide the supply of a certain via check valves with each stroke Makes the amount of pressure medium to the cubic capacity possible.

Since you are generally only with the conveyor system according to the invention a limited delivery pipe as well as material volume can be used to enable larger conveying capacities several conveying systems designed according to the invention in Series connection or parallel connection can be combined with one another. In the drawing several embodiments of the training according to the invention are shown.

1 to 3 show a conveyor system designed according to the invention, whereby the different figures refer to different phases of the work process relate.

Fig. 4 shows a somewhat modified conveyor system in which in the Pressure medium line a memory is arranged.

In a further embodiment of the invention according to FIG in the pressure medium supply line a piston compressor, which supplies certain amounts of pressure medium possible per stroke, indicated.

Figures 6 and 7 illustrate in a longitudinal and a cross section the inclusion of slots for the purpose of hydraulic control or hollow wall parts in the feed pipe, the hollow wall parts being the feed pipe penetrate.

Finally, FIG. 8 shows a scheme of a conveying system for greater conveying heights again with parallel and series connection of several individual conveying devices.

In Fig. 1, the inclined feed pipe is at 11 Conveyor referred to, which at its right end with the Fülltrichterl2 communicates. This hopper is not explained in any further detail Way, the fine-grain conveyed material 13 is supplied. The feed pipe 11 goes on his left end in the also inclined displacement 11 a over. 14 means a longer one tubular conveying pipe through which the conveyed material moves to a higher level will. The delivery pipe 14 and the displacement 11 a are at an angle to each other and are connected to one another by means of a pipe bend 15. 16 means the inlet of the pressure medium.

The pressure medium reaches the displacement 11 via a shut-off device 17 a. The pressure medium supply line is preferably arranged so that it is opposite the inclined feed pipe 11 and displacement lla includes an acute angle. Above the pressure medium inlet 16, but below the filling funnel 12, are in the feed pipe 11 sieve-like arranged slots 18 as ventilation openings provided, through which the pressure medium, which in part is in the feed pipe 11 stored good flows through, can escape. 19 still means parts of the screen, which the slots 18 surround. The ventilation slots 18 are expediently not directly under the filling funnel, but with the inclusion of a certain pipe section arranged at a distance from the hopper to allow the to enable fine-grained goods during the pressure reduction.

The following is the mode of action of the inventively designed Conveying device will be explained in more detail with reference to FIG. 1 and FIGS. 2 and 3. In Fig. 1, an operating state is shown in which both the hopper 12, the feed pipe 11, the displacement 11 a and the delivery pipe 14 up to one certain height are filled. The shut-off element 17 is in the pressure medium inlet 16 initially closed sen. If the shut-off element 17 is now opened, it is through the inlet 16, the pressure medium (gas or the like.) Blown into the displacement 11 a. Through this it follows that on the one hand the column of goods standing in the conveying pipe 14 and displacement 11 a, as shown in FIG. 2, is shifted. By a process or the like. The upper part of the storage mass according to the desired purpose on the upper one End of the conveyor pipe 14 are derived. On the above the pressure medium supply the hopper facing side of the feed pipe 11 is through the between the pressure medium supply line and the slots 18 entering flow of the pressure medium the movement of the good parts is prevented. After moving the in displacement and delivery pipe 14 located manor column, d. H. a delivery stroke, the shut-off device 17 is again closed. As a result, the supply of pressure medium to the displacement 11 a ceases, is due to the outflow of the pressure medium through the Schlitzel8 in a relatively limited period of time a reduction of the pressure in the space filled by the pressure medium result, which has the consequence that the shut-off of the flow of material is now lifted is and from the hopper 12 good parts under the influence of gravity the charging tube flow into the Hubraumlla so that the cubic capacity again is completely filled (Fig. 3). By opening the shut-off device 17, the Play the same conveying process again.

It can be seen that with periodic opening and closing of the shut-off device 17 the arrangement described works like a piston pump by the periodically supplied pressure medium such as a driving piston the column of goods in the sense of a Moves the conveying movement upwards. It is essential here that the pressure medium at the same time next to the lifting of the column of goods located in the delivery pipe, the shut-off which enables good parts to pass from the hopper 12 into the feed pipe 11.

FIG. 4 shows a somewhat modified version compared to FIGS. 1 to 3 Conveyor system in which to bring about an accelerated flow of the good parts in the displacement 11 a in the region of the elbow 15 a pressure medium discharge nozzle 21 is provided with discharge valve 21 a. Furthermore, the arrangement according to FIG. 4 nor the additional training that within the pressure medium inlet 16 a pressure medium storage space 22 is present, which is through a throttle cross-section 23 the pressure medium is supplied. As a result of the effect of the throttle cross-section it results in this arrangement that when reversing the shut-off element 17 in each case only a very specific amount of pressure medium given by the pressure medium storage space 22 can enter the conveyor system. Instead of a throttle cross-section 23 it is Of course, it is also possible to provide a controlled shut-off device, which in Dependent on the shut-off element 17 is actuated. That regulates the pressure medium supply Shut-off element 17 is inevitably at a certain frequency or after a certain Program redirected in order to achieve regular funding.

Fig. 5 shows a further embodiment in which by a Piston compressor 30 to the charging pipe 11 over a certain amount of pressure medium the pressure medium inlet 16 is supplied. 31, 32 mean in training after Fig. 5 Check valves that draw in air from the atmosphere respectively. Secure a shut-off of the feed pipe 11 with respect to the piston during the intake stroke.

FIGS. 6 and 7 show a further detail in the conveying pipe 14 of the feed pipe. There wall parts 33 are provided which both have a subdivision effect of the material flow as well as bring about an improved discharge of pressure medium. For this purpose, the wall parts 33 are partially hollow that they are about Forming plane perpendicular hollow channels 33 a, which derive the Make pressure medium possible through fine sieve-like slots 34 in the channels 33a can occur.

As can be seen, it is in the essence of the conveyor device according to the invention, that the promotion can only take place intermittently. If you want a continuous one Achieve working method, so are according to the further embodiment of the invention several parallel conveyor systems are provided, their pressure medium control with such temporal phase shift takes place that an approximately uniform promotion allows. If larger heights have to be overcome, there are several conveyor systems provided in series connection.

Fig. 8 shows a corresponding arrangement in which two pressure medium delivery devices 41 a, 41 b are connected in series and also to the series connection of two systems two further systems connected in series 42 a, 42 b connected in parallel are.

Claims (11)

PATENT CLAIMS: 1. Device for conveying fine-grained material to a higher level, at which the pumping work is carried out by a gaseous pressure medium is made, characterized in that it consists of an inclined displacement (lla) with controlled pressure medium inlet (16), one provided on the delivery side and at an angle with the displacement (11 a) connected conveyor pipe (14) and one arranged on the material supply side, adjoining the displacement (via) inclined feed pipe (11) with shut-off that can be achieved pneumatically consists and that with periodic supply of the pressure medium in the displacement (11 a) through the pressure medium on the one hand a shut-off of the material supply in the feed pipe causing gas flow and on the other hand in the displacement (lla) and Conveyor pipe (14) located column of goods is displaced in the sense of conveyance (Fig. 1 to 3). 2. Device according to claim 1, characterized in that for the pneumatically achievable shut-off in a manner known per se on the feed pipe (11) gas-permeable wall parts or slots (18) are provided. 3. Device according to claim 1, characterized in that in the Pressure medium inlet (16) of the displacement (lla) an arbitrarily or compulsorily controllable Shut-off element (17) is arranged in such a way that the material particles from the passage cross-section the pressure medium inlet are kept away. 4. Device according to claim 1 and 2, characterized in that inside the feed pipe (11) in the area of the slots (18) wall parts (33) are switched on, the cross-section of the feed pipe in parallel channels disassemble for the good and designed as hollow channels (33 a) and also with provided gas-permeable slots (34) for accelerated discharge of pressure medium are (Fig. 6). 5. Device according to claims 2 and 4, characterized in that that in addition to the gas-permeable slots (18, 34) for accelerated discharge of pressure medium in the area of the displacement (lla) still a pressure medium discharge nozzle (21) with a Drain valve (21a) is present (Fig. 4). 6. Device according to claims 1 and 5, characterized in that that a pressure medium storage space (22) is present in the pressure medium inlet (16), the supply of a specific, the intended delivery stroke adapted pressure medium quantity allows (Fig. 4). 7. Device according to claim 6, characterized in that the pressure medium storage space (22) via a throttle cross-section (23) or a controllable valve to the pressure medium supply line is connected (Fig. 4). 8. Device according to claim 1, characterized by a piston compressor (30) in the pressure medium inlet (16), which via check valves (31, 32) with each Stroke the supply of a certain amount of pressure medium to the displacement (11 a) is possible makes (Fig. 5). 9. Device according to claim 1, characterized in that the the Organ (17, 30, 32) which enables the supply of pressure medium inevitably has a specific one Frequency is reversed or controlled according to a specific program (Fig. 1 until 5). 10. Device according to claim 1, characterized in that several such devices are connected in parallel, their delivery strokes with a certain Phase shifts to one another are set to be as continuous as possible Enable funding. 11. Device according to claim 1, characterized in that at larger head several such devices (41 a, 41 b) in series are arranged (Fig. 8). Publications considered: German Patent No. 588 014; French Patent No. 1,127,558; VDI magazine 1950, p. 577 bis 580.