EP1917440A1

EP1917440A1 - Device for delivering thick matter

Info

Publication number: EP1917440A1
Application number: EP06776698A
Authority: EP
Inventors: Klaus Neubrand; Klemens Finsterwalder
Original assignee: Putzmeister Concrete Pumps GmbH
Current assignee: Putzmeister Concrete Pumps GmbH
Priority date: 2005-08-23
Filing date: 2006-08-09
Publication date: 2008-05-07
Anticipated expiration: 2026-08-09
Also published as: PL1917440T3; DK1917440T3; US20110318192A1; CA2619711A1; ATE431504T1; JP2009506247A; KR20080036207A; CA2619711C; JP4977706B2; US8393265B2; CN101248274B; DE102005040014A1; US8033214B2; ES2324891T3; US20080219870A1; CN101248274A; WO2007022867A1; EP1917440B1; DE502006003734D1

Abstract

A device for conveying a mixture of substances includes a delivery cylinder having perforations and is configured to separate, through the perforations, mixture components from the mixture of substances. A material feed space is connected to an inlet side of the delivery cylinder and delivery line is connected to the outlet side. A delivery piston is reciprocatable through the material feed space and the delivery cylinder. A closure member is disposed at the outlet side of the delivery cylinder or in the delivery line and is movable between open and closed positions. A control unit is operable to move the delivery piston and a drive mechanism operable to move the closure member. The control unit is configured to respond to displacement signals of the delivery piston so as to cause a closing movement of the closure member and is configured to respond to output signals of an upstream pressure sensor so as to cause an opening movement of the closure member.

Description

Device for conveying thick material

description

The invention relates to a device for conveying thick material with a delivery cylinder, with a feed side connected to the conveyor cylinder material feed chamber, with a discharge side connected to the delivery conveyor line, with a back through the material feed space and the delivery cylinder and herverschiebbaren delivery piston and with a arranged on the outlet side of the delivery cylinder or in the delivery line, adjustable between an open position and a blocking position blocking member.

There is a device of this type is known (EP-B-681672), which is intended for conveying thick materials with crushed metal scrap. The thick materials are fed there via the material feed space of the conveyor and moved by means of the delivery piston in the delivery cylinder and pressed from this through the delivery line. The blocking element ensures that the thick material is first compressed in the delivery cylinder at each stroke before it is pressed into the delivery line when the blocking element is open. With this device, the thick material is transported together with the foreign substances contained therein of scrap metal and the like solids through the conveyor tube.

In principle, it is also possible with this device to transport biogenic waste, which as a rule contains not only organic constituents, but also considerable foreign substances. For a further processing process, the foreign substances must be removed from the material stream. As long as the waste is in a relatively dry form, the foreign matter separation is usually done by hand. In the case of wet organic waste, on the other hand, the path of comminution is chosen. For example, hammer mills are used for the treatment of food waste. which are capable of crushing foreign matter, such as knife handles to a particle size of less than 10 mm. Such conditioned thick materials can indeed be transported by means of a slurry pump of the type specified. However, this has the disadvantage that the foreign substances are still contained in the material flow. The problem of substance separation is thus not resolved, but shifted to a lying at the end of the transport process step. Thus, for example, substrate is moved from food waste, which is fed to a fermenter, and still contains shredded plastic packaging, cans, tubes, knives, forks as foreign substances. In the digestate, the organic substance is degraded there. However, the comminuted foreign matter present in the sludge must still be removed if the sludge is to be used as an organic nitrogen fertilizer. Without a separation, only disposal via incineration remains.

Proceeding from this, the object of the invention is to improve the known device for conveying thick matter in such a way that the foreign substances are separated from the material stream before the actual processing stage for the useful substances.

To solve this problem, the feature combination specified in claim 1 is proposed. Advantageous embodiments and modifications of the invention will become apparent from the dependent claims.

The inventive solution is based on the idea to develop a device that combines the properties of a sludge pump, a sieve and a press in itself. To achieve this, in a device of the type specified, the delivery cylinder is perforated at least over part of its cylinder jacket. In this case, the device forms a press for the thick substances conveyed via the piston from the material feed space into the delivery cylinder when the blocking element is blocked. The perforated cylinder jacket forms a sieve, through which the liquid materials are conveyed under the action of the pressure built up by the press to the outside in a collecting shaft. The foreign substances are then pressed into the delivery line in the manner of a pump when the blocking element is then opened.

An advantageous embodiment of the invention provides that the perforations of the cylinder jacket are formed by a breadboard. The perforations are arranged in a swept by the delivery piston when moving back and forth region of the cylinder jacket. It has proven to be advantageous if the opening cross-section of the perforations forming holes on the shell inside is smaller than on the outer shell side. In order to avoid premature wear, the cylinder jacket of the delivery cylinder expediently consists of an internally hardened material.

A preferred embodiment of the invention provides that in the region of the cylinder jacket, a slider is arranged, which is displaceable relative to the cylinder jacket between a closed position closing the perforations and an open position which releases them.

Advantageously, the cylinder jacket is enclosed by a slide tube. The slide can be moved axially relative to the cylinder jacket. An advantageous embodiment of the invention provides that the cylinder jacket is perforated at most over half its length, while the slide has a closed lateral surface and is moved from the open to the closed position by half the cylinder jacket length.

In principle, however, it is also possible for the slide to have a grid of holes and closed spaces which is complementary to the hole pattern of the cylinder jacket. In this case it is possible that the slide between the open position and the closed position in the axial direction or in the circumferential direction by half the pitch of the hole pattern relative to the cylinder jacket is displaced or rotated. As a result, only a relatively small rotational or stroke movement of the slide results in comparison to the embodiment variant with half the cylinder length.

In principle, it is also possible to use a closing device which has a separate closing element, for example in the form of a stopper or a closing cone, for each perforation hole.

According to a further preferred embodiment of the invention, a control unit for the coupled control of drive mechanisms for the piston, the Sperrorgan- and / or the slider movement is provided. To achieve this, the control member expediently forms a follow-up control for controlling the drive units of the piston, the blocking member and the slide.

In this context, it is advantageous if the control unit responds to the travel signals generated by the piston triggering a closing movement of the blocking member, and / or if the control unit to output signals of a front of the blocking member in the delivery cylinder or in the delivery line arranged pressure sensor to trigger a Opening movement of the locking member responds.

Accordingly, the slider may have a controllable via the control unit drive mechanism. In this case, the control unit, for example, responsive to path signals of the delivery piston triggering an opening movement of the slide upon penetration of the delivery piston in the delivery cylinder, while it responds to a pressure signal of the pressure sensor triggering a closing movement of the slider when exceeding a predetermined pressure threshold. To ensure that the perforation holes are always open for the passage of the beneficial substances, a cleaning device acting on the perforation holes with compressed air or pressurized water is expediently provided. Apart from that, the clogging of the perforation holes with filter cake is reliably avoided by the fact that the cylinder surface is automatically cleaned by the passing conveyor piston during each lifting operation.

The over the piston feed adjustable pressure at which the locking member is opened, makes it possible to selectively squeeze the existing particles in a specific case and thereby obtain a high reliability. In addition, it is proposed according to an advantageous embodiment of the invention that the delivery line opens into a recirculated to the material feed room, preferably designed as a bioreactor return path. A heating device which heats up the conveyed material can be arranged in the return path. In order to extend the residence time, a preferably meander-shaped extension section can be arranged in the return path.

In addition, a pipeline leading to a processing station can be connected to the outside of the perforated cylinder jacket. The compressed through the perforations useful materials can be promoted via this pipeline to the processing station. This gives the pump the function of a two-phase pump.

The device according to the invention is particularly suitable for carrying out a method for conveying mixtures of substances with different mixture components, of which at least one of the mixture constituents has a predominantly viscous consistency and at least one other mixture constituent has a predominantly particle-like solid consistency. According to the invention, the substance mixture is thereby pressed under construction of a pressure in a pressure chamber, wherein the mixture components with predominantly viscous consistency and the mixture components with predominantly particulate solid consistency are separated by the pressure built up in the pressure chamber to form different streams. The separation into different material streams preferably takes place in that the mixture constituents with predominantly viscous consistency are forced out of the pressure space into a first conveying path by discharge openings in a boundary wall, and that the mixture constituents predominantly have a particle-like solid consistency Opening a blocking member are urged from the pressure chamber in a second conveyor line. The opening of the blocking member is expediently triggered when a predetermined pressure limit is exceeded in the pressure chamber. Advantageously, during a stroke movement of the piston, the predominantly viscous mixture constituents are pressed through the perforations in the wall of the cylinder with the obturator closed, while the predominantly particle-like solid constituents of the mixture are displaced into a conveying line adjoining the cylinder after opening the closing organ.

In the following the invention will be explained in more detail with reference to an embodiment shown schematically in the drawing. Show it

Fig. 1 is a diagram of a single-piston pump for processing and

Promotion of biogenic waste;

2a to c a side view, a longitudinal section and a cross section of the perforated cylinder jacket of the delivery cylinder;

Fig. 3 shows a meandering guided extension track for the

Installation in the return path of the pump circuit according to FIG. 1. The apparatus shown in the drawing is intended for processing and conveying of thick materials containing a liquid or pasty useful portion and solid foreign components. The device comprises in the manner of a piston pump one with a hydraulic piston 11 of a hydraulic cylinder 10 coupled plunger-like delivery piston 12, a feedable via a feed chute 14 with thick material material feed space 16, an input side to the material feed space 16 and output side connected to a feed line 18 conveyor cylinder 20, and a arranged on the output side of the delivery cylinder 20 slider-like blocking member 22 which is displaceable transversely to the delivery cylinder between a closed and an open position. The cylinder jacket 24 of the delivery cylinder 20 has formed as a perforated hole perforations 26, which open on the outside of the cylinder jacket 24 in a receiving shaft 28. The supply of material to the feed chute 14 takes place in the exemplary embodiment shown via a hopper 30 and a screw conveyor 32.

In such a device, the sequence of a pump cycle is as follows:

a) At the beginning of the cycle (see Fig. 1), the delivery piston 12 is in its retracted position in the hydraulic cylinder 10. The material supply space 16 is filled via the feed chute 14 to above the piston diameter, while the blocking member 22 is closed.

b) Then, the hydraulic piston 11 is set together with the delivery piston 12 in the direction of locking member 22 in motion and pushes the material in the material delivery space in the delivery cylinder 20. In the delivery cylinder 20, a pressure P builds up. As a result, liquid and pasty components are pressed outward through the perforations 26 in the cylinder jacket 24. At the same time, the cylinder jacket

24 cleaned on the inside of the filter cake by the conveyor piston 12 passed by. In the remaining in the delivery cylinder 20 Mas- The pressure increases up to a predetermined limit pressure Pzrenz, which can be set product-specifically. The limit pressure is selected, for example, so that packages located in the conveyed material burst and release their contents. The useful fraction pressed through the perforations 26 flows into the collecting chute 28 and is fed from there to a further processing stage.

c) If the limit pressure P _G Renz reached, this pressure is held for a short time.

d) Then opens the blocking member 22. This results in a pressure drop, so that the delivery piston 12 can move to its final position within the delivery cylinder 20. With the delivery piston 12, the foreign fraction still present in the delivery cylinder 20 is shifted into the delivery line 18 for further treatment.

e) The blocking member 22 returns to its closed position.

f) The hydraulic piston 11 moves back together with the delivery piston 12 in the starting position. At the same time, the material feed space 16 is refilled via the feed chute 14.

The movements of the delivery piston 12 and the blocking member 22 are controlled via a control unit 40 in the manner of a sequential control via suitable drive units coupled.

Depending on the nature of the starting material to be processed, the process described can be repeated several times. With biogenic substances, the interposition of a bioreactor reactor in the form of a hydrolysis stage may make sense. For this purpose, a recirculation path 34 recirculated to the loading shaft 14 is used, which depending on the desired residence distance. duration may also include a meandering guided extension 36.

As can be seen from FIGS. 1 and 2a, the perforated cylinder jacket 24 is surrounded by a tubular slider 38, which is displaceable relative to the cylinder jacket 24, between a closed position closing the perforations 26 and an open position which releases them. In the embodiment shown in Fig. 2a, the cylinder jacket is perforated about half its length, while the slide has a closed lateral surface and is moved from the open to the closed position by half a cylinder barrel length.

In the embodiment according to FIG. 1, it is indicated that the slider 38 has a grid of solderers and closed intermediate spaces which is complementary to the hole pattern of the cylinder jacket. In this case, it is possible that the slide between the open position and the closed position in the axial direction or in the circumferential direction by half a pitch of the breadboard relative to the cylinder jacket is displaced or rotated. This results in a relatively small lifting or rotational movement of the slider 38 in comparison to the embodiment of FIG. 2a. In Fig. 1 it is indicated that the slider is also controlled via the control unit 40. For this purpose, the control unit 40 forms a sequence control for controlling the drive units of the delivery piston 12, the locking member 82 and the slider 38th

In summary, the following should be noted: The invention relates to a device for conveying thick material. The device comprises a delivery cylinder 20, a material supply chamber 16 connected on the inlet side to the delivery cylinder 20, a delivery line 18 connected to the discharge cylinder 20, a delivery piston 12 which can be moved back and forth through the material delivery space 16 and the delivery cylinder 20 and at the exit point of the delivery cylinder 20 or in the In order to be able to separate the impurities contained in the thick matter stream before the actual processing stage for the useful materials from the thick material flow, it is proposed according to the invention that the delivery cylinder 20 at least over part of his Cylinder jacket 24 is perforated. With these measures, one obtains a device which combines the properties of a slurry pump, a sieve and a press in itself.

Claims

claims

1. A device for conveying high-viscosity material with a delivery cylinder (20), with a material supply space (16) connected on the inlet side to the delivery cylinder (20), with a delivery line (18) connected to the delivery cylinder (20) on the exit side, with a delivery line (18) Material supply space (16) and the delivery cylinder (20) through reciprocally displaceable delivery piston (12) and with a on the outlet side of the delivery cylinder (20) or in the delivery line (18) arranged, between an open position and a blocking position adjustable locking member (16). 22), characterized in that the conveying cylinder (20) is perforated at least over part of its cylinder jacket (24).

2. Apparatus according to claim 1, characterized in that the delivery cylinder (20) on its outside with a shaft (28) is in communication.

3. Apparatus according to claim 1 or 2, characterized in that the perforations (26) of the cylinder jacket (24) are formed by a breadboard.

4. Device according to one of claims 1 to 3, characterized in that the perforations (26) are arranged in a swept by the delivery piston (12) when moving back and forth region of the cylinder jacket (24).

5. Device according to one of claims 1 to 4, characterized in that the opening cross-section of the perforations (26) forming holes on the shell inside is smaller than on the outer shell side.

6. Device according to one of claims 1 to 5, characterized in that the cylinder jacket (24) of the delivery cylinder (20) consists of an internally cured material.

7. Device according to one of claims 1 to 6, characterized by a in the region of the cylinder jacket (24) arranged slide (38) relative to the cylinder jacket (24) between a perforations (26) closing the closed position and a freely releasing open position displaceable is.

8. Apparatus according to claim 7, characterized in that the slide (38) surrounds the cylinder jacket (24) tubular.

9. Device according to one of claims 1 to 8, characterized by a control unit (40) for the coupled control of drive mechanisms for the delivery piston, the Sperrorgan- and / or the slider movement.

10. The device according to claim 9, characterized in that the control unit (40) has a sequential control for controlling the drive units of the delivery piston (12), the blocking member (22) and the slide (38).

11. The device according to claim 9 or 10, characterized in that the control unit (40) generated by the delivery piston (12)

Path signals responsive to a closing movement of the locking member (22) responds.

12. Device according to one of claims 9 to 11, characterized in that the control unit (40) to output signals of a before the blocking member (22) in the delivery cylinder (20) or in the delivery line (18) arranged pressure sensor (42) responsive to an opening movement of the locking member (22) responds.

13. Device according to one of claims 9 to 12, characterized in that the slide (38) has a controllable via the control unit (40) drive mechanism.

14. Device according to one of claims 7 to 13, characterized in that the slide (38) axially relative to the cylinder jacket (24) is displaceable.

15. The apparatus according to claim 14, characterized in that the cylinder jacket (24) is perforated at most over half its length and the slider (38) has a closed lateral surface and from the open to the closed position by half the cylinder barrel length is displaceable.

16. The device according to one of claims 7 to 13, characterized in that the slide (38) has a the grid of holes of Zylinderm- means (24) complementary grid of holes and closed spaces.

17. The apparatus according to claim 16, characterized in that the slide (38) between the open position and the closed position in a- xialer direction or in the circumferential direction by half the locking pitch of

Lochrasters relative to the cylinder jacket (24) displaceable or rotatable.

18. Device according to one of claims 9 to 17, characterized in that the control unit (40) on path signals of the delivery piston (12) under the triggering of an opening movement of the slider (38) responsive to the penetration of the delivery piston (12) in the delivery cylinder (20).

19. Device according to one of claims 9 to 18, characterized in that the control unit (40) to a pressure signal of

Pressure sensor (42) responsive to a closing movement of the slider (38) responds when exceeding a predetermined pressure threshold (PGrenz).

20. Device according to one of claims 7 to 19, characterized in that the slide (38) has a relative to the cylinder jacket (24) movable cutting edge.

21. Device according to one of claims 1 to 6, characterized by a closing device which has a closing member for each perforation hole (26).

22. Device according to one of claims 1 to 21, characterized by a perforation holes (26) acting on compressed air or pressurized water cleaning device.

23. Device according to one of claims 1 to 22, characterized in that the delivery piston has a cutting edge.

24. Device according to one of claims 1 to 23, characterized in that the conveying line (18) in a material supply space (16) recirculated, formed as a bioreactor return path (34) opens.

25. The apparatus according to claim 24, characterized in that in the return path (34) a conveyed material heating heating device (44) is arranged.

26. The apparatus of claim 24 or 25, characterized in that in the return path (34) is arranged a preferably meander-shaped extension track (36).

27. Device according to one of claims 7 to 26, characterized in that on the outside of the perforated cylinder jacket (24) a pipe is arranged, which leads to a processing station.

28. A method for conveying mixtures of substances with different mixture constituents, of which at least one of the mixture constituents has a predominantly viscous consistency and at least one other constituent mixture has a predominantly particulate solid consistency, characterized in that the substance mixture is injected under pressure build-up in a pressure chamber and that the mixture constituents of predominantly viscous consistency and the constituents of the mixture having a predominantly particulate solid consistency are separated from one another by the pressure built up in the pressure space under the formation of different streams.

29. The method according to claim 28, characterized in that the mixture constituents are pressed with predominantly viscous consistency under the action of pressure through relief openings in a boundary wall from the pressure chamber in a first conveyor section, and that the mixture components with predominantly particulate solid consistency after the opening of a locking member from the pressure chamber are forced into a second conveying path.

30. The method according to claim 29, characterized in that the blocking member is opened when exceeding a predetermined limit pressure in the pressure chamber.

31. Method according to claim 29, characterized in that during an advancing movement of a piston of a cylinder / piston arrangement, the predominantly viscous mixture constituents are pressed outward by perforations in the wall of the cylinder when the obturator is closed, and in that the predominantly partial cylindrically solid mixture components are displaced after opening the obturator in a subsequent delivery line to the cylinder.