WO1998011346A1

WO1998011346A1 - Pump for thick substances

Info

Publication number: WO1998011346A1
Application number: PCT/EP1997/003948
Authority: WO
Inventors: Hans Renz; Hellmut Hurr
Original assignee: Putzmeister Aktiengesellschaft
Priority date: 1996-09-14
Filing date: 1997-07-22
Publication date: 1998-03-19
Also published as: EP0925450A1; EP0925450B1; DE59707070D1; JP2001508516A; DE19731335A1

Abstract

The invention concerns a pump for thick substances, in particular for delivering concrete. The pump comprises a material feed container (14), two feed cylinders (10) whose end-face openings (22) lead into the interior of the material feed container (14), and an S-shaped swing pipe which engages in the material feed container (14) and whose one end communicates alternately and cyclically with the end-face openings (22) in the feed cylinder (10) and whose other end (32) is connected to a feed pipe (30). The swing pipe can pivot about a horizontal pivot axis (34) which is disposed concentric to its end (32) on the feed pipe side above the feed cylinder (10). Integrally formed on the swing pipe is a clearing rib (50) which extends substantially over the length of the swing pipe and as far as the vicinity of the container base (38). At its end remote from the feed cylinders (10) the clearing rib comprises a wearing plate (62) which is aligned perpendicular to the pivot axis (34) and abuts a wearing strip (64) which is disposed on a container wall (40) on the feed pipe side and can be displaced relatively to said container wall in an axially parallel manner.

Description

Umpe thick matter

description

The invention relates to a thick matter pump with a material feed container, two conveying cylinders opening with their front openings into the interior of the material feed container and an engaging in the material feed container, with its one end carrying an axially displaceable wear ring alternating with the end openings of the feed cylinders and communicating with it the other end connected to a conveyor tube S-shaped swivel tube, which can be pivoted about a horizontal axis which is concentric with the end of the conveyor tube and is arranged above the conveyor cylinder, with a downward-pointing, essentially extending over the length of the pivot tube and up to the vicinity of the pivot tube on the pivot tube Clearing rib reaching the bottom of the container is formed,

In thick matter pumps of this type, the material to be conveyed is sucked into the cylinder from the material feed container during the backward stroke of the piston of the one feed cylinder, while with the simultaneous forward stroke of the piston of the other feed cylinder, the material to be sucked in beforehand is pressed through the swivel tube into the delivery line. The wear ring arranged on the swivel pipe ensures that the swivel pipe is pressed tightly against the glasses-shaped wear plate which delimits openings of the conveying cylinders in order to prevent liquid or fine-grained components of the conveyed goods from escaping from the conveyed goods at this point. For this purpose, the wear ring is constructed in such a way that it is pressed against the wear plate under the action of the delivery pressure during the pressure stroke. Due to the wear occurring when the swivel tube is switched over on the wear ring and on the spectacle-shaped wear plate, the swivel tube has to be readjusted from time to time by axial displacement within the material feed container. For this purpose, an adjustment screw accessible from the outside is arranged in the area of the swivel tube bearing. Due to the S-shaped curvature of the swivel tube, depending on the construction, there are more or less large dead spaces within the material feed container, in which thick material can accumulate. It is therefore important that after each pumping process the material feed container is emptied and cleaned thoroughly. In order to keep the dead spaces small, it has already been proposed to adapt the material feed container to the S-shaped course of the swivel tube, especially in the base area. However, this requires considerable construction effort.

In order to avoid this disadvantage, the clearing rib formed on the swivel tube and extending into the vicinity of the tank bottom has already been proposed. This ensures that even with a relatively simple material feed container no large dead spaces me can occur in which non-moving goods can accumulate.

The invention has for its object to improve the known thick matter pump of the type mentioned in such a way that a reliable seal between the swivel tube and delivery cylinders is ensured during the pressure stroke

To solve this problem it is proposed according to the invention that the rib at its end facing away from the wear ring of the swivel tube carries a wear plate that is vertically aligned with the swivel axis and bears against a wear bar arranged on a container wall on the conveyor tube side and preferably axially adjustable relative to this container wall. The wear plate is To this end, it is expediently arranged at the height of the wear ring, while the swivel tube is axially displaceably mounted in a pivot bearing of the rear wall. The wear plate and the associated wear strip form a support bearing, which makes axial limitation in the region of the pivot tube pivot bearing unnecessary, and this ensures that during the pressure stroke Do not apply any tensile or bending forces to the axle shaft. Furthermore, a simple and convenient readjustment of the swivel tube within the material feed container in the wear accumulator is possible without additional assembly work in the area of the switching mechanism.

A further improvement in this regard will achieved by that the wear bar is arranged on an arranged in an opening of the conveyor tube-side container wall, sealed against this and with an outside arranged on the container wall adjusting mechanism adjustable.

The clearing rib is expediently delimited by broad side surfaces which point in the two swivel directions and are mirror-symmetrical to a radial plane which contains the swivel axis and the wear ring axis. So that the conveyed material located on the bottom can be lifted off the container bottom and mixed with the conveyed material located above during each switching operation, the broad side surfaces of the clearing rib are preferably toward the free bottom rib edge with an increase in the rib wall thickness towards opposite sides, preferably by approximately 90 ', concave curved outwards. In this case, the material feed container can have an easily producible, partially cylindrical bottom that is concentric with the pivot axis, while the rib edge facing the container bottom can also have a partially cylindrical, partially cylindrical convex curvature with the pivot axis.

The simple structural design of the material feed container with a partially cylindrical bottom enables the container wall on the conveyor tube side to be detachably connected to the material feed container and therefore easy to remove for assembly and disassembly purposes. The invention is explained in more detail below with reference to the drawing. Show it:

1 shows a section through the material feed container of a two-cylinder thick matter pump with an S-shaped swivel tube;

Fig. 2 shows a modified embodiment of a material feed container with an S-tube in a sectional view corresponding to Fig. 1;

3 shows a section along the section line III-III of FIG. 1.

The two-cylinder high-pressure pump shown in sections in the drawing is intended for use in stationary and mobile concrete pumps. It consists essentially of two feed cylinders 10 with push-pull, not shown feed pistons, a material feed container 14 and an S-shaped pivot tube 16 engaging in the material feed container 14, which can be actuated by a U control mechanism 18. The feed cylinders 10 are connected in the lower region via openings 22 to the rear wall 24 of the material feed container 14, the openings 22 on the inside of the material feed container 14 being delimited by an eyeglass-shaped wear plate 26. The swivel tube 16 lies with its one end, which carries a wear ring 28, against the wear plate 26 and is supported by the reversing Mechanism 18 pivoted in front of one or the other opening 22 depending on the direction of movement of the delivery pistons in the delivery cylinders 10. In this way, material is sucked out of the material feed container 10 through the opening 22 into the relevant feed cylinder 10 when the feed piston is moved back, while material is transported via the other feed piston through the swivel tube 16 into a feed tube 30 located outside the material feed container 14. The delivery pipe 30 can be connected to a delivery line, not shown, of a concrete placing boom.

In the exemplary embodiment shown in FIG. 1, the essentially S-shaped swivel tube is connected at its end 32 opposite the locking ring 28 to the delivery pipe 30 via a container-fixed pipe swivel connection 36 coaxial with its swivel axis 34, while in the case of those shown with FIG. 2 Embodiment, the conveyor tube end 32 of the swivel tube is passed through a simple rotary feedthrough 38 in the relevant container wall 40. In the latter case, an external pivot bearing with an additional pipe swivel joint may be required. In both cases, the container wall 40 can be removed from the material feed container for assembly and disassembly purposes.

In the area of the rear wall 24, the swivel tube engages with an axle shaft 42 designed as a drive shaft through a rotary bearing 44 of the material feed container 14 The axle shaft 42 is pivoted back and forth to a limited extent on the outside of the material feed container 14 by the reversing mechanism 18 about the pivot axis 34 in the direction of the double arrow 46 (FIG. 3). As can be seen from FIG. 3, the bottom 48 of the material feed container 14 is partially cylindrical in shape concentrically over its entire length with respect to the pivot axis 34. To largely avoid dead spaces within the material feed container 14, there is an approximately downward-pointing on the pivot tube 16 Shaped over the entire length of the swivel tube and extending into the vicinity of the container base 48 is formed a space rib 50, which is delimited by m the two swivel directions pointing in mirror symmetry to a radial plane 54 containing the swivel axis 34 and the wear ring axis 52. The broad side surfaces 56 are for Free bottom edge of the rib 58 hm, increasing the thickness of the rib edge, concavely curved towards the outside on the opposite side and ensure that the material in the area near the bottom is stirred upward with each switching operation. The rib edge 58 facing the container bottom 48 points at the bottom In the exemplary embodiment, a partially cylindrical convex curvature with the swivel axis 34, so that only a narrow gap 60 remains between the bottom of the container and the edge of the ribs.

At its end facing away from the locking ring 28 of the swivel tube, the space rib 50 also carries a vertically oriented to the swivel axis 34, arranged on the height of the wear ring 28 Wear plate 62, which bears against a wear bar 64 arranged on the container wall 40 and adjustable axially parallel to it. For this purpose, the wear strip is arranged on an adjusting bar which is guided in an opening 66 in the container wall 40, is sealed against it and can be displaced with an adjusting mechanism 68 arranged on the outside of the container wall 40. The wear bar 64 serves as a support bearing for the swivel tube, which eliminates the need for an axial limitation in the area of the swivel tube bearing and avoids tensile and bending loads on the axle shaft 42. In addition, these measures make it easy to readjust the swivel tube in the event of wear in the area of the wear ring 28 and the spectacle-shaped wear plate 26.

In summary, the following can be stated: The invention relates to a thick matter pump, in particular for conveying concrete. The thick matter pump has a material feed container 14, two feed cylinders 10 opening with their end openings 22 into the interior of the material feed container 14 and a feed cylinder 10 which engages in the material feed container 14, one end of which intermittently communicates with the end openings 22 of the feed cylinder 10 and the other end 32 connected to a delivery pipe 30 S-shaped swivel pipe. The swivel tube can be swiveled about a horizontal swivel axis 34 which is concentric with its end 32 on the delivery tube side and is arranged above the delivery cylinder 10. On the swivel tube there is a Pipe length extending and extending into the vicinity of the container bottom 38 clearing rib 50 is formed. The clearing rib has, at its end facing away from the delivery cylinders 10, a wear plate 64 oriented perpendicular to the pivot axis 34, which abuts against a wear bar 64 arranged on a container wall 40 on the feed pipe side and adjustable axially parallel thereto.

Claims

claims

1. slurry pump with a material feed container (14), two delivery cylinders (10) opening into the interior of the material feed container with their end openings (22) and a material cylinder (14) engaging with its one, preferably an axially displaceable wear ring (28) load-bearing end alternately with the front openings (22) of the delivery cylinder (10) communicating and with its other end (32) connected to a delivery pipe (30) S-shaped swivel pipe, which is concentric about an end (32) on the delivery pipe, above the The horizontal swivel axis (34) arranged in the conveying cylinder (10) can be swiveled, a clearing rib (50) pointing downwards, essentially extending over the swivel pipe length and reaching into the vicinity of the container bottom (48), being formed on the swivel pipe (16), characterized in that the clearing rib (50) on the wear ring (28) of the swivel tube (16 ) facing away from the front end carries a wear plate (62) oriented perpendicular to the pivot axis (34), which abuts against a wear strip (64) arranged on a container wall (40) on the conveyor pipe side.

2. thick matter pump according to claim 1, characterized in that the clearing rib (50) by pointing in the two pivoting directions, mirror symmetry is limited to a broad side surfaces (56) arranged which contain the pivot axis (34) and the wear ring axis (52) and contain the radial plane (54).

3. thick matter pump according to claim 2, characterized in that the broad side surfaces (56) of the clearing rib (50) to the free bottom rib edge (58) towards the opposite sides are preferably curved by approximately 90 ^* concave to the outside while increasing the rib wall thickness.

4. thick matter pump according to one of claims 1 to 3, characterized in that the material feed container (14) has a to the pivot axis (34) concentric part-cylindrical container bottom (48).

5. slurry pump according to claim 3 or 4, characterized in that the container bottom (48) facing the rib edge (58) has a to the pivot axis (34) substantially coaxial, partially cylindrical convex curvature.

6. slurry pump according to one of claims 1 to 5, characterized in that the wear strip

(64) is adjustable axially parallel to the container wall (40) on the conveyor tube side.

7. thick matter pump according to claim 6, characterized in that the wear plate (62) is arranged at the level of the wear ring (28).

8. slurry pump according to claim 6 or 7, characterized in that the wear strip (64) arranged in an opening (66) of the conveyor tube-side container wall (40), sealed against this and with an outside on the relevant container wall (40) arranged adjusting mechanism (68) slidable adjuster bar is arranged.

9. slurry pump according to one of claims 1 to 8, characterized in that the pivot tube (16) in a rotary feedthrough (38) or a pivot bearing of the conveyor tube side container wall (40) is axially displaceable.

10. thick matter pump according to one of claims 1 to 9, characterized in that the conveyor tube-side container wall (40) from the material feed container (14) is removable.