WO2005092584A1

WO2005092584A1 - Installation and method for producing precast concrete parts

Info

Publication number: WO2005092584A1
Application number: PCT/EP2005/002657
Authority: WO
Inventors: Max Schuran
Original assignee: Putzmeister Aktiengesellschaft
Priority date: 2004-03-26
Filing date: 2005-03-12
Publication date: 2005-10-06
Also published as: EP1727656B1; MXPA06011050A; EP1727656A1; ATE469745T1; DE102004015422A1; BRPI0509224A; DE502005009678D1

Abstract

The invention relates to an installation and method for producing precast concrete parts during which liquid concrete is delivered from a stationary supply tank or mixing tank to a mold (12) into which the concrete is poured. The installation comprises a delivery unit (20), which can travel on a provided running path (18) and which carries a traveling concrete mixer (22), a concrete pump (26) and a delivery line (28) that discharges into the mold (12). The delivery line is guided via a concrete distributing boom (30) and discharges into a downpipe (32), which is mounted on the boom tip and can be introduced into the mold (12). The liquid concrete can be introduced under the surface of the actual level of liquid concrete inside the mold via the downpipe. In addition, the downpipe (32) can be automatically raised as the level of liquid concrete inside the mold (12) rises.

Description

Plant and method for manufacturing precast concrete parts

description

The invention relates to a system for the production of precast concrete parts with formwork arranged in a defined, upwardly open formwork, with a stationary concrete mixing plant arranged at a distance from the formwork and with a conveying device for the transport of liquid concrete from the concrete mixing plant into the formwork. The invention further relates to a method for producing precast concrete parts, in which liquid concrete is conveyed from a stationary storage or mixing container to a formwork and introduced into the formwork.

For the production of precast concrete parts, the formworks located in a delimited production zone are usually filled with concrete buckets, which are fed with fresh concrete in a central concrete mixing plant and transported to the formworks via a crane distributor or a monorail. This procedure leads to poor quality of the prefabricated elements due to the discontinuous filling and the segregation of the concrete during the container transport, especially with exposed concrete surfaces. In addition, the production speed leaves something to be desired.

Proceeding from this, the object of the invention is to develop a system and a method for producing prefabricated concrete parts which ensures optimum quality of the end product at high production speeds.

To achieve this object, the combinations of features specified in claims 1 and 12 are proposed. Advantageous refinements and developments of the invention result from the subclaims. A special feature of the invention is that the conveying device has a conveying unit that can be moved on a predefined roadway between the concrete mixing plant and the production zone, which has a moving concrete buffer mixer, a concrete feeding container that can be filled with liquid concrete via the concrete buffer mixer, a concrete pump connected to the concrete feeding container and an over carries a conveying line that is rotatable about a vertical axis relative to the conveying unit, the end of the conveying line ending in a downpipe hanging down at the top of the mast and immersed in the formwork from above, and the concrete placing boom and the concrete pump semi-automatically via control elements of a remote control can be operated. The concrete placing boom according to the invention is expediently designed as an articulated mast. The downpipe can either be rigid in itself or can be designed as a flexible end hose.

According to a preferred embodiment of the invention, a computer-aided control device for the conveying operation of the conveying unit is provided, which has a control routine responsive to output data of a conveying quantity counter for controlling articulated drives of the placing boom depending on the degree of filling of the formwork derived from the measured conveying quantity. The control routine ensures that the downpipe carries out a lifting movement at a defined distance above or below the liquid level in the formwork at least over part of the formwork height. This procedure is particularly important for self-compacting concrete, in which the liquid concrete should always be poured into the formwork at a certain distance below the surface of the concrete filling. This ensures a uniform compaction of the concrete without segregation and air entry. The height of the outlet point of the downpipe within the formwork is automatically determined by measuring the filling volume and by converting the filling height formula of the respective formwork. With the relatively low viscosities of self-compacting liquid concrete, the downpipe is not necessary to move transversely within the mold during the concreting process. Rather, the concrete fills the shape almost uniformly, so that there is a constant increase in height across the entire formwork cross-section. In principle, however, it is also possible to move the downpipe along the shape contour during the concreting process, for example using a remote control. This can be necessary for viscous types of concrete, but presupposes that any reinforcement structures within the formwork allow the downpipe to be shifted accordingly. In many cases there is a reinforcement mesh inside the formwork, which the pump operator must take into account during the filling process.

The moving concrete pump is expediently a rotor pump operating according to the peristaltic principle. This enables a very precise volume determination by simply counting the rotor revolutions or parts of a revolution. This volume is then used together with the dimensions of the shape for height determination in the automatic upward control of the downpipe.

The volume determination during the pumping process also enables a filling level determination in the concrete buffer mixer, so that the liquid concrete can always be refilled in good time. This ensures that the concrete pump does not stand still during the entire concreting process. For this purpose, the conveying device has a bucket conveyor or a bucket crane running along the route, so that concrete buckets for refilling liquid concrete can be moved into the concrete buffer mixer arranged on the conveying unit in accordance with the quantity delivered. The concrete from the buckets is homogenized in the concrete buffer mixer.

A further advantageous embodiment of the invention provides that the control device opens a position transmitter for the automatic positioning of the mobile conveyor unit with respect to the formwork to be loaded. has. When concreting finished parts, work is usually carried out in a hall with obstacles such as columns, cranes, supports, roof structures and the like. The boundary contours of these obstacles can be read into the computer-aided control device and automatically taken into account when working with the concrete placing boom from any position of the conveyor unit along the rail route.

A special feature of the method according to the invention for the production of precast concrete parts, in which liquid concrete is conveyed from a stationary storage or mixing container to a formwork and introduced into the formwork, is that the liquid concrete is brought into the concrete formwork from above and below the surface of the current liquid concrete level immersed downpipe is inserted, and that the downpipe is raised when the liquid concrete level in the formwork rises. Advantageously, the downpipe engages over the predominant part of the formwork height at the same distance below the liquid concrete level during the rise of the liquid concrete level. To make this possible, according to a preferred embodiment of the invention, the delivery rate of the liquid concrete introduced into the formwork is measured and the downpipe is automatically raised in accordance with the amount of liquid related to the cross-sectional area of the formwork. To lift the downpipe, a concrete placing boom designed as an articulated mast is expediently used, the downpipe being acted upon by liquid concrete via a concrete pump and a delivery line guided along the mast arms of the articulated mast.

The invention is explained in more detail below on the basis of an exemplary embodiment shown schematically in the drawing. Show it

1 shows a detail from a plant for producing prefabricated concrete parts from a bird's eye view; Fig. 2 is a side view of the driving unit of the system of FIG. 1 during the concreting process.

The system shown in sections in the drawing is intended for the production of precast concrete parts. The actual concreting process takes place in a delimited production zone 10, in which formwork 12 open at the top is arranged, the inner contour of which corresponds to the contour of the precast concrete part to be produced. Before each concreting process, a reinforcement mesh, not shown, is inserted into the formwork. During the concreting process, liquid concrete is introduced into the formwork 12 from above via the openings 14 in such a way that the reinforcement mesh is embedded in the concrete of the prefabricated part.

The liquid concrete is produced in a stationary concrete mixing plant, not shown in the drawing, and is brought into the formwork with a conveyor 16. In the exemplary embodiment shown, the conveying device 16 comprises a conveying unit 20 which is movable on rails 18, which has a moving concrete buffer mixer 22, a concrete feed container 24 which can be loaded with liquid concrete via the concrete buffer mixer 22, a concrete pump 26 connected to the concrete feed container and one from the concrete pump into the formwork 12 leading conveyor line 28 includes. The conveying line is guided over a concrete placing boom 30 which can be rotated about a vertical axis 46 relative to the conveying unit 20 and which, in the exemplary embodiment shown, is designed as an articulated mast with three mast arms 31 ', 31 ", 31"'. At its end, the delivery line 28 opens into a downpipe 32 hanging down on the mast tip 31, which dips into the formwork 12 from above during the concreting process. The downpipe 32 can either be designed as a rigid tube or as a flexible end hose. To control the conveyor unit 20 during the conveyor operation, a computer-assisted control device 35 is provided, which has a remote control device 36 with at least one control lever and a software routine for moving the downpipe that responds to actuation signals from the control lever 38 32 via the articulated drives of the concrete placing boom 30. The movement of the concrete placing boom 30 with the downpipe 32 takes place semi-automatically, the downpipe 32 in a first main direction of the control lever 38 a radial movement with respect to the mast rotation axis 40, in a second main direction a rotation about the mast rotation axis 40 and in a third main direction a lifting or Lowering movement for example within the formwork. In addition, the control device 35 comprises a position transmitter for the automatic positioning of the mobile conveyor unit 20 along the rail track 18 with respect to the formwork 12 to be loaded.

A rotor pump operating on the principle of the peristaltic pump is expediently used as the concrete pump 26. Such a pump contains a special hose arranged in a rotor housing, which is pressed together by the rotation of a rotor. The concrete in the hose is pushed towards the delivery line 28. The rotor pump is quiet and quiet. The flow rate can be regulated and measured at the same time over a wide range. The downpipe 32 is inserted deep into the formwork 12 for concreting, so that the undesired addition of air into the liquid concrete is minimized. The downpipe is constantly in the liquid concrete and is raised fully automatically with the filling process. This is particularly important when using self-compacting concrete. Self-compacting concrete considerably simplifies concreting, since it is automatically distributed and vented in the formwork 12. This ensures high concrete quality with high concreting performance. Personnel-intensive rework, such as Cleaning, cutting and filling the finished elements are largely avoided when using self-compacting concrete.

In order to be able to ensure continuous loading of the formwork 12 with concrete, a bucket track 42 is additionally provided, on which the concrete bucket 44 runs parallel to the rail section 18 from the stationary concrete mixing system can be moved to the current position of the conveyor unit 20. The moving concrete buffer mixer 22 can thus be refilled with fresh concrete during pump operation, so that a continuous pouring process is possible, the batches introduced are homogenized and a high production speed can be achieved. The concrete buffer mixer is refilled automatically. In addition, the concrete placing boom 30 is controlled with the aid of a computer, so that the pump driver can concentrate fully on the surroundings and the filling of the formwork. In particular, the downpipe 32 is automatically raised during the filling process with the liquid concrete level in the formwork. If a formwork is completely filled, the delivery line 28 is closed via a pinch valve in the area of the downpipe 32, so that the mast 30 can be moved to the next formwork 12. In all positions and regardless of the delivery rate, any vibrations in the placing boom are dampened by suitable sensors and control software.

The conveyor unit 20 is electrically driven and rail-guided, so that the respective location of the machine can be positioned relative to the formwork 12. Changing the type of concrete between two formworks is not a problem. Hardly any residual concrete remains with the rotor pump used. In order to convey residual concrete from the pump and the delivery line into the formwork 12, the pump driver inserts a sponge ball soaked in water into the concrete feed container 24. The pump sucks in the sponge ball and conveys it to the downpipe 32. The remaining concrete is pushed out of the pipeline with the sponge ball. At the same time, the system is cleaned.

For safety in the factory hall, the movable conveyor unit 20 is equipped with optical and / or acoustic monitoring devices. Redundant laser scanners, which are attached to the front and rear of the conveyor unit, are used for contactless monitoring of a freely programmable gramming security area. If there is an obstacle in the way, the mobile conveyor unit is stopped. Only when the obstacle has been removed does the laser scanner release the conveyor unit from driving again.

In summary, the following can be stated: The invention relates to a system and a method for producing precast concrete parts, liquid concrete being conveyed from a stationary storage or mixing container to a formwork 12 and introduced into the formwork. The system comprises a conveyor unit 20 which can be moved on a predetermined roadway 18 and which carries a traveling concrete mixer 22, a concrete pump 26 and a conveyor line 28 which opens into the formwork 12. The delivery line is guided over a concrete placing boom 30 and opens into a downpipe 32 which is arranged at the top of the mast and can be inserted into the formwork 12. With the downpipe, the liquid concrete can be placed under the surface of the current liquid concrete level in the formwork. In addition, the downpipe 32 can be raised automatically when the liquid concrete level in the formwork 12 rises.

Claims

claims

1. Plant for the production of precast concrete parts with formworks (12) arranged in a production zone (10), with an open top, with a stationary concrete mixing plant arranged at a distance from the formworks and with a conveyor (16) for the transport of liquid concrete from the concrete mixing plant in the formwork (12), characterized in that the conveying device (16) has a conveying unit (20) which can be moved on a predetermined roadway (18) between the concrete mixing plant and the production zone (10) and along the production zone and which has a moving concrete buffer mixer (22) , a concrete feed container (24) which can be filled with liquid concrete via the concrete mixer, a concrete pump (26) connected to the concrete feed container (24) and a concrete placing boom (30) which is rotatable about a vertical axis (40) relative to the mobile delivery unit (20) Delivery line (28) carries, the delivery line at its end on the mast spit The downpipe (32) hanging downwards and immersed in the formwork from above opens out and the concrete placing boom (30) and the concrete pump (26) can be operated semi-automatically via control elements (38) of a remote control (36).

2. Plant according to claim 1, characterized in that the concrete placing boom (30) is designed as an articulated mast.

3. System according to claim 1, characterized by a computer-aided control device (35) for the conveying operation of the mobile conveying unit (20) with a control routine responsive to output data of a conveying quantity counter for controlling articulated drives of the concrete placing boom (30) depending on the one measured Flow rate derived fill level of the formwork, which is programmed so that the downpipe (32) over at least part of the Formwork height executes a lifting movement at a defined distance above or below the liquid concrete level in the formwork.

4. Plant according to one of claims 1 or 3, characterized in that the concrete pump (26) is a rotor pump operating on the principle of the peristaltic pump.

5. Plant according to one of claims 1 to 4, characterized in that the concrete transported in the conveyor unit (20) is designed as self-compacting concrete.

6. System according to one of claims 1 to 5, characterized in that the control device (35) a remote control device (36) with at least one control lever (38) and a software routine responsive to actuation signals of the control lever for moving the downpipe (32) via articulated drives of the Concrete placing booms (30), the down pipe (32) in a first main direction of the control lever (38) a radial movement with respect to the mast axis of rotation (40), in a second main direction a movement rotating about the mast axis of rotation (40) and in a third Main direction carries out a lifting or lowering movement.

7. Plant according to one of claims 1 to 6, characterized in that the control device (35) has a position transmitter for the automatic positioning of the mobile conveyor unit (20) with respect to the formwork (12) to be loaded.

8. Plant according to one of claims 1 to 7, characterized in that the conveying device (16) additionally has a bucket track (42) running along the carriageway (18), and that on the bucket track concrete buckets (44) for refilling liquid concrete into the on the the concrete mixer (22) arranged in the unit (20) can be moved in accordance with the delivered delivery quantity.

9. Plant according to claim 8, characterized in that the bucket conveyor (42) is designed as a hanging conveyor and the concrete bucket (44) as a hanging bucket.

10. Installation according to one of claims 1 to 9, characterized in that the roadway (18) is designed as a rail section and the conveyor unit (20) as a rail vehicle.

11. Plant according to one of claims 1 to 10, characterized in that the downpipe (30) is designed as a flexible end hose.

12. A method for the production of precast concrete, in which liquid concrete is conveyed from a stationary storage or mixing container to a formwork (12) and introduced into the formwork, characterized in that the liquid concrete is from above into the concrete formwork (12) under the Down pipe (32) immersing the surface of the current liquid concrete mirror.

13. The method according to claim 12, characterized in that the downpipe (32) is raised when the liquid concrete level in the formwork rises.

14. The method according to any one of claims 12 or 13, characterized in that the downpipe (32) engages during the rise of the liquid concrete level over the major part of the formwork height equally far below the liquid concrete level.

15. The method according to any one of claims 12 to 14, characterized in that the flow rate of the in the formwork (12) introduced ten liquid concrete measured and the downpipe (32) is raised automatically in accordance with the amount of liquid related to the cross-sectional area of the formwork.

16. The method according to any one of claims 12 to 15, characterized in that the downpipe (32) is raised during the filling process by means of a concrete placing boom (30) designed as an articulated mast.

17. The method according to any one of claims 12 to 16, characterized in that the downpipe (32) via a concrete pump (26) and a conveying line (28) guided along the mast arms is acted upon with liquid concrete.