EP3738736A1 - Transport system for concrete production and method for mobile concrete production - Google Patents

Abstract

The invention relates to a transport system (1) for producing concrete, with storage devices (25, 30, 35, 40) for at least one dry granular material and at least one further component which can be mixed with the granular material, in particular components for producing concrete, and at least one mixing device (70) for the components. According to the invention, the mixing device (70) is installed in a discontinuous manner independently of the storage device (25, 30, 35, 40). The invention also relates to a method for mobile concrete production, in particular for delivering and mixing concrete to a Delivery point.

Description

The invention relates to a transport system for producing concrete and a method for mobile concrete production. Mixing components according to individual recipes on site and / or on the way to a construction site and pumping the mixtures produced over a distance and / or to a higher ground level are still challenges.

Out US 10,286,573 B2 a transport system for mixing concrete on a construction site is known. It carries two types of storage devices, namely those for coarser material and those for powder material. A screw conveyor is arranged under a row of such containers, which with a certain effectiveness mixes gradually lowered components into a stream of material conveyed to the rear of the vehicle while it continues to convey the "mixture". Mixtures of materials are therefore continuously dosed into this screw conveyor. At the back, without any break in the purely continuous mode of operation, another screw conveyor takes over the material in order to convey it to a certain height. The sequence of The storage of certain components along the conveyor screw, which is called a mixer, appears to be carefully considered. The advantages of this known system are compactness and low overall height.

DE 10 2016 203 719 A1 discloses a vehicle, a so-called truck mixer, which can carry a certain amount of a ready-to-use flowable medium, in particular concrete, with it in a rotating drum.

EP 3 075 507 B1 proposes a transport vehicle which carries dry premixed components, for example for shotcrete, in a rotatably mounted mixing drum, which dry mixture is mixed at the destination with water that can also be carried on the transport vehicle to form a workable flowable mass.

It is desirable, especially in view of the limited space available on inner-city construction sites, to provide a compact mobile system that can deliver concrete according to application-oriented individual recipes. It is also desirable to make smaller amounts of concrete available in portions, for example in order to take into account the comparatively often low material requirements when renovating or converting individual objects.

Based on this prior art, the aim of the invention is to propose an improved or at least further solution for a mobile system for providing concrete and the use of such a system which as far as possible avoids or at least reduces some of the disadvantages known in the prior art.

The object is achieved according to the invention by means of a transport system according to claim 1, comprising its characterizing features, and by means of a method for mobile concrete production according to claim 13, comprising its characterizing features.

Advantageous embodiments of the invention are given in the respective subclaims and the description and the drawings.

A generic transport system for producing concrete is equipped with storage devices for separate storage of at least one dry granular material and at least one further component which can be mixed with the granular material, in particular components for the production of concrete.

The generic transport system has at least one mixing device for at least the material and the component or components.

According to the invention, the mixing device is intended to be mixed independently of the storage device. A discontinuous process is installed.

A generic method for mobile concrete production, in particular for delivering and mixing concrete at a delivery point, is further developed according to the invention, in that the dry and liquid materials required for production are delivered separately in the transport system that is at least predominantly automated on site according to an individually determinable Recipe, the materials are fed to a discontinuous mixing device, and that after completion of a flowable mixture, a pump device feeds the concrete through a take-off connection Overcoming a certain height difference from the mixing device pumps.

According to an advantageous embodiment of the production process, it is a discontinuous mixing process for the production of concrete in portions.

According to an advantageous embodiment of a transport system according to the invention, at least one pumping device for pumping the mixtures produced is arranged on a support frame that holds the transport system as a whole.

It is advantageous to be able to determine mixing times and metering times and metering quantities or inflow speeds in discontinuous mixer operation free of a continuous process. Because of this freedom gained, it is now only possible to provide optimal conveyor routes or pipe diameters for certain recipes, in addition to concrete with the same transport system, also to provide screed or mortar.

By stocking all the materials required for the production of concrete, mortar or screed, including the water required for this, in the mobile transport system according to the invention and by equipping the mobile transport system with its own drive, the mobile transport system can work completely independently until the supplies it carries are used up without permanent connection to external energy and material supply systems.

The mobile transport system can produce concrete, mortar or screed in portions in the required quantity and composition. Not mixed Storage material can be stored. With a pump integrated in the transport system, a prepared mixture can be delivered directly through the transport system to a higher level or over a greater distance. This means that the transport system is extremely flexible with regard to the formulations of the mixtures produced and with regard to the time and place of provision.

The transport system can for example be built on a semi-trailer or a drawbar trailer so that it can be moved by any suitable towing vehicle. Due to its own drive, the transport system is not dependent on a towing vehicle as a drive source to operate the system components. A towing vehicle is therefore not necessarily bound for the duration of the stationary use of the transport system, but can be used for other transport tasks if necessary.

According to an advantageous embodiment, the transport system installed on a carrier vehicle, preferably decoupled, has its own drive, its own drive energy store, its own material storage device and a further storage device for additives.

According to a further advantageous embodiment, the at least one mixing device has a mixing container fixed at the bottom of the transport system and at least one mixing arm rotatable about a vertical axis, with a direct, exclusively gravity-driven substance feed with metering device preferably being arranged above the mixing container.

According to a further advantageous embodiment, the mixing device is at least one against the Equipped transport system supported load cell, which is particularly preferably integrated in one or in the receptacles of the mixing container.

According to a further advantageous embodiment, a first storage container is connected to a conveying device, which is intended to introduce coarse dry material, at least mainly with grain sizes between 20 mm and 70 mm, into the mixing device from above. It is preferably connected to the conveying device as a funnel-shaped storage container with a connection at the bottom, particularly preferably extending over a large part of the length of the transport system. The storage container has its center of gravity, seen in the direction of travel, in the front half of the transport system. This is advantageous because of the driving characteristics and the standing characteristics of the transport system with certain partial emptying.

According to a further advantageous embodiment, a second storage container is connected to the or a further conveyor device, which is intended to introduce fine, dry material, in the grain size range less than / equal to 2 mm, into the mixing device from above.

According to a further advantageous embodiment, a third storage container without a conveyor device, preferably in the shape of a funnel with a metering slide at the bottom, is arranged above the mixing device, in particular for storing and metering cement.

According to a further advantageous embodiment, the lower end of the transport system is formed by flat supporting surfaces of a support frame on which the transport system is mounted. Possibly. alternatively, the mixing device is directly or indirectly in or on the Support frame let in or put on, in particular with a pump unit integrated at the bottom, particularly preferably arranged at the rear and below in the transport system as seen in the direction of travel.

According to a further advantageous embodiment, the transport system has, in addition to storage containers for dry or flowable wet to moist granular material, at least one liquid storage container for water and / or liquid additives, particularly preferably in the middle to rear area when viewed in the direction of travel, utilizing space that other funnel-shaped containers leave open .

According to a further advantageous embodiment, the pump device is suitable for conveying mixtures provided by the mixing device to a higher level against the force of gravity.

According to a further advantageous embodiment, the transport system is used on various motorized or non-motorized carrier vehicles or even without a rollable base, for example decoupled on legs.

The invention is explained further in the following in the drawings, an embodiment being shown without restricting the scope of protection thereto.

Figur 1

eine perspektivische Ansicht eines Transportsystems zum Lagern von mischbaren Bestandteilen, insbesondere zur Herstellung von Beton, zum Mischen der Bestandteile und zum Pumpen der hergestellten fließfähigen Mischung und

Figur 2

eine Seitenansicht eines mobilen Transportsystems zum Lagern von mischbaren Bestandteilen, insbesondere zur Herstellung von Beton, zum Mischen der Bestandteile und zum Pumpen der hergestellten fließfähigen Mischung, positioniert auf einem Trägerfahrzeug.

Show it

Figure 1

a perspective view of a transport system for storing mixable components, in particular for the production of concrete, for mixing the constituents and for pumping the flowable mixture produced and

Figure 2

a side view of a mobile transport system for storing mixable components, in particular for the production of concrete, for mixing the components and for pumping the produced flowable mixture, positioned on a carrier vehicle.

Figure 1 shows in a perspective view a transport system 1 according to an advantageous embodiment for storing miscible components with a grain diameter of 32 millimeters or less, particularly preferably with a diameter of 25 millimeters or less, in particular for the production of concrete, mortar or screed, for mixing the Components and for pumping the produced flowable mixture over a distance and / or to a higher ground level.

A support frame 20, preferably as a metal construction, made predominantly of suitable pipe and / or profile material, which accommodates the essential components of the transport system 1, is clearly shown. A first storage container 30 is preferably provided for receiving gravel. In the embodiment shown, the transport system 1 has a second storage container 25, preferably provided for receiving sand. The capacity of the second storage container 25 is 5.7 cubic meters in the embodiment shown.

The first storage container 30 (gravel) is arranged next to the second storage container 25. The capacity of the first storage container 30 is also 5.7 cubic meters in the embodiment shown and is designed as a second container half, with a partition along the vehicle center axis oriented in the direction of travel representing the division.

A third storage container 35, preferably provided for receiving cement, is positioned adjacent to the storage containers 25, 30 directly above a mixing device 70. The capacity of the third storage container 35 is three tons of cement in the embodiment shown.

The storage containers 25, 30, 35 are preferably made of metal construction, that is to say, for example, composed of suitably cut steel or aluminum plates in a welded construction. The side walls of the storage containers 25, 30, 35 are at least partially beveled and the container bottoms are at least partially inclined downwards to form a spatially limited lowest point in the container at which the bulk material in the respective container collects due to gravity.

The storage container 35 is equipped with a cover 36 in order to protect the cement in the container from moisture and thus from undesired premature hardening.

Below the storage containers 25, 30, in the exemplary embodiment shown here, three fourth storage containers 40 can be seen, which are preferably provided for receiving water. The total capacity of the fourth storage containers 40 is preferably two thousand seven hundred liters.

Not visibly shown are three further storage containers, which are provided for holding preferably thirty liters of additives each, in particular additives for a concrete, mortar or screed recipe.

The transport system 1 has conveying devices and metering devices, which are only partially visible in this view, in order to remove defined quantities of the respective contents from the storage containers 25, 30, 35, 40 and the storage containers for additives that are not shown, and ultimately a mixing container 72 of a mixing device 70 feed. A conveying device 50, which is provided for transporting sand and / or gravel from the first and second storage container 30, 25 to the mixing device 70, is shown partially visible.

A metering device 60, which is provided for metering cement from the third storage container 35, is shown partially visible. The conveying and metering devices are addressed via a controller 100. In order to control the mixing process, in particular to control the quantity of the constituents to be mixed, the weights of the third storage container 35 and the mixing device 70 including the materials contained therein are preferably measured and processed by means of control technology.

The determination of the amount of sand and / or gravel that is fed to a mixing process in the mixing device 70 is preferably carried out by determining the weight increase in the mixing device 70 is supplied, happens via the measurement of the weight loss of the third storage container 35, which is provided for receiving cement. The water and additive quantities ultimately fed to the mixing device 70 are determined via at least one flow rate measuring device (not shown here) in the respective delivery device for the water and the additive and / or by means of a weighing cell 74. The additives can either be conveyed directly into the mixing device 70 or can also be added to the water to be conveyed into the mixing device 70.

In an advantageous development of the invention, recipes, in particular for concrete, mortar and screed, and associated machine and process parameters can be stored in the controller 100. The controller 100 also has interfaces for sending and receiving data. This also includes, for example, the connection of a printer for printing out delivery notes. It is also conceivable to connect a computer or storage medium of the recipient of a delivery, for example to pass on the mixture recipe and machine parameters for documentation or for quality assurance purposes.

In the embodiment shown, the mixing device 70 is designed as a planetary mixer with a diameter of 1800 mm and two rotating and one fixed mixing arm. The maximum capacity of the mixing device 70 is 750 liters, and compacted concrete can hold 500 liters.

The transport system 1 for storing miscible components, in particular for producing concrete, mortar or screed, for mixing the components and for pumping the produced flowable mixture has its own Drive 90 equipped, which is preferably designed as a diesel engine. The drive 90 is fed from a drive energy store 91, which is preferably designed as a diesel tank.

With its own drive 90, the transport system 1 can be operated independently, without a towing vehicle. Provision is preferably made for both generating electrical power and driving a hydraulic system by means of the drive 90. The hydraulic system is provided for operating the mechanical components of the transport system, such as a mixing device drive 71, for example. The electrical power produced by the drive 90 is preferably used to operate a controller 100 and other power consumers of the transport system 1, such as servomotors, valves, sensors or headlights.

It is intended to equip both the hydraulic and the electrical system with interfaces for feeding in hydraulic and / or electrical energy from external sources. This enables the transport system 1 to be operated without the drive 90, i. the transport system 1 can be operated without local exhaust gas emissions such as diesel exhaust gases and is therefore also suitable, for example, for tunnel operation.

Downstream of the mixing device 70 is a pump device 80, preferably provided for pumping flowable concrete, mortar or screed, which can be fed from the mixing device 70 to the pump device 80. In the embodiment shown, the pumping device 80 is arranged below the mixing device 70, so that a flowable mixture can flow from the mixing device 70 into the pumping device 80 as a result of gravity. For the revision of the transport system 1, for example for the control, maintenance and cleaning of system components, the transport system 1 is equipped with revision aids 110, which are designed, for example, as climbing aids to facilitate or enable access to the various system components for machine operators or technical personnel.

Figure 2 shows a side view of a transport system 1 for storing mixable components, in particular for producing concrete, mortar, screed or the like, for mixing the components and for pumping the produced flowable mixture, positioned on a carrier vehicle 10 that can be rolled on wheels 11 In the embodiment shown, 10 is designed as a three-axle semi-trailer for transport by a tractor unit.

A receptacle 13 is provided for connecting a tractor unit to the carrier vehicle 10. Parking supports 12, which are fastened to a carrier vehicle body 14, are provided that support coupling and uncoupling and ensure a safe stand of the carrier vehicle 10 even without a coupled tractor.
In a second, not visible embodiment, the carrier vehicle can be designed as a conventional trailer with a drawbar. The number of axles of the carrier vehicles in a first and a second embodiment can be different.
In a third embodiment, not shown, the transport system 1 is not permanently mounted on a carrier vehicle, but rather designed as a mobile transport system for transport on any suitable transport vehicle. In this case, the transport system 1 would be equipped with suitable erection devices such as Be equipped with legs, which are preferably attached to the support frame 20.

In a fourth embodiment, not shown, the transport system 1 can be permanently mounted on a suitable motorized vehicle, such as a truck.

In the side view shown, a support frame 20 is placed on the transport vehicle body 14. The support frame 20 is firmly connected to the transport vehicle body 14 via suitable connections, preferably screw connections. The support frame 20 is provided for receiving the essential components of the transport system 1. At the front in the direction of travel, the support frame 20 accommodates a drive 90 and a drive energy store 91. The drive 90 and the drive energy store 91 are designed in the embodiment shown as a diesel engine and diesel tank. Other drive and energy storage forms are also conceivable here.

In the side view to the left of the drive energy store 91, three fourth storage containers 40, which are preferably provided for receiving water, are attached to the support frame 20. In the side view to the left of the fourth storage container 40, a conveying device 50 is partially visible, which is provided to feed sand from a second storage container 25 and / or gravel from a first storage container 30 to a mixing device 70.

The mixing device 70 is located in the side view to the left of the fourth storage containers 40 and the conveyor device 50, the conveyor device 50 being the Mixing device 70 protrudes a bit. The mixing device 70 is provided to mix miscible constituents with one another for the production of concrete, mortar or screed in particular according to defined parameters, for example for mixing duration and mixing speed.

The miscible constituents are fed to the mixing device 70 in fixed quantities by the conveying device 50 and further conveying devices (not shown) before or during an ongoing mixing process. The dosing of the miscible components takes place via an interaction of a control, various sensors and dosing devices. A metering device 60, which enables or blocks the addition of cement, can be seen.

A pumping device 80 is arranged at the rear end of the support frame 20 obliquely below the mixing device 70. The pumping device 80 takes over the flowable mixture produced in the mixing device 70. In the embodiment shown, due to the arrangement of the pumping device 80 below the mixing device 70, the flowable mixture can be transferred from the mixing device 70 into the pumping device 80 by utilizing the force of gravity, without mechanical assistance. The pumping device 80 is equipped with a connection 81 which allows suitable lines, that is to say pipes, hoses or the like, to be attached for transporting the flowable mixture.

List of reference symbols:

1

Transport system

10

Carrier vehicle

11

Transport wheels

12

Parking support

13th

admission

14th

Carrier vehicle body

20th

Support frame

25th

second storage container (sand)

30th

first storage container (gravel)

35

third storage container (cement)

36

cover

40

Liquid storage container (water)

50

Conveyor

60

Dosing device

70

Mixing device

71

Mixer drive

72

Mixing tank

74

Load cell

80

Pumping device

81

Acceptance connection

90

drive

91

Drive energy storage

100

control

110

Revision assistance

Claims (14)

Transport system (1) for producing concrete, with 1.1 Storage devices (25, 30, 35, 40) for at least one dry granular material and at least one further component which can be mixed with the granular material, in particular components for the production of concrete, and 1.2 at least one mixing device (70) for at least the material and the component (s),
characterized in that 1.3 the mixing device (70) is installed so that it can be operated discontinuously independently of the storage device (25, 30, 35, 40). Transport system according to claim 1,
characterized in that on a transport system (1) overall receiving support frame (20) for pumping the in the
Mixing device (70) produced mixtures below the mixing device (70) at least one pump device (80) is arranged. Transport system (1) according to one of claims 1 or 2,
characterized in that the transport system (1) installed on a carrier vehicle (10), preferably decoupled, has its own drive (90), its own drive energy store (91), its own material storage device (25, 30, 35, 40) and a further storage device of additives. Transport system (1) according to one of the preceding claims,
characterized in that
the at least one mixing device (70) has a mixing container (72) fixed at the bottom in the transport system (1) and at least one mixing arm rotatable about a vertical axis, with a direct, exclusively gravity-driven substance feed with metering device (60) preferably being arranged above the mixing container (72) is. Transport system (1) according to claim 4,
characterized in that
the mixing device (70) is equipped with at least one weighing cell (74) supported against the transport system (1), particularly preferably integrated in one or in the receptacles of the mixing container (72). Transport system (1) according to one of the preceding claims,
characterized in that
a first storage container (30) is connected to a conveying device (50) which is intended to introduce coarse dry material, at least mainly grain sizes between 20 mm and 70 mm, into the mixing device (70) from above, in particular as a funnel-shaped storage container with a connection below to the conveyor device (50), particularly preferably extending over a large part of the length of the transport system (1), with the focus in the front half of the transport system (1) as seen in the direction of travel. Transport system (1) according to one of the preceding claims,
characterized in that
a second storage container (25) is connected to the or a further conveying device (50), which is intended to introduce fine, dry material, in the grain size range less than / equal to 2 mm, into the mixing device (70) from above. Transport system (1) according to one of the preceding claims,
characterized in that
a third storage container (35) without a conveying device (50), preferably funnel-shaped with a metering slide at the bottom, is arranged above the mixing device (70), in particular for storing and metering cement. Transport system (1) according to one of the preceding claims,
characterized in that 9.1 the lower end of the transport system (1) is formed by flat contact surfaces of a support frame (20) on which the transport system (1) is mounted, and / or 9.2 that the mixing device (70) is directly or indirectly embedded or placed in or on the support frame (20), in particular with a pump unit integrated at the bottom, particularly preferably at the rear and bottom of the transport system (1) as seen in the direction of travel. Transport system (1) according to one of the preceding claims,
characterized in that
the transport system (1), in addition to storage containers (25, 30, 35) for dry or flowable wet to moist granular material, has at least one liquid storage container (40) for water and / or liquid additives, particularly preferably in the central to rear area, viewed in the direction of travel taking advantage of the other funnel-shaped containers. Transport system (1) according to one of the preceding claims,
characterized in that
the pumping device (80) is suitable for conveying mixtures provided by the mixing device (70) to a higher level against the force of gravity. Transport system (1) according to one of the preceding claims,
characterized in that
the transport system (1) is used on various motorized or non-motorized carrier vehicles (10) or even without a rollable base, for example decoupled on legs. Process for mobile concrete production, in particular for the delivery and mixing of concrete at a delivery point,
characterized in that 13.1 dry and liquid materials required for production are delivered separately in the transport system (1), 13.2 the materials are fed to a discontinuous mixing device (70) on site at least predominantly automatically according to an individually determinable recipe, and that 13.3 after a flowable mixture has been produced, a pumping device (80) pumps the concrete out of the mixing device (70) through a take-off connection (81) to overcome a certain height difference. Method according to claim 13,
characterized in that
it is a discontinuous mixing process for the production of concrete in portions.

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