DE102004010129B3 - Device for producing pre-cooled concrete used in civil engineering comprises a unit for producing refrigerated artificial snow, a metering scale arranged in a refrigerated environment, and a feeding system - Google Patents

Abstract

Device for producing pre-cooled concrete comprises a unit (2, 4, 5) for producing refrigerated artificial snow (3), a metering scale (8, 9) arranged in a refrigerated environment for weighing parts of the snow produced, and a feeding system (13) for introducing weighed artificial snow to a mixing system for concrete manufacture. An independent claim is also included for a process for producing pre-cooled concrete using the above device. Preferred Features: The metering scale is arranged in an insulating cell (6) which is thermally insulated from the surroundings. Parts of the metering scale, especially mechanical drives, valves and/or weighing cells, are thermally coupled within the cell.

Description

The The invention relates to an apparatus and a method for the production of pre-cooled Concrete, in particular ready-mixed concrete.

concrete comes in the construction industry in a wide variety of applications and diverse variations for use. Concrete is used in civil engineering, and the Terms normal concrete, lightweight concrete, exposed concrete, self-compacting Concrete, underwater concrete, etc. are just a few of the many possible variations of the high-tech building material concrete.

The usual form The concrete preparation consists of water and cement as well further surcharges and accessories (Binder, filler, Slag, Fly ash, lime, sealant, condenser, etc.) in predetermined Composition are mixed. It is the quality of the produced fresh concrete important that the mixing of the mixing water to the solid components quantitatively accurate and reproducible, so that compliance with the required mixing ratio guaranteed in the tolerance range can be. In this context, it is already known, a quantitatively accurate Dosing of the mixing water over to make a Verwiedung the water.

Next compliance with the required mixing ratio is the quality of the fresh concrete decisively influenced by the installation temperature. Depending on the type and use of the concrete must not exceed a specific installation temperature become. Another aspect, especially in ready-mixed concrete of great Significance, is that the temperature of the fresh concrete the Setting time influenced. To premature setting of the concrete To avoid transport, the fresh concrete must be as possible transported cool become. Therefor it is already known to use lancet cooling in the truck mixer, which the ready-mix concrete with liquid Nitrogen (LIN) cools.

Around the stated requirements with regard to the installation temperature and the transportability of the To be able to comply with concrete has already been proposed, the concrete by using cooled mixing water to cool directly during the mixing process. The addition of the mixing water in the form of flake ice has proven to be detrimental, as they result in a reduction in concrete quality a non-uniform moisture of the concrete leads. As an alternative, it was proposed that the mixing water in the form of to add deep cold artificial snow. Unresolved is the problem, one quantitatively exact and reproducible addition of artificial snow to solid concrete components to accomplish.

Of the Invention is based on the object, an apparatus and a method for the preparation of pre-cooled Concrete to create a precise dosage of cryogenic Artificial snow while largely avoiding heat loss allows.

The The invention is based task by the Characteristics of the independent claims solved. Advantageous embodiments and further developments of the invention are in the subclaims specified.

Of the The core idea of the invention is to increase the metered addition of the cooled (i.e. cold) artificial snow over to carry out a dosing scale in a cold environment. Due to the fact that the dosing scales are inside the cryogenic environment , eliminates elaborate activities for the Isolation and execution of mechanical drives, which would be required if the Dosing scales in the normal temperature range outside the cryogenic environment would be arranged. such bushings and related temperature gradients in the mechanical field lead moving parts to force bypasses with significant restrictions the weighing accuracy, which by the installation according to the invention the metering scale be excluded in the deep cold environment can. If by laying the dosing scale in the deep cold environment Measurement errors occur should (for example, as a result of changes in the spring elasticity of the return spring the scale), the measurement errors are mostly systematic measurement errors, by a new calibration or suitable temperature-dependent control the balance can be corrected in the cryogenic environment. in the Result is therefore to be found that with the laying of the Dosage scales in the deep cold environment achievable advantages - in particular the increased Weighing accuracy and reproducibility of the weighing process as a result of the avoidance of adverse effects in the field of mechanical feedthroughs - one allow much more accurate and more reliable dosing.

Preferably, the metering balance together with weighing container is housed in a relative to the environment thermally insulated insulating. It is quite possible that temperature-critical parts of the metering scale, in particular mechanical drives and / or valves and / or the load cell with a located within the insulating local acting heater thermally coupled and are locally thermally insulated against cooling. Such a heating device, which may for example consist of an electric coil for local heating of a valve or a sliding seal in the region of the measuring cell, allows a targeted, local temperature increase of such parts, whereby temperature-related difficulties, such as the occurrence of an incipient leak in the range of pressure fluid Drive at too low temperatures, can be sufficiently counteracted.

A preferred embodiment the device according to the invention includes a silo container for storing the manufactured artificial snow, as well as one in the lower Area of the silo container arranged metering flap for emptying the silo tank, which the silo container opens to the insulating cell or closes. The container scale located in a cold environment can in this case directly below the silo container be arranged, wherein between the silo, which also is in the cryogenic temperature range, and the insulating no special insulation measures must be taken.

The inventive method includes the production of deep cold artificial snow, weighing of parts of the deep cold artificial snow by means of a dosing scale, which in a cryogenic environment, in particular insulating, is located, and the feeding of the weighed artificial snow portion to a concrete mixer.

Next the local warming of temperature-critical parts (see above) can also be procedural activities be taken to a cool of temperature-critical parts of the dosing scale below one to avoid specific critical temperature. It can be made sure that the temperature of the cryogenic environment, in which the Dosing weigher is before a dosing (something) higher as during the Dossier process. This can be done, for example, only by an appropriate Design of the thermal insulation of the insulating cell can be achieved. The metering time intervals are then set so short that the Temperature of the temperature-critical parts of the dosing weigher, in particular of mechanical drives and / or valves and / or the load cell of the Dosing scale, not below a predetermined critical temperature, which higher when the temperature of the deep cold artificial snow is falling. Possibly can do this a local thermal isolation of temperature-sensitive parts the balance be provided.

The Invention will now be described with reference to an embodiment with reference closer to the only drawing explained.

Shown is a device for the production of pre-cooled concrete. This includes an artificial snow container or silo 1 in which by means of an artificial snow-generating device cryogenic artificial snow 3 will be produced. The ceiling-mounted artificial snow-generating device 2 is via a first supply line 4 the mixing water (H20) and a supply line 5 liquid nitrogen (LIN) to a temperature of -196 ° C supplied. The silo 1 is thermally insulated from the environment. The temperature of the deep cold artificial snow 3 should be as deep as possible and in practice, depending on the structural conditions, for example, be between -100 ° C and -170 ° C.

Below the silo 1 is a cryogenic isolation cell 6 arranged. The insulating cell 6 is structurally realized in the form of a closed room or cabinet, whose bottom and side walls with a low-temperature insulation 7 are lined. The cooling of the cryogenic insulating cell 6 can be done over the (non-insulated) ceiling area, which at the same time the bottom of the silo 1 forms. Furthermore, there is a cooling of the insulating 6 through the inflow of cold artificial snow 3 during the dosing process. In addition, the cryogenic isolation cell can also be equipped with its own cooling device on LIN basis.

Inside the cryogenic isolation cell 6 There is a container scale consisting of a container 8th and a force fit with the container 8th coupled scales 9 , Essential part of Libra 9 is a measuring cell (not shown) for weight detection of the weight of a material to be weighed in the container 8th ,

In the bottom area of the silo 1 is a dosing flap 10 intended. A container flap 11 is located at the bottom of the weighing container 8th , and a drain plug realized as a temperature bulkhead 12 is in the bottom area of the insulating cell 6 below the container flap 11 arranged.

Below the drainage cap 12 can be a transport or conveyor system 13 for transferring the weighed artificial snow portion to a mixing system, not shown. The transport or conveyor system can be realized as a conveyor belt or conveyor screw, in the simplest case, however, it can also be designed as a simple feed system in the form of a shaft or the like, through which the artificial snow falls into the mixer or fed to this becomes.

The operation of the device according to the invention is as follows: By opening the metering flap 10 becomes artificial snow from the silo 1 in the container 8th filled. Because the container 8th as well as the entire interior of the insulating cell 6 is cold (the temperature is preferably between -50 ° C and -196 ° C, usually between -100 ° C and -150 ° C), results from the inflow of artificial snow 3 in the container 8th no major warming of artificial snow. During the inflow of artificial snow is the weight of the container 8th located, infiltrated artificial snow 14 by means of the balance 9 constantly measured. An unillustrated control system compares the weight measured by the balance with a setpoint value and, upon reaching the setpoint value, the dosing flap 10 closed. The accuracy of the dosage is within a tolerance of eg 0.05 kg (or 0.02%).

The control system may also be designed to compensate for temperature-dependent measurement errors by adjusting the temperature in the isolation cell 6 and / or on a temperature-sensitive part of the dosing scale 9 measured and the determined weight value is temperature-dependent corrected.

After closing the dosing flap 10 becomes the drain plug 12 and the container flap 11 opened so that the metered portion of artificial snow 14 by means of the transport or conveyor system 13 on the shortest possible way (the lowest possible heating of artificial snow before the mixing process) the mixer (not shown) is supplied.

Claims (10)

Device for producing precooled concrete, comprising - a device ( 2 . 4 . 5 ) for the production of deep cold artificial snow ( 3 ), - a dosing scale ( 8th . 9 ) for weighing parts of artificial snow produced, and - a feeding system ( 13 ) for feeding the weighed artificial snow portion ( 14 ) to a mixing system for concrete processing. Apparatus according to claim 1, characterized in that - the metering scale ( 8th . 9 ) in an insulated from the environment thermally insulated ( 6 . 7 ) is housed. Apparatus according to claim 2, characterized in that - parts of the dosing scale ( 8th . 9 ), in particular mechanical drives and / or valves and / or the load cell, with an inside of the insulating ( 6 . 7 ) are locally thermally coupled locally acting heater. Apparatus according to claim 2 or 3, characterized in that - parts of the dosing scale ( 8th . 9 ), in particular mechanical drives and / or valves and / or the load cell, with an inside of the insulating ( 6 . 7 ) are surrounded local thermal insulation. Device according to one of the preceding claims, characterized by - a silo container ( 1 ) for the storage of the manufactured artificial snow ( 3 ), and - one at the bottom of the silo container ( 1 ) arranged metering flap ( 10 ) for emptying the silo container ( 1 ), which the silo container ( 1 ) to the insulating cell ( 6 . 7 ) opens or closes. Device according to one of the preceding claims, characterized by - an electronic control system which regulates a temperature within the insulating cell ( 6 . 7 ), in particular on a part of the dosing scale ( 8th . 9 ), and corrects the weight value obtained by weighing as a function of the measured temperature. Device according to one of the preceding claims, characterized in that - in the feeding system ( 13 ) is a transport or conveyor system. Process for the production of pre-cooled concrete, comprising the steps of: - producing cold-water artificial snow ( 3 ); - weighing of parts of the deep cold artificial snow ( 3 ) by means of a dosing scale ( 8th . 9 ), which in a cryogenic environment, in particular 6 . 7 ) is located; and - feeding the weighed artificial snow portion ( 14 ) to a concrete mixing device. Method according to claim 8, characterized by the steps: - detecting a temperature within the insulating cell ( 6 . 7 ), in particular on a part of the dosing scale ( 8th . 9 ); - Correcting the weight value obtained during weighing as a function of the measured temperature. A method according to claim 8 or 9, characterized in that - the temperature of the cryogenic environment in which the dosing scale ( 8th . 9 ) is higher before a dosing than during a dosing, and - that the metering time intervals are so short that the temperature of parts of the metering scale ( 8th . 9 ), in particular the mechanical drive and / or a valve and / or the weighing cell of the dosing scale ( 8th . 9 ), not below a predetermined critical temperature, which is higher than the temperature of the deep-cold artificial snow ( 3 ) is falling off.