DE19960356A1 - Precast concrete parts for building, use mobile active transmitter and receiver to activate passive transmitter and receiver arranged on concrete part - Google Patents

Abstract

The concrete parts include an information system. An automatic recognition device comprises a rewritable code-memory and a passive transmitter and receiver for receiving and emitting information. The passive receiver/code-memory are arranged in or on the concrete part. A mobile active transmitter and receiver are provided for activating the passive transmitter and receiver.

Description

The invention relates to prefabricated parts, in particular made of concrete, for buildings.

Buildings increasingly consist entirely or partially of prefabricated parts. Precast parts can e.g. B. be: lintels, lintels, concrete slabs for ceilings and walls, beams, supports, etc. Larger structures often include a large variety of parts.

The advantage of precast concrete parts is, in particular, rational production with the best possible Production resources in a controlled, e.g. B. steam heated environment and high quality. The disadvantage of precast concrete is the necessary transportation. Nevertheless, it is Use of precast concrete parts even when transporting several hundred Kilometers still worthwhile.

The greater the number of parts used, the more difficult the logistics and / or Warehousing. This applies all the more if the parts used only differ in size differ slightly. It is particularly difficult to distinguish between the same format Parts with different strengths. All necessary information can be admitted Attach a concrete part to the part by labeling. The rough construction business leads however, easily damage the label. This also applies to molded or molded labels.

The label forms an information system.

The invention is therefore based on the object of an information system without the to create disadvantages described.

For this purpose, automatic recognition devices are provided on the finished parts from a rewritable, microelectronic code memory for recording the necessary information, the code memory with a passive transmitter and Receiver is paired. Passive means that the code memory and transmitter by one active (with its own power source) transmitter and receiver is activated, the Record information of the code memory and / or rewrites the code memory. The  active transmitter and receiver is mobile in order to activate the necessary proximity passive transmitter and receiver to come.

The passive transmitter and receiver are preferably embedded in a concrete part or there permanently attached to prevent damage and detachment of the code memory.

Passive transmitters and receivers can be subsequently embedded in concrete parts be used with a cylindrical shape, the diameter of which is the diameter of suitable drills for hand drills. Preferably, the Diameter of the cylinder shape not larger than 1.5 cm and the length not larger than 4 cm. In this application it is usually advantageous if the length is greater than the diameter is. As a result, holes can be drilled, including the passive transmitters and Sink the receiver and then drill the holes with an adhesive and / or Seal the mortar. A high level of security is already given when the material overlap the passive transmitter and receiver in the holes is 5 mm. A bigger one is safer Material coverage.

As a rule, a material covering of more than 2 cm is superfluous.

This type of attachment can also use transmitters that are made of Corrosion reasons and sealing reasons are embedded in glass.

To maintain the same distance between the passive transmitter and Receiver / code memory from the surface of the concrete part can make accurate holes be introduced. For precise holes, z. B. Drills with stops and / or with stepped drills.

It must be taken into account that the handling of commercial attacks with considerable tolerances. This is especially true in relation to the different ones Fitters.

Special drills are expensive to purchase and regrind.

Therefore, it may be appropriate to oversize the holes in diameter to make a mortar or glue plug into the hole put and then around the passive transmitter and receiver / code memory in the graft to be able to press. Due to the excess, excess material on the side Escape transmitter and receiver / code memory. At the same time the use recommended a template. The template is placed on the outside of the surface and protrudes with a part of exactly the intended size into the hole. That forms  protruding material at the same time a control for the exact position of the passive Sender and receiver.

After visual inspection, it is preferable to wait until the mortar or adhesive has reached Initial strength has developed before drilling over the transmitter and Receiver / code memory is closed in the manner described above.

When drilling in concrete parts, there is the problem of reinforcing steel reinforcement. After Invention is a hole at least 1 cm, better 2 cm and more distance from the Have reinforcing steel reinforcement. The determination of the position of the reinforcing steel reinforcement can done with a metal detector.

The desired attachment to concrete parts can also in other ways, in particular Glue can be brought about. Suitable adhesives are e.g. B. epoxy mortar. This glue can not only form the desired adhesive layer. You can also use a protective layer for form the passive transmitter and receiver.

For attaching passive transmitters and receivers / code memories to stones, etc. Using adhesive or mortar, all transmitter and receiver / code storage forms can be used be used. However, cylindrical shapes are also favorable here. Quality Fastenings can be achieved if the diameter (dimension in the plane parallel to the mounting surface) larger than the cylinder length (dimension in the plane perpendicular to the mounting surface).

Optionally, the transmitter and receiver / code memory can also be equipped with an eyelet / opening for a conventional fastening with a screw and if necessary be provided with a dowel.

Transmitter and receiver / code memory that are visible from the outside are considerably more complete Destruction at risk. Nevertheless, it can be more economical to add new channels and To put receiver / code memory as a destruction more difficult because of the transmitter and Receiver / code memory as mass parts cause low costs and because of the data of the old code memory are available elsewhere and to a new code memory can be abandoned again.

The passive transmitters and receivers are optionally embedded in concrete parts immediately when pouring the concrete. The passive transmitter and receiver are included Spacers held on the concrete reinforcement.  

The spacers can be customary in concrete construction, with a connection of Spacers with transmitter and receiver / code memory is possible.

Clamping parts can also be used, with clamping on the Concrete reinforcement and / or clamping of the passive transmitter and receiver is provided is. Here, according to the invention, inter alia, a clamp on one or one simultaneous clamping offered on several concrete bars. The simultaneous clamping on several concrete bars comes the rough concreting business, especially the loads very contrary when shaking the concrete.

The clamping can also be done with a spacing from the concrete formwork get connected.

Optionally, the passive transmitter and receiver can be encapsulated in the Spacers are made. The encapsulation protects the passive transmitter and Receiver against damage in rough construction and also against chemical Attack. Mechanical protection is particularly advantageous if the transmitter and Receiver / code memory are embedded in glass.

Suitable spacers have e.g. B. a container / housing for receiving the passive Sender and receiver. The containers are optionally equipped with a clamping device. Plastic is particularly suitable as a material for capsules in foamed and unfoamed form. In the foamed form, the plastic has one of its own compliance to the nature of the foam. For non-foamed materials can by the shape of the encapsulation and if necessary Enclosure / container / housing can be achieved under pressure.

Each of the concrete parts can be selected for the code memory according to the invention. The applies to every part of the building and also includes beams and supports. Form beams and supports essential components in hall construction.

Surprisingly, with the embedded passive transmitters and Other functions can also be performed for receivers / code memories. That affects the Production and construction / installation of the concrete parts. When it is made, the type and quantity of the substances used and the processing of these substances are essential for the quality of the concrete parts. This applies to the type and amount of cement, for the grain of the Sand, for the type and extent of surcharges to accelerate or delay the Setting or for other supplements and tasks, also for the amount of water used  and for heat treatments and other treatments, including the date of manufacture, from which one can deduce the duration of the setting process.

All data during production can be recorded in the code memory and for everyone check later.

It is also possible to check where and in which production station the individual Parts are. Likewise, the camp can be determined using the transmitter and receiver check the code memory.

Finally, the installation with the transmitter and Check the receiver / code memory, both the manufacturing status of the whole Building as well as the positions of the various concrete components.

For these additional functions, active transmitters and receivers are on individual or several manufacturing stations and / or provided in the warehouse and / or during assembly. The information system according to the invention allows a very favorable control of the Manufacturing. Among other things, the information system according to the invention facilitates the Control of manufacturing, including automation of manufacturing. Advantageously allow the transmitter and receiver according to the invention a contactless control or Control from a distance.

The same applies to storage.

The active transmitter and receiver is preferably portable or mobile.

Favorable conditions result with a mobile device transmitter and receiver. Additional advantages result from a liftable and lowerable active transmitter and receiver on the driving equipment. This allows the active transmitter and receiver to be in a desired one Position.

Additional advantages result from two location receiver systems for position determination of the mobile active transmitter and receiver. On the way z. B. a building drive around and / or drive through and / or drive through and the building contour using the Trace position locations determined continuously or intermittently. That can with A computer can be used on any scale.

Optionally, when determining the position, those of the passive transmitter and Information forwarded to the recipient.  

The position can be determined both in the plane and in height. Thereby there is an exact planning status of the building.

Optionally, the active transmitter and receiver is also available with a keyboard for one Provide information input by hand, e.g. B. for indications of the external condition of the Building. In addition to or instead of the keyboard, a voice recording can also be made on the mobile active transmitter and receiver can be provided. This is particularly useful if the operators only have a low level of training with regard to handling the device to have. The voice recording can be saved in the device or directly via the additional location receivers can be recorded in a stationary computer.

For the rest, it is possible to move the location receivers in a transportable or self-movable manner design, so that the establishment of building to building and proceed constantly can be used. The extensive use also makes complex transmitters and Receiver designs and complex computer systems economically. Also offers an operator with considerable training.

The work result can be given to the individual site managers in the form of a floppy disk or CD be left to.

Various exemplary embodiments of the invention are shown in the drawing.

Fig. 1 shows a concrete element 1. A passive transmitter and receiver / code memory 3 according to the invention with a cylindrical shape was subsequently installed therein. The cylindrical shape has a diameter of 5 mm and a length of 30 mm. A corresponding hole 1 has been drilled for assembly. The hole can be easily drilled by hand with a concrete drill.

Before that it was clarified with the help of a metal detector that there was at least 2 cm distance to the Reinforcing steel reinforcement in the concrete part.

The transmitter and receiver / code memory is held in the bore by a mortar plug 4 .

Fig. 2 shows the concreting of various transmitters and receivers / code memories. The concrete is labeled 10 . The reinforcing steel reinforcement is formed by concrete mats with cross bars 12 and longitudinal bars 13 .

The transmitter and receiver / code memory according to the invention are seated in impact-resistant housings 15 and 19 made of plastic.

The housing 15 is provided at one end with a clamp 14 which ensures the correct distance from the reinforcing steel reinforcement. At the other end, a support with a spacer 16 is provided on the formwork. In the exemplary embodiment, the spacer 16 is attached to the formwork.

The housing 19 has two clamps 17 and 18 , with which two parallel rods 13 can be included. This creates a non-rotatable arrangement.

In further exemplary embodiments, not shown, the housing and the clamps are in several parts, so that the housings 15 and 19 can be moved on the clamps in order to set the correct distance from the concrete surface 11 .

Or the clamps are deformable or adjustable or have several engagement troughs, so that the correct distance to the concrete surface 11 can be established by bending the clamps or by adjusting them or by using other engagement troughs. In the respective position, additional securing can be done using threads, wires, etc.

Fig. 3 shows a transmitter and receiver / code memory 30 which has been glued to a concrete part. The part 30 again has a cylindrical shape. In contrast to the exemplary embodiment according to FIG. 1, the cylinder length is considerably shorter than the cylinder diameter. This prevents substantial leverage that would be damaging.

An epoxy adhesive is provided for gluing. The actual adhesive layer is designated 32 . In addition, the adhesive is also passed around part 30 at 33 , forming a protective layer.

Claims (29)

1.Fabricated parts for buildings, in particular prefabricated concrete parts, with an information system, characterized by an automatic recognition device comprising a rewritable code memory and passive transmitter and receiver for recording and reproducing desired information, the passive transmitter and receiver / code memory being arranged in or on the concrete part, and characterized by a mobile active transmitter and receiver to activate the passive transmitter and receiver. 2. Prefabricated parts according to claim 1, characterized in that for the passive transmitter and Receiver / code memory in the parts a hole is provided. 3. Prefabricated part according to claim 2, characterized in that the passive transmitter and Receiver / code memory has a cylindrical shape and the diameter at most is the diameter of the drill suitable for a hand bore and / or the Bore diameter has an oversize compared to the cylindrical shape and before An adhesive or mortar plug is provided in the shape of a cylinder, the amount of which is so dimensioned is that at the correct distance of the cylindrical shape from the outer wall adhesive or Mortar graft material is visible, which has swelled past the cylinder shape. 4. Prefabricated part according to claim 3, characterized by using a template for Inserting the cylindrical shape and / or characterized by one opposite Cylinder diameter longer length. 5. Prefabricated part according to one of claims 2 to 4, characterized by a mortar or Adhesive seal in the hole above the passive transmitter and receiver / code memory. 6. Prefabricated part according to claim 5, characterized by a closure thickness of at least 5 mm.   7. Prefabricated part according to claim 1, characterized in that the passive transmitter and Receiver / code memory are screwed and / or glued to the concrete part. 8. prefabricated part according to claim 7, characterized in that the adhesive additionally a passive transmitter and receiver / code memory forms a protective layer and / or the transmitter and receiver / code memory have a flat shape of the transmitter and Receiver / code memory, with an extension parallel to the mounting surface, which is larger than the dimension perpendicular to the mounting surface. 9. prefabricated part according to claim 1, characterized by a cast-in passive transmitter and receiver / code memory. 10. Prefabricated part according to claim 9, characterized by a distance between the passive transmitter and receiver / code memory of at least 1 cm from the reinforcing steel reinforcement. 11. Finished part according to one of claims 2 to 10, characterized by bores or Wells for the passive transmitter and receiver / code memory in the concrete. 12. The finished part according to claim 11, characterized by a bore diameter which is at most equal to the diameter of the drills still common with hand drills. 13. Prefabricated part according to claim 11 or 12, characterized by passive transmitters and Receiver / code memory with a cylindrical shape. 14. Prefabricated part according to claim 13, characterized by a cylinder diameter which at Bores or depressions is at most 1.5 cm and / or a cylinder length that for holes or depressions is a maximum of 4 cm. 15. Prefabricated part according to one of claims 11 to 14, characterized by a mortar and / or adhesive coverage of the passive transmitter and receiver / code memory in the Holes and / or an epoxy adhesive / mortar.   16. Prefabricated part according to one of claims 9 to 15, characterized by spacers for the passive transmitter and receiver / code memory from the reinforcing steel reinforcement. 17. Prefabricated part according to claim 16, characterized by spacers with clamps and / or with an encapsulation or housing for the passive transmitters and Receiver / code memory. 18. Prefabricated part according to claim 17, characterized by a flexible capsule or housing and / or molded clamps on the capsule / housing and / or multiple clamps any capsule or housing and / or deformation or adjustment of the clamps for Distance adjustment or by multiple engagement recesses on the terminals Distance adjustment. 19. Prefabricated part according to claim 18, characterized by capsules or housing Plastic foam and / or with a foldable housing construction and / or characterized by an injection mold for the capsule / housing and / or the clamps. 20. Prefabricated part according to one of claims 1 to 19, characterized by one in glass included passive transmitter and receiver / code memory. 21. Finished part according to one of claims 1 to 20, characterized by at least one mobile active transmitter and receiver to write to the code memory and Recording information. 22. Prefabricated part according to claim 21, characterized by one in the cemetery area movable active transmitter and receiver. 23. Prefabricated part according to claim 21 or 22, characterized by a keyboard on the mobile Transmitter and receiver for manual entry and / or by coupling with a Voice recording. 24. Finished part according to one of claims 21 to 23, characterized by a lifting and Lowerable arrangement of the active transmitter and receiver in the driving unit.   25. Prefabricated part according to one of claims 21 to 24, characterized by the coupling of the active transmitter with two location receivers. 26. Prefabricated part according to claim 25, characterized by a location of the mobile active Transmitter and receiver in the horizontal and / or in the vertical. 27. Prefabricated part according to one of claims 1 to 25, characterized by continuous or intermittent operation of the transmitter systems and / or receiver systems and / or transportable location receiver systems. 28. Finished part according to one of claims 25 to 27, characterized by a coupling of Location receiver with a computer system. 29. Finished part according to one of claims 1 to 29, characterized by a coupling with at least one active transmitter and receiver and / or at least one Location receiver in the area of the production of concrete parts and / or in the area of Storage and / or installation.