Automated concrete casting system

Abstract

A system for automating the casting of concrete panels in which a bed position indicator is fed to a program which compares the bed position to CAD drawings concerning the concrete to be cast and sends the drawing detail for the position of the bed which is then shown on the bed by a laser.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

A detailed description of the invention is hereafter described with specific reference being made to the drawings in which:

FIG. 1 is a top view of a concrete casting bed with the inventive system;

FIG. 2 is an end, partially perspective view showing the laser system and bed;

FIG. 3 is an end, partially perspective view similar to that of FIG. 2 in which the perspective is slightly higher; and

FIG. 4 is an end view showing a bed positioning mechanism.

DETAILED DESCRIPTION OF THE INVENTION

With reference to FIG. 1, the form of the invention in which a moving casting bed 10 is employed is shown. Moving casting beds 10 are well known in the art, and typically include a concrete form 12 that may be 900 feet long. The bed 10 has tracks 14 that ride on rails such that the entire bed 10 may be moved down the rails. This allows the bed 10 to be moved to each of the fixed stations, such as for pouring concrete on the bed from an overhead hopper.

The underside of a typical casting bed 10 is shown in FIGS. 2-4 in which it will be seen that a mechanism to precisely indicate the exact position on the bed 10 may be generated. The bed position device 20 is used to provide a signal that indicates the exact position of the bed to a known position in the plant. As shown, it involves the addition of a rack 22 to the underside of the casting bed 10. The rack 22 engages with a pinion 24 which is attached to an encoder 26. The rack 22 has a fixed rack anchor 28. The bed 10 includes a bed fixture bracket 30 which together with a linear decoder post 32 and a verneer code readable scale 34 and linear encoded track monitor 36 is able to accurately gauge and report any differences in length of the bed due to tension of the prestressing cables or temperature changes. This allows variations in the casting bed 10 length to be accounted for due to seasonal temperature changes, and stress changes due to prestressing in the bed which over a very long casting bed 10 can be significant. The fixed encoder 26 is fed the bed length information and transmits the exact position on the bed as read by the rack 22.

Now that a precise location on the moving casting bed 10 is known, it is possible to use that information in conjunction with the CAD drawings on a computer. An overhead projector laser 40 is mounted to an overhead track 42 above the casting bed 10. The laser 40 shown is a CAD Pro 2D laser projector from LAP GmbH Laser Applikationen of Lueneburg, Germany. Such projectors 40 reads common CAD files directly and project a rapidly moving laser line onto the casting bed 10 such that the CAD drawing appears to be “painted” on the surface of the casting bed 10. Since the casting bed 10 is so long, the CAD drawing is typically displayed in 20 foot increments on the casting bed 10. While the bed 10 moves, the laser 40 is able to track with the moving bed by virtue of being movably mounted to the overhead track 42. Thus, the fixed portion of the CAD drawing to be displayed onto the casting bed 10 is able to be kept on the bed while it is moving over the length of the overhead track. The next portion of the CAD drawing is then projected by the laser 40 onto the casting bed as the bed 10 moves.

It will be seen that the exact position of the moving bed 10 must be known in order for the laser 40 to project the CAD drawing segment onto the proper position of the bed 10. FIG. 2 shows the laser 40 projecting the CAD drawings with lines 44 indicating the area in which the pattern may be projected. FIG. 1 shows the laser field pattern area 46 which moves along with the movement of the laser 40 on its track 42.

The invention has been shown in the figures in connection with a moving casting bed. The invention is also used in fixed bed casting, in which the bed is stationary but the various components used in making the concrete panels move about the bed. The laser would simply be on a track above and along the entire length of the bed. The bed positioning device would also be above the bed and relative to the moving components, such as the concrete hopper, etc.

While this invention may be embodied in many different forms, there are shown in the drawings and described in detail herein specific preferred embodiments of the invention. The present disclosure is an exemplification of the principles of the invention and is not intended to limit the invention to the particular embodiments illustrated.

This completes the description of the preferred and alternate embodiments of the invention. Those skilled in the art may recognize other equivalents to the specific embodiment described herein which equivalents are intended to be encompassed by the claims attached hereto.

Claims

1. In a concrete casting machine including an elongated casting bed, the improvement comprising: a) a bed positioning device which accurately indicates the position of any point along the length of the bed; andb) a laser projection device positioned above said elongated casting bed, said laser projection device projecting a laser image onto said elongated casting bed from CAD computer files such that the CAD image for a particular spot on the bed is projected onto said bed after comparison to a signal from said bed positioning device.

2. The concrete casting machine of claim 1 wherein said casting bed is movable on a track, and said laser projection device is mounted overhead on a track such that it may move and track with movement of the casting bed there under.

3. The concrete casting machine of claim 1 wherein said bed positioning device includes a thermal expansion detector module to provide adjustments in length due to temperature expansion and contraction of said bed.

4. The concrete casting machine of claim 1 wherein said bed positioning device includes a toothed rack along the length of said casting bed and a pinion attached to a reader which transmits the position of said casting bed based on the position at said rack.

5. The concrete casting machine of claim 2 wherein said bed positioning device includes a toothed rack along the length of said casting bed and a pinion attached to a reader which transmits the position of said casting bed based on the position at said rack.

6. An automated concrete casting machine comprising: (a) an elongated concrete casting bed movable on rails;(b) a bed positioning device which accurately indicates the position of any point along the length of the bed; and(c) a laser projection device positioned above said elongated casting bed, said laser projection device projecting a laser image onto said elongated casting bed from CAD computer files such that the CAD image for a particular spot on the bed is projected onto said bed after comparison to a signal from said bed positioning device.

7. The concrete casting machine of claim 6 wherein said laser projection device is mounted overhead on a track such that it may move and track with movement of the casting bed there under.

8. The concrete casting machine of claim 6 wherein said bed positioning device includes an expansion detector to provide adjustments in length due to expansion and contraction of said bed.

9. The concrete casting machine of claim 6 wherein said bed positioning device includes a toothed rack along the length of said casting bed and a pinion attached to a reader which transmits the position of said casting bed based on the position at said rack.

10. The concrete casting machine of claim 7 wherein said bed positioning device includes a toothed rack along the length of said casting bed and a pinion attached to a reader which transmits the position of said casting bed based on the position at said rack.