DE2122874A1 - Method and device for the production of three-dimensional components formed from concrete or the like - Google Patents

Description

DIPL.-ING. H. FINK PATENTANWALT · 7300 ESSLINGEN (NECKAR) - HINDENBURGSTRASSE

• Potantonwolt FINK · D 7300 Eulingw (Nacfcor), HindenburflttraB »44 ·

May 5, 1971 Z P 5897

BAIIR, 36/38, rue de l'Hopital Militaire, LILIE (north) (France)

"Method and device for the production of three-dimensional components made of concrete or the like"

Claimed priority of French patent application 70.33 663 of September 17, 1970

The present invention relates to a method for the production of three-dimensional, made of concrete or the like. Shaped structural elements, which six each the ceiling, the floor A.

and having walls forming the four side walls of a complete, closed cell, in which method four Side walls from which the cell is formed, successively widthwise on the four walls of a rotatable Manufacturing form are produced. The invention also relates to an apparatus for performing this Procedure.

The manufacture of such components in a rotatable manufacturing form is known. It must be noted, however, that you only have four sides in a rotatable manufacturing mold

209813/0950

- 2 - 5.5.1971 Z

P 5897

can shape the width of the cell. The "other two Sides generally need to be prefabricated separately and on two ends of the manufacturing mold prior to the actual molding process attached to the cell. But to amortize this relatively expensive type of equipment, it is it is desirable that the production sequence is carried out as quickly as possible.

If fast-hardening plastic is used for porming, occurs no problem on. unfortunately it is not the same when it comes to the production of cells e.g. reinforced concrete. It is necessary to have the reinforcement used to reinforce the walls of the cylinder, various plates for insulation or the like., insert different reinforcing irons, etc. one after the other inside the manufacturing mold. You then form one of the sides of the cell, e.g. the floor, and then you have to wait until the concrete is sufficient has set before the manufacturing mold rotated a quarter of a full circle and - with the formation of the following Page can be continued. But now it requires tying the concrete urgently for a certain time, even if it is accelerated by heating.

The object of the present invention is to reduce the downtime of the rotary mold in order to reduce the production sequence to increase =

To achieve this object, the invention has a manufacturing method of the aforementioned type to the object, which is characterized in that previously longitudinal angle irons fixed immovably in the four inner angles formed by the four walls of the 'rotatable manufacturing mold and this at a distance from the walls of the production mold which is equal to the thickness of the walls the cell.

- 3 209813/0950

- 3 - 5.5.1971 Z

P 5897

In addition, after molding each side wall, the Cell supported the two corresponding angle irons with the help of trusses which support against them Serve side of the solid plates.

It is easy to see that because of the totality of these operations the speed of rotation of the manufacturing mold can be accelerated considerably. There actually every shaped side of the cell by the angle iron and by the cross members associated with the fixed plates firmly to the corresponding Wall of the manufacturing mold is held, the manufacturing mold can be rotated without the complete Wait for the concrete to set.

In general, the rotatable production mold has a horizontally movable floor in a manner known per se, which is parallel to the axis of rotation of the production mold and which enables the cell to be easily extended out of the production mold allowed when the cell is ready.

According to another feature of the invention and in the case where the rotatable manufacturing mold with a movable bottom is equipped, the reinforcement, which is used to reinforce the concrete walls of the cell, is outside the production mold assembled on a movable frame gauge, which is also suitable for holding the four angle irons. the So equipped teaching is then placed on the movable base of the manufacturing mold and inside it Form used.

This way the rebar assembly can be what a relatively long process is carried out outside of the manufacturing mold during the formation of the preceding cell which saves a considerable amount of time. In addition, because of the movable floor, the introduction the reinforcement into the interior of the kerf shape no difficulty

209813/0950

- 4 - 5.5.1971 Z

P 5897

and it is also automatically in correct location.

The angle irons carried by the teaching are in the four angles of the production form directly on the walls attached, after which the gauge is removed from the manufacturing mold, allowing immediate reuse for assembly another reinforcement allowed.

The fully formed cell is brought out of the production mold on the movable floor after in a simple manner the angle irons of the walls of the manufacturing mold have been loosened.

In this way remain because of the supported by the trusses Angle iron and the solid walls firmly supported the walls of the cell, allowing the very rapid extension of the Cell from the production mold and its temporary storage as long as it is still on the bottom of the production mold j allowed on a suitable place where it can dry completely. be used for the porman of another cell; by of course, a second, exchangeable, movable floor is used will ο

From one of the foregoing, SiCh _{5 shows} that with the manufacturing method according to the invention, the times of standstill of the rotatable manufacturing mold are reduced to a small minimum, so that the manufacturing sequence "can be increased considerably"

Sine device for carrying out the manufacturing process naoh the invention is characterized in that it has a rotatable manufacturing mold with movable bottom, what means to fix an angle iron each " which has inner angles formed by its four walls, that at least one movable frame gauge © is provided,

209813/0950

- 5 - 5.5.1971 Z

P 5897

which for the temporary inclusion of the reinforcement of the cell as well the four angle irons, the traverses for bracing the angle irons two to two inside the manufacturing mold and serves for the fixed plates, which can be supported by the cross-bars when planting on the inner sides of the cell.

In a particular embodiment of the invention the means are formed durclr screws for fastening the angle irons, which cooperate with welded to the walls of the manufacturing mold nuts, each screw passing through a tapered bushing which a strut forms d and which is welded to the associated angle iron.

Because of the conical bushings, the angle irons are firmly attached to the walls of the production mold and can then can still be easily removed from the cell.

The angle irons are preferably provided with corner stiffeners, which facilitate the fastening of the ends of the support traverses by means of simple bolts.

Because of this arrangement, both the attachment and the dismantling of the trusses is very quick.

A design of the invention is described below as an exemplary embodiment with reference to the accompanying drawing, in which show

Pig. 1 shows a simplified side view of an element of the three-dimensional, according to the method according to the invention manufactured design,

Pig. Figure 2 shows a longitudinal section of this element along the line II-II in Pig. 1,

209813/0950

. - 6 - 5.5.1971 Z

? 5897

Pig. 3 is a simplified side view of the rotatable manufacturing mold for making the in the pig. Cell shown 1 and 2,

Pig. 4 shows a longitudinal section of this production form Line IV-IV in Pig. 3,

Pig. 5 is a side view of a jig for assembling FIG Reinforcement to strengthen the walls of the cell,

Pig. β a schematic view when introducing the finished Teaching inside the rotatable manufacturing form,

Pig. Figure 7 is a partial view in section of a detail of the fastening of angle iron on the walls of the rotating trough,

Pig. 8 a schematic view when removing the gauge after attaching the angle iron,

Pig. 9 shows a cross section of the cell equipped with supporting cross members,

Pig. 10 is a partial view in section along line X-X in Pig. 9,

Pig. Fig. 11 is a fragmentary view, on a larger scale, of a detail of the attachment of a traverse to the corresponding one Angle iron,

Pig. 12 shows a section along line XII-XII in Pig. 11 and

Pig. 13 is a schematic view when the molded cell is being ejected from the production mold.

The three-dimensional structural element shown in Figures 1 and 2 is generally rectangular in shape Cuboid and has six walls molded from concrete, which are a Deoke 1, a floor 2 and the four side walls 3 a closed cell 4 form. Such cells are in

209813/0950

- 7 - 5.5.1971 Z

P 5897

per se "known way for the production of prefabricated Buildings, especially single houses, used, each cell can form a complete residential part.

Of course, every cell is with all the necessary openings for the doors and windows and has, for example, as in the particular embodiment shown here a rectangular opening 5 in each of its small side walls 3 on.

It can also be seen that this cell 4 is the type of cell that was used in France on Sept. 16, 1970 Patent application 70.33 filed in the name of the applicant is described. The wall forming the bottom 2 points on its On the outside, two lateral longitudinal members 6 which extend over the entire length of the cell and which essentially have the purpose of facilitating the transport of the cell, as detailed in the following description is set out.

In FIGS. 3 and 4, the rotatable production mold is shown which is used for the production of the cell shown in FIGS. This rotatable manufacturing ä form has first a fixed frame which is essentially formed by the ring-shaped stand 7, of which there are four in the described embodiment, which are supported on its underside by two sets of rollers. 8 In this way, the frame of the production mold is rotatable about its longitudinal axis and can be driven by a drive motor 9, which acts on at least one of the stands with the interposition of the rollers 8 Wall 11 and two side walls 12. On these four walls, four side walls are formed one after the other and widthwise, which close

209813/0950

- 8 - 5.5.1971 Z

P 5897

loaned to form cell 4. In the embodiment described here it is in each case the floor 2, one of the large side walls 3, the ceiling 1 and the other large side wall of the cell.

It is clear that in a rotatable manufacturing mold of this type, only four side walls of the cell are made in width can. The two small side walls 3, that is, those which have the openings 5, are therefore prefabricated separately and inserted at both ends of the manufacturing mold before the actual cell molding process.

The top wall 11 and the two side walls 12 of the manufacturing mold are movable under the action of hydraulic working cylinders, e.g. 13, and can in this way the axis of the manufacturing mold can be easily approached or slightly removed therefrom in order to facilitate the molding of the cell. In FIGS. 3 and 4, these walls are shown in an approximate position. As for the bottom wall 10, which corresponds to the bottom 2 of the cell 4, it is in the horizontal direction parallel to the axis of rotation of the production mold movable on two rails 14 which cooperate with rollers 15 which for this purpose are inside the manufacturing mold "are provided", and with rollers 16, which are located on the floor in the extension of the rollers 15. This lower wall 10 thus forms, in a known manner, a movable floor which enables the finished cell to be easily extended out of the Manufacturing form allowed.

In the following, the manufacturing method according to the invention will be described, which essentially involves increasing the manufacturing sequence such a rotatable manufacturing mold aims.

The first step in this process is to assemble the metal reinforcement used to reinforce the concrete

209813/0950

- 9 - 5.5.1971 Z

P 5897

walls of the cell is determined. According to the invention, this assembly becomes outside of the rotatable manufacturing mold on a frame gauge 17 provided for this purpose, which is described in Pig. 5 is shown. In this way remains in the rotatable manufacturing form during the whole time, which is needed for the assembly of the reinforcement free and can be used to shape another cell.

The frame jig 17 is formed from tubes with a rectangular cross-section and has various parts that can be pushed in in order to later facilitate its extraction. There are also lifting bars 18 provided on their upper side, which allow their position to change%. The welded together, the reinforcement 19 forming mesh mats are assembled on the frame jig 17 by means of iron bars arranged in a square. In addition, these lattice mats are attached to the irons of the longitudinal beams and various iron bars are also arranged in the necessary places for reinforcement. Finally, at the four corners of the frame jig 17 provisionally strong, longitudinally extending angle irons 20 are attached, the role of which is more clearly evident from the following.

Equipped in this way, frame jig is then raised at their brackets 18 by means of a Waagscheites g and sold outside of the rotatable forming mold on the movable bottom of the manufacturing mold. Previously, the lower insulation of the floor 2 was attached to the movable floor and possibly the insulation of the inside of the longitudinal beams 6. The whole thing is now as in Pig. 6, inserted into the interior of the rotatable manufacturing mold by pulling the movable base in a simple manner by means of a winch 21 provided for this purpose. Here, the movable floor moves first on the rollers 16 and then on the rollers 15 and thus penetrates very easily into the interior of the production mold together with the frame jig 17 carrying the reinforcement 19. It was of course previously for

209813/0950

- 10 -. 5.5.1971 Z

P 5897

the mutual distance of the walls 11 and 12 of the manufacturing mold taken care of by means of the hydraulic working cylinder 13.

When the "movable floor" inside the rotatable manuf is in place, fix the walls 11 and 12 and then fasten them with the frame jig worn angle iron 20 at the inner four angles of the manufacture forin. Like in Pig. 7 are shown too for this purpose nuts 22 are provided at predetermined points on the outside of the two side walls 12 of the Well are welded. Each of these nuts 22 cooperates with a screw 23, which from the inside of the manufacturing foria is used and which a conical sleeve 24 penetrates 5 which is welded to the corresponding angle iron. These welded sleeves 24 thus form struts and consequently allow the angle iron 20 with a predetermined To fix spacing on the walls of the manufacturing foria j which distance corresponds exactly to the desired thickness for the concrete walls of cell 4. Sarover v / eist each angle iron 20 in its inner angle and in the distance corner stiffeners 25 arranged transversely from one another, the role of which is clear from the following.

When the four angle irons 20 are properly attached to the inside of the manufacturing mold ₂ , the frame gauge 17? like in Pig. 8, removed after several of its 2 cables have been inserted. So you can use this framework for the assembly of the reinforcement intended for the next cell immediately, which prevents loss of time.

After the two previously produced passage walls are attached to the two ends of the production mold, go it continues with the actual shaping of the cell, e.g. by starting with the corresponding wall of the bottom 2. Because of the angle iron 20 you can build a wall with a very constant

-11-

209813/0950

- 11 - 5.5.1971 Z

P 5897

ter thickness obtained by nan sicii this angle iron as Guide elements for placing and compacting the concrete are operated with the help of vibration devices. ! -lan sets then one or more sheet metal plates or counter plates 26 on the flat side just formed, as shown in FIGS. and 10 is shown which panels with the help of longitudinal beams 27 made of wood and trusses 28 made of lie tall in their position are held, the ends of which are attached to the angle iron 20. The ends of these trusses 28 are on the angle iron 20 in the corner stiffeners 25 provided for this purpose fastened with the help of strong bolts 29, as in the Pig. and 12 is shown. f

-o ^v

In this way, the wall of the cell that has just been formed, in the present case the bottom 2, is firmly attached to the corresponding wall of the production mold, which allows it to rotate without waiting for the concrete to set completely. Can you then actuate the drive motor 9 in order to make the candle mold rotate a quarter turn in one direction or the other, and then proceed with the molding of the extensive side wall? the width of cell 4 continues. After the concrete has been placed and compacted by means of vibrators, one puts on this page as before plates 26 which are held by brackets 27 and cross beams 28 A. Then one proceeds in the same V.'eise in the ceiling 1 and at the other side wall of the cell by each I ¹ IaI the Hers ~ ellungsforni to a quarter circle nuisance turn, are shaped to da3 all side walls of the cell. Finally, the production mold is returned to its starting position by a final rotation through an angle of 90, ie as shown in FIGS. 3 and 4. The cell 4 is now in its state shown in FIG. 9 with its four angle irons 20 car, which are supported by the cross members 28, which hold the plates 26 in place. As can be clearly seen from Fig. 10, results

209813/0950

- 12 - 5.5.1971 Z

P 5897

itself about the fact that the traverses 28 of a side wall in are offset with respect to the crossbars of the two adjacent side walls, since each corner reinforcement is only one Can accommodate traverse at once.

When the rotatable manufacturing mold is returned to its original position one loosens the angle iron 20 of the side walls 12 of the manufacturing mold by removing the fastening screws 23 can easily be removed. You then remove these walls and the top wall 11 with the help of hydraulic Working cylinders 13 and the cell can then be brought out of the production mold immediately on the movable floor 12. Since the angle irons 20 have actually remained in their place and since they are firmly supported by the cross members 28, are: at cell 4 the. Walls well supported and so there is no risk of them deforming, even if they are not completely dry. .

As shown in FIG. 13, the movable base 10 carrying the produced cell 4 is pulled out of the rotatable production mold by means of a winch 30 which is provided on the side of the production mold facing away from the winch 21 used for introduction. When the cell emerges from the production mold, the cell is preferably brought directly onto a sliding carriage 31 which is provided with rollers 32 on its upper side. Under the action of the winch 30, the movable floor 10 rolls first on the rollers 15 of the manufacturing mold, then on the rollers 16 of the floor and finally on the rollers 32 of the traversing carriage 31, as in Pig. 13 is shown.

The sliding carriage 31 is provided with wheels 33 which run on guide rails 34, and it can automatically move along move these guide rails 34 by means of a drive motor 35. In this way, the cell can be quickly out of production spread and always on their bottom 10 to one

- 13 -

209813/0950

- 13 - 5.5.-1971 Z

? 5897

suitable stand where ilire drying after. Can be resumed or continued at will can, e.g. by means of hot plates or under steam in a box.

It should be noted that the final drying of the walls of the cell 4 does not affect the performance of the plant. In fact, since the cell has been removed from the manufacturing mold, it is possible to insert a new movable floor into it, which is provided with reinforcement and with angle iron for the next cell. So by having several interchangeable movable floors as well as different sets of angle irons 20 and struts 28 are provided, one can use the ' Allow the cell to dry on the appropriate floors for as long as desired.

When the drying of the cell is completely finished, it is brought to a lifting point where the movable floor 10 is pulled up under the cell and returned to the production mold for reuse. At this lifting point, the cross members 28, the supports 27, the plates 26 and finally the angle irons 20 are removed from the cell, which is why all the desired internal and external finishing work can be carried out on the cell. All of these elements are naturally recovered to be used again like in another cell.

It results that the crossbars 28 because of the unlockable by hand Bolt 29 can be released from the angle iron 20 very quickly. The angle iron 20 then loosen very easily from the side walls of the cell as the sleeves 24 are conical in shape. It must also be noted that because of these angle irons the inner corners of the cell are very clean.

The just described manufacturing method according to the invention thus allows by reducing the downtimes

-.14 -

209813/0950

- • 14 - 5.5.1971 Z

P 5897

of the rotatable manufacturing mold on a Kiniiauia to increase the production sequence of such a candle manufacturing mold considerably and all this without significant additional investment.

209813/0960

Claims (1)

- 15 - 5.5.1971 Z P 5S97 Expectations A method of manufacturing three-dimensional structural elements formed from concrete or the like, which have six walls each forming the ceiling, the floor and the four side walls of a complete, closed cell, in which method four side walls from which the cell is formed successively in width after being produced on the four walls of a rotatable production mold, g characterized in that previously longitudinal angle irons (20) are fixed immovably in the four inner angles, which are formed by the four walls (10 to 12) of the rotatable production mold and this at a distance from the walls of the manufacturing _w _> form, which is equal to the thickness of the walls (1 to 3) of the cell (4). Z. The method according to claim 1, characterized in that after the shaping of each side wall (3) of the cell (4), the two corresponding angle irons (20) are supported with the aid of cross-members (26) which support against this side of the fixed plates ('2β) serve. f 3. The method according to claim 1 or 2, wherein the rotatable production mold is a horizontally movable, to the axis of rotation the EerStellungsform has parallel 3odes, thereby marked that the reinforcement (19), which is used to reinforce the concrete walls (1 to 3) of the cell, outside the Eerstellungsform on a movable Frame gauge (17) is assembled, which is also suitable for receiving the four angle irons (20), and that the so equipped teaching then placed on the movable base of the manufacturing mold and inside this mold is used. - 16 209813/0950 - 16 - '5.5.1971 Z P 5897 4 = method according to claim 3, characterized in that the angle irons (20) carried by the jig (17) are fastened directly to the walls of the four angles of the production mold, after which the teaching is removed from the production mold. 5, A method according to claim 4, characterized gekennzeichne t _s that the ready-formed cell is applied to the "movable both from the production mold after die'Winkeleisen in a simple manner -. {20) detached from the walls (10 · to 12) of the production mold became. Apparatus for carrying out the method according to any one of claims 1 to 5 _9, characterized in that it has a rotatable production mold with a movable base (10), which means for fastening an angle iron (20) in each of the four walls (10 to 12) ) formed, inner angles that at least one movable frame jig (17) is provided, which for the temporary inclusion of the reinforcement (19) of the cell (4) and the four angle irons, the traverses ■ (28) for bracing the angle irons two to two inside the manufacturing mold and the fixed plates (26) which, when placed against the inner sides of the cell. can be supported by the crossbars (28). 7. Apparatus according to claim 6, characterized in that the means for fastening the angle iron (20) are formed by screws (23) which cooperate with nuts (22) welded to the walls (10 to 12) of the manufacturing mold, each screw a conical Büclise (24) penetrates ₅ which forms a strut and which is welded to the associated angle iron (20) » - 17 - 5.5.1971 Z P 5897 8th'. Device according to. Claim 6 or 7 »characterized in that the angle iron (20) with corner stiffeners (25) are provided, which the fastening of the ends of the support crossbars (28) by means of a simple Allow bolts (29). 209813/0950 Blank