DE2431424A1 - Open-sided reinforced-concrete garage or room cell - on prefabricated hardened base with abutments for connecting-anchors - Google Patents

Abstract

The spatial cell unit, of reinforced concrete, which is open on one side, comprises a reinforced concrete body composed of walls and ceiling, with connecting anchors fitted on the narrow sides of the walls opposite the ceiling. There is a prefabricated hard-set floor or base with abutments allotted to the anchors, which are fixed to the abutments when the unit is set on the base, by welding, screwing or concreting in. The anchors and abutments are pref. formed from metal plates, which partially make up the surface of the narrow sides of the walls, or of the floor respectively. Additional formwork for the floor is not required.

Description

"Method for producing a reinforced concrete room cell open on one side and a kit for implementing the traverser X "The invention relates to a method for the production of a reinforced concrete room cell open on one side with walls and Reinforced concrete structure forming the ceiling of the cell with connecting anchors attached to the Ceiling opposite narrow sides of the walls are arranged, prefabricated and is placed on a preformed floor, with the connecting anchors on the floor be attached. The invention also relates to a kit for performing the Procedure.

Reinforced concrete cells are used as prefabricated garages and transformer houses or residential units. Their economy is based on the fact that they are in a precast plant produced and with a transport vehicle that has a lifting device, directly can be driven to the installation site and deposited there. Especially with room cells, the are used as prefabricated garages, one set earlier and one sets partially Even today in the precast plant, a reinforced concrete body that covers the walls and forms the ceiling of the prefabricated garage. This reinforced concrete body then becomes the installation site transported on which a foundation or a base plate has been concreted, on which the reinforced concrete body is deposited. However, this has the disadvantage that Concreting work still has to be carried out at the installation site.

That is why they have recently switched to this in the precast plant to produce monolithic room cells with a floor. These room cells can be used in the Prefabricated plant completed and fully equipped so that at the installation site no more work is required before or after removing the cubicle. For the production of the monolithic room cells, however, could be used for the production the formwork used for reinforced concrete is no longer used.

To this formwork, which is permanently installed in the precast plant, the considerable Capital investments required to continue to use it has already been proposed in order to produce reinforced concrete bodies that are located on the opposite sides of the ceiling Narrow sides of the walls have connecting anchors, and these reinforced concrete bodies on to put on a preformed and still soft plastic base plate so that the Countersink the connecting anchor into the still soft plastic concrete of the floor slab (cf. D1-AS 1 809 237). This known method can be used to create reinforced concrete room cells manufacture with soil, if attention is paid to the fact that the connecting anchor are embedded sufficiently firmly in the concrete of the floor slab. However, can Carry out this procedure only if on the premises of the precast plant there is enough space for the arrangement of a formwork for the base plate. As the formwork for the reinforced concrete body and the formwork for the floor slab about need the same space, the space required to produce one doubles Room cell with floor.

It is also known to have the reinforced concrete body and the floor slab independently to manufacture from each other, to transport them together to the installation site and there to discontinue one after the other. (cf. DT-OS 1 684 766). Here, however, correspond the dimensions of the floor slab those of the interior of the reinforced concrete body and a connection between the reinforced concrete body and the floor slab is only possible if that the joint between the two is concreted. However, this results unfavorable stress conditions in the concrete of the joint, mainly due to shear is charged. However, concrete is very sensitive to shear stresses. Therefore must the bottom plate must be relatively thick, so that the shear stresses over better distribute the thickness of the joint. In this production method, however, is omitted the additional formwork effort for the floor slab, which is in a precast plant mostly already existing plant for the production of large panels made of concrete will.

The invention aims to and does not want to avoid these disadvantages under Further use of the formwork for the reinforced concrete body and without additional formwork effort Create room cells with a floor that transports like monolithic room cells and can be set up.

The solution to this problem is that a prefabricated, hardened Soil is used with the abutments associated with the connecting anchors and that, after the body has been placed on the ground, attach the connecting anchors to the Abutments are attached.

This avoids the disadvantages explained at the beginning, because additional formwork for the floor is not required and the joining Reinforced concrete body and floor can be placed anywhere, e.g. B.

take place in a place where the room cell is until it is removed is provided.

The attachment of the connecting anchors to the abutments can be done by Welding or screwing.

There is also the possibility of the connecting anchor in the abutment to be set in concrete. The fastening is sufficient to withstand the loads that occur when opening and closing Unloading of the space cell onto the transport vehicle and occurring during the transport, to record. The reinforced concrete body rests in the room cell parked at the installation site with the narrow sides of its walls on the floor.

The invention also provides a kit for implementing the Procedure in which the connecting anchors in the walls and the abutments in the Concrete in the ground and, if necessary, with the reinforcement of the walls or

of the ground are connected.

An embodiment of the invention is characterized in that the connecting anchors and the abutments consist of metal plates, at least partially the surface of the narrow sides of the walls or the surface of the floor form. The metal plates of the connecting anchors and the abutments are joined together welded after the reinforced concrete body has been placed on the ground.

Shall the metal plates from the interior of the space cell formed are welded, then an arrangement is recommended in which the metal plates complete the connection anchor with the inside of the respective wall and at of the metal plates of the abutments are arranged so that they are from the inside the planes formed by the walls penetrate.

In another embodiment, the connecting anchors consist of Screw bolts that are held in concreted threaded sleeves and with their Screw heads against abutments are screwed into the underside of the floor are set in concrete. The screws can be tightened with such high torques be that the floor is braced against the reinforced concrete body.

Should the reinforced concrete body be connected to the ground by concreting then the connection anchors can consist of screw bolts that are embedded in concrete Threaded sleeves are held and their screw heads in as Abutment grasp serving recesses in the floor.

After: concreting the recesses and hardening of the concrete the protruding from the threaded sleeve surface of the screw bolt forms a Sufficiently large adhesive surface, which together with the parallel to the plane of the floor arranged surface of the screw head forms a sufficiently strong connection. The screw bolts can be used to enlarge the arranged in the plane of the floor Surfaces outside of the threaded sleeve be angled.

A simpler embodiment is characterized in that the Connecting anchors have at least one splayed end that is used as an abutment serving recess of the bottom summarizes.

The connecting anchors can also have loops that are in recesses of the bottom, with concentric recesses in opposite side walls Holes for the loops to be introduced into the ground from the outside Anchor bolts are provided.

In all those cases where the connecting anchors are in the abutment should be set in concrete, the recesses should converge towards the top of the floor Have side walls which are at least partially provided with reinforcements. Through this the tensile forces introduced into the ground by the connecting anchors are used as compressive forces introduced into the ground via the side walls of the recesses, the reinforcements prevent the side walls from being pushed apart.

In the following the invention is based on a drawing, in the embodiments are illustrated, explained in more detail; They show: FIG. 1 the top view a prefabricated garage cut in a horizontal plane, FIG. 2 a section in the direction II-II through the object according to FIG. 1, FIG. 3, another embodiment of the object according to FIG. 2, FIG. 4 shows a further embodiment of the object According to Fig. 2, Fig. 5, a further embodiment of the object according to Fig. 2, Fig. 6 shows another embodiment of the object according to FIG. 2, FIG. 7 another Embodiment of the object according to FIG. 2, FIG. 8 shows a further embodiment of the object according to FIG. 2, FIG. 9 is a section. in the direction IX-IX thereby the Item according to FIG. 8.

The prefabricated garage shown in Fig. 1 has two side walls 1, 2, an end wall 3 and a ceiling, not shown. The side walls 1, 2, the Front wall 3 and the ceiling form a monolithic reinforced concrete body in one Precast part has been manufactured in the factory.

In the lower narrow sides 4 of the side walls 1, 2 and the end wall 3 connecting anchors are concreted in, which are attached to abutments of a floor 5 will.

In the embodiment shown in the figure, each of the side walls 1, 2 a total of three connection anchors and one on the end wall 3 Connection anchor provided. The position of the connecting anchor is shown in FIG. 1 Circles 6 indicated.

The floor 5 is also prefabricated in the precast plant. He will after the concrete has hardened with the reinforced concrete body, this results in a one-sided open Prefabricated garage connected that the reinforced concrete body is placed on the floor 5, whereupon the connecting anchors are attached to the abutments.

The prefabricated garage can then be transported like a monolithic prefabricated garage and be parked at the installation site.

The connecting anchors in the side walls 1, 2 exist in the in Fig. 2 illustrated embodiment of steel plates 7, which in the surface the narrow sides 4 are concreted in. On the concreted back 8 of the steel plates 7, an anchor plate 9 is welded in place, which, with splayed ends 10, 11, is inserted into the side walls 1, 2 or the end wall 3 is set in concrete. The steel plate 7 is arranged so that its narrow side 12 with the forming the inside of the room cell Surface 13 of the side walls 1, 2 or the end wall 3 closes off.

The abutment also consists of a steel plate 14, at which Back 15 an anchor plate 16 is welded with spread ends 17, 18, which is concreted in the ground 5. The surface of the steel plate 14 closes with the surface of the bottom 5. The steel plate 14 is arranged so that they partly below the narrow side 4 of one of the side walls 1, 2 or the end wall 3 and partly next to the surface 13 of these walls forming the inside. Through this can after the erection of the reinforced concrete body on the floor 5 the steel plates 7, 14 with each other by a weld 19 between the narrow side 12 of the steel plate 7 and the surface of the steel plate 14 are connected.

A similar embodiment is shown in FIG.

The steel plates 7, 14 form the legs of angle irons 20, 21, the other legs 22, 2, these side walls 1, 2 or the end wall 3 and the Floor 5 are set in concrete.

The legs 22, 23 have recesses 24 with which they are attached to anchoring irons 25 of the reinforcement of the walls or

of the soil are kept.

In the embodiment shown in FIG. 4, reinforced concrete bodies are used and bottom 5 screwed together.

For this purpose, threaded sleeves 26 are concreted into the walls of the reinforced concrete body, into which screw bolts 27 can be screwed.

The abutment of the floor 5 is concreted in by a Washer 28 formed, which terminates with the underside 29 of the bottom and which has a recess 30 surrounds, which penetrates the base plate 5 and receives the screw bolt 27. The recess 30 is of an anchor iron 31, which with the reinforcement of the soil 5 can be connected, surrounded to breaking out the side walls of the recess to prevent. After placing the reinforced concrete body on the floor 5, the Screw bolts from the underside 29 of the bottom 5 through the recess 30 into the Threaded sleeve 26 screwed in and tightened.

If necessary, reinforced concrete bodies and they can be braced against one another will.

In Figs. 5-9 embodiments are shown in which the Connection anchors are concreted in the abutment of the base plate 5. The abutments the base plate are formed by recess 30, the Ce Werwalls. 32 uy..ObBrseite..33 des. Boden 5 ki.n hi.k.Qnvergiere.n.

The recesses 30 of the exemplary embodiments shown in FIGS. 5-7 have a circular cross-section, the recess 30 in FIGS. 8 and 9 has a rectangular cross-section. U-shaped anchor iron 31 connected to the reinforcement of the bottom 5 are connected, comprise the recess 30 and support in particular the side walls 32 on the side of the recess 30 located at the edge of the base 5. The opening 34 formed by the recess 30 on the upper side 33 of the base 5 is so large that it is only partially covered by the width of the walls 1, 2 or 3 is. This makes it possible to concret the recess 30 when the reinforced concrete body has been placed on the floor 5.

In the exemplary embodiment shown in FIG. 5, the connecting anchor is used a screw bolt 27 which is screwed into a threaded sleeve 26 embedded in concrete. The part of the screw bolt 27 protruding from the threaded sleeve 26 is angled, so that the surface with which the screw bolt 27 is under tensile load between Reinforced concrete body and floor 5 on the concrete core located in the recess 30 can support is enlarged. In the case of such tensile loads, the on the screw bolt 27 acting tensile force as a compressive force in the concreting of the Recess 30 and also as a pressing force over the converging side walls 32 introduced into the bottom 5. The anchor iron 31 prevent the side walls 32 of the recess 30 are pushed apart.

A connecting anchor that goes directly into the side walls: 1, 2 and. the gutter wall 3 is set in concrete: Fig. 6 shows.

It is a ribbed tie rod 35, 1 of which in Ribs 36 running in the circumferential direction ensure the necessary adhesion of the anchor rod 35 ensure in concrete.

Another very simple connection anchor is shown in FIG. This consists of an expansion anchor 37, the tabs spread apart at both ends 38 owns.

The connecting anchor shown in Figures 8 and 9 is made from a U-shaped bent anchor iron 39, both ends 40, 41 of which in the side walls 1, 2 or

the front wall 3 are set in concrete. The U-bend 42 protrudes over the narrow side 12 and engages in recess 30 a. He forms a loop through which an anchor bolt 43 engages, which prior to concreting the recess 30 in concentric bores 44, 45 provided for this purpose in the side walls 32 of the recess 30 is driven.

Claims

Claims (13)

Claims 1. A method for producing a one-sided open Reinforced concrete room cell in which a reinforced concrete body forming the walls and ceiling of the cell with connecting anchors on the narrow sides of the Walls are arranged, pre-fabricated and placed on a pre-formed floor, where the connecting anchors are attached to the ground, d u r c h e k e n n n shows that a prefabricated, hardened floor with the connecting anchors associated abutments is used and since after the body hits the ground has been provided, the connecting anchors are attached to the abutments. 2. The method according to claim 1, d a d u r c h g e k e rmz e i c h n e t that the connecting anchors are welded to the abutments. 30 The method according to claim 1, d u r c h g e n ns e i c h n e t that the connecting anchors are screwed against the abutments. 4o method according to claim 1, d u r c h g e k e n n -s e i zuc n e t that the connecting anchors are concreted into the abutments 5. kit for carrying out the method according to one of claims 1-4, d a d u r c h g e k e n n -z e i n e t that the connection anchors into the walls (1, 2, 3) and the abutments in the ground (5) concreted and possibly are connected to the reinforcement of the walls (1, 2, 3) or the floor (5). 6. Kit according to claim 5, d a d u r c h g e -k e n n z e i c h n e t that the connecting anchors and the abutments consist of metal plates (7, 14), at least partially the surface of the narrow sides (12) of the walls (1, 2, 3) or form the surface of the bottom (5). 7. Kit according to claim 6, d a d u r c h g e -k e n n z e i n e t that the metal plates (7) of the connecting anchor rit the inside of the respective Complete the wall and that the Yetall plates (14) of the abutments are arranged in such a way that that they penetrate planes formed by the inner sides of the walls (1, 2, 3). 8. Kit according to claim 5, d a d u r ch g e -k e n n z e i c h n e t that the connecting anchors consist of screw bolts (27) which are embedded in concrete Threaded sleeves (26) are held and with internal screw heads against abutment (28) can be screwed, which are embedded in concrete in the underside (29) of the floor (5). 9. Kit according to claim 5, d a d u x c h g e -k e n n z e i c h n e t that the connecting anchors consist of screw bolts (27) which are embedded in concrete Threaded sleeves (26) are held, and their screw bolt heads in as an abutment grasp serving recesses (30) of the bottom (5). 10. Kit according to claim 9, d a d u r c h g e -k e n n z e i c h n e t that the screw bolts (27) angled outside the threaded sleeve (26) are, 11. Kit according to claim 5, d a d u r c h g e -k e n n z e i c h n e t, that the connecting anchor have at least one splayed end (38), which in a recess (30) in the base (5) serving as an abutment holds. 12. Kit according to claim 5, d a d u r c h g e -k e n n z e i c h n e t that the connecting anchors have loops (42) which are inserted into recesses (30) of the bottom (5) grasp, and that in opposite side walls (32) of the recesses (30) concentric bores (44, 45) to be made in the ground (5) far from the eyes, anchor bolts (43) extending through the loops (42) are provided. 13. Kit according to one of claims 9-12, d a d u r c h g e k e n n z e i h n e t that the recesses (30) to the top (33) of the bottom (5) have converging side walls (32), at least partially with reinforcements (31) are provided.