DE3936178A1 - Door with fixed metal frame - has metal embedded in concrete frame which forms integral part of wall - Google Patents

Abstract

The door (1) for a room of a building is hinged to a metal frame (2) which is embedded in a concrete frame. The door (1) is designed to be a close fit in the metal frame (2) so that there are no gaps between the door (1) and the frame (2). The metal frame (2) is embedded in a concrete frame (3). This concrette frame (3) is placed in position and the wall built around it so that the frame becomes an integral part of the wall and forms a stable support for the door without need for any subsequent adjustment. USE/ADVNATAGE - Reduced cost of construction.

Description

The invention relates to a door with a preferably metal frame, on which a door leaf in front is also pivotally receivable.

So far, the frame is retrofitted into one on site seen door opening used. This turns out to be very cumbersome and time-consuming, because first one of a door opening overlapped should be provided in which the frame is then inserted later must become. After setting the frame, this must also still be plastered, being in the case of corner frames also another edge protection for the opposite lying edge of the door opening is required. To do so Objective effort is particularly disadvantageous added that ver for the necessary operations divorced craftsmen are required, what with certainty coordination difficulties, experience has shown that Ver  can cause an increase in construction time.

Based on this, it is the task of the present one Invention to avoid the disadvantages and to enable a rational construction.

This object is achieved in that the frame in a pre-fabricated element Concrete frame is included without gaps.

These measures result in an advantageous manner Frame already containing component that is practically like a large stone already when creating one Wall can be built into the wall structure. Provided this consists of masonry, the invention appropriate concrete frame walled in like a large stone. If it is a concrete wall, he will concrete frame according to the invention simply into the formwork set and poured. In any case after sluggish work to set the frame, as this in the already integrated concrete frame in the wall structure is free. The previously required is also eliminated Plaster the frame, as this with the receiving Concrete frame is flush from the start. Since the frame is not must be plastered in an advantageous manner no edge protection strips etc. required. Yet is due to the high strength of the concrete frame forming material a high level of stability in the area the edges of the concrete that are not encompassed by the frame frame guaranteed. The measures according to the invention therefore advantageously lead to a not unbe  simplification and shortening of the work after building a shell. A very special advantage Part of the measures according to the invention consists in this Connection in addition to avoiding the previous up is also concerned that there are coordination problems between Various craftsmen are no longer required, as they are now practical the entire wall including the egg door frame one hand. In addition, the use of a industrially prefabricated component also a high Accuracy and consistent quality guaranteed. Another advantage of the measures according to the invention is to be seen in the fact that this was already in the creation of the Shell construction according to the invention built into the wall structure Prefabricated component also offers the possibility of one or complete several rooms of the shell, which is often is desired. It is only necessary to do this in the frame that was already present when the shell was built to hang a door leaf. The verbun with the invention accordingly, the advantages are particularly in egg ner high rationalization of construction work at high Quality and accuracy and therefore all in one to see high economy.

Advantageous refinements and practical training The overarching measures are included in the sub claims specified. So the frame can be advantageous be positively connected to the concrete frame. These Measure practically results in a composite component in which the frame has been integrated into the frame from the start is what gives high accuracy and strength and  at the same time excludes any kind of assembly effort.

Another useful measure can be that the frame is cast into the concrete frame. This allows the use of a one-piece frame what also beneficial to the achievable accuracy impact and strength.

In further expedient training of the parent The inner circumference of the concrete frame in the Be rich with the upper web and the lateral thighs one to the preferably formed as a corner frame Frame next to the reveal should be provided. This not only facilitates the demolding of the in a mold to produce concrete frame, but results in the same timely also good accessibility of the invention Door as well as a clean visual appearance.

A further, particularly advantageous measure can be included exist that the concrete frame in the area of its exterior catches a preferably circumferential, groove-shaped connection has deepening. This measure facilitates the In tegration of the concrete frame in the other wall structure. With the help of the provided connection recess practically a positive fit Reach the connection.

The concrete frame can advantageously be used as a circumferential frame be formed, which gives a high degree of rigidity. Such a component can therefore also under ro Transport and assemble busty conditions safely.  

In addition, the lower web of the Serve as a reliable screed connection. The frame cast into the surrounding concrete frame in this case it does not necessarily have to be circular without that this negatively affects strength and accuracy would impact.

The cross section of the concrete frame in the Be rich of its upper bridge and preferably its side thigh stronger than in the area of his lower Be jetty. These measures result in a high degree of shape ability in the areas where the concrete frame is used Installation in the wall structure must absorb higher forces. The lower web, preferably designed as a threshold can be easily adjusted to the screed height be.

Another, particularly preferred measure can consist of the concrete frame being steel reinforcement, preferably in the form of two encircling castings Wrestling. This results in a high breakage and accident safety.

Advantageously, the concrete frame can also preferably have two transport link connecting the upper bridge have elements that preferably with the Steel reinforcement can be connected. These measures enable easy and safe mobility of the Component according to the invention with the aid of a crane or the like, which ensures high ease of installation accomplishes.  

In further training of the overarching measures can be the depth of the concrete frame in the case of a concrete wall the wall thickness and in the case of masonry the wall thickness plus plaster overhang. In any case le the front sides of the concrete frame remain in advantageously unplastered.

Further practical training and advantageous Wei Further training of the overarching measures are in the remaining subclaims specified.

Two embodiments of the Er Finding explained in more detail with reference to the drawing. Here demonstrate:

Fig. 1 is a vertical section through a component according OF INVENTION dung,

Fig. 2 is a horizontal section through the component used in egg ne concrete wall and

Fig. 3 is a horizontal section through the built in egg ne brick wall component.

The door element shown consists, as can be seen in all three FIGS. 1 to 3, of a door leaf 1 which is pivotally received in a manner known per se on a frame 2 formed from accordingly profiled metal rails. This is permanently attached to a door frame opening concrete frame 3 .

The frame 2 containing the concrete frame 3 results in a prefabricated element that can be installed in the wall structure already when creating egg ner and with the help of which therefore the frame 2 can be integrated gap-free into the wall structure already when creating a wall, so that a subsequent setting and cleaning are not required, as can be clearly seen in FIGS . 2 and 3, which show the installed state. In the case of the concrete wall on which FIG. 2 is based, the end faces of the concrete frame 3 are flush with the adjacent wall surfaces, since in such cases no plaster layer is applied. In the case of the brick wall on which FIG. 3 is based, the end flanks of the concrete frame 3 are flush with the plaster surface, that is to say the end walls of the concrete frame 3 are surmounted by the end flanks of the plaster overhang of about 1.5 cm.

The concrete frame 3 is designed here as a four-leg, umlau fender frame, the clear internal dimension of which corresponds to the door passage dimension. In simple cases, it may be sufficient to design the concrete frame 3 as a portal-shaped frame that is open at the bottom. The Anord voltage of a lower web 4 results, however, as Fig. 1 clearly shows, a simple connection possibility for a fin floor screed layer use, which is indicated in Fig. 1 with dash-dotted lines. In addition, this results in a high degree of dimensional stability, which increases transport safety and assembly accuracy.

To form the frame 2 , it is sufficient in simple cases if two frame rails arranged in the region of the side legs of the concrete frame 3 are provided. In the illustrated embodiment, the frame 2 is designed as a three-leg frame, which runs over the lateral leg and the upper web of the concrete frame 3 . Of course, it would also be conceivable to design the Zar ge 2 as a four-legged, closed peripheral frame. Such a design is particularly suitable if the concrete frame 3 is not designed as a closed peripheral frame, as is the case here. The rail sections forming the frame 2 are mitred in the area of the frame corners and welded together.

The concrete frame 3 is produced in a form which is poured with sand concrete and in which the frame 2 or the rail sections forming it are already inserted beforehand. Of course, the frame 2 is fixed in the mold cavity. The sand concrete used for pouring the mold cavity can expediently have a quality between the B25 and B35, which, even in the case of undercuts in the mold cavity, ensures reliable filling and a sufficiently smooth surface of the finished component and a flush, gap-free connection to the frame 2 guaranteed. The frame 2 is provided in the illustrated embodiment with a radially open groove 5 , in which che the concrete frame 3 forming sand concrete engages in the form of a spring, so that there is a positive connection between the frame 2 and concrete frame 3 in the manner of groove and Spring results.

Since the material forming the concrete frame 3 has a high strength, which ensures a long edge service life even without edge protection, the frame 2 can , as in the illustrated exemplary embodiments, be easily configured as a corner frame which merely covers the inner front edge of the door of the concrete frame 3 to reach out. The opposite, inner front edge does not require any edge protection. Of course, it would also be conceivable to provide a frame over the entire depth of the concrete frame 3 for high demands.

The here to the frame formed as a corner frame to the closing area of the inner surfaces of the upper web and the side legs of the concrete frame 3 are inclined outwards in the examples shown, so that there is a reveal, as in Fig. 2 by the inclination angle α is indicated. The upward facing inner surface of the lower web 4 provided here is, as can be seen in FIG. 1, flat, so that a clamp with a horizontal tread surface results. This serves, as already indicated above, as a screed connection and, as can also be seen in FIG. 1, in the area of the frame side of the frame front as a lower door stop. The cross section of the lower web 4 of the concrete frame 3 is smaller in the example shown than the cross section of the upper web and the lateral legs of the concrete frame 3 . The lower web 4 is namely placed on a foundation during installation and is accordingly not subject to any significant stress. In contrast, he can come to the upper web and the side legs of the concrete frame 3 when installing considerable forces that can be reliably added due to the cross-sectional reinforcement NEN. The cross section of the lower web 4 , which is either placed directly, or as here with the interposition of a mortar bed 6 on a foundation, can be easily adapted accordingly to the expected screed height. In contrast, the cross section of the upper web and the side legs of the concrete frame mens 3 can be adapted to the expected load. In the present examples, the upper web and the side legs of the concrete frame have the same cross sections to simplify production.

The outer circumference of the concrete frame 3 is provided with at least one, here circumferential, groove-shaped connecting recess 7 which in the installed state, as can be clearly seen in FIGS . 2 and 3, is filled with the underlying wall structure of the construction material, which is a reliable , positive connection in the manner of tongue and groove guaranteed. In the case of the concrete wall on which FIG. 2 is based, the connecting recess 7 of the concrete frame 3 is filled with wall concrete penetrating into it. In the case of the brick wall on which FIG. 3 is based, the connection recess 7 is filled with the mortar of a mortar bed 8 provided between the concrete frame 3 and the adjacent bricks. The end faces of the concrete frame 3 , as already stated above, are flush with the respectively adjacent wall surface. This is achieved in the case of one of FIG. 2 underlying concrete wall in that the formwork required to create the concrete wall is brought to the front of the concrete frame 3 used in the formwork cavity. In the case of Fig. 3 underlying the brick wall this can be achieved in that the outer plaster layer 9 is streaked by means of an abutting on the end faces of the concrete frame 3 stripping elements at the height of the frame-side end flanks.

To increase the strength of the sand concrete here the quality B25 to B35 existing concrete frame 3 with a steel reinforcement cast in the sand concrete ver see. For this purpose, two circumferential steel rings 10 are provided in the examples shown, which are inserted into the mold cavity to be filled with sand concrete during the manufacture of the concrete frame 3 . The steel rings 10 can be connected to one another by cross struts. In the illustrated embodiment, such a cross strut is dispensed with, since no significant forces are to be expected in the direction of the cross strut. To achieve easy mobility of the concrete frame 3 with the aid of a crane or the like, two eyelets 11 are provided in the area of the lateral legs of the concrete frame 3 , which can be attacked by a hook or the like. The eyelets 11 are formed by accordingly bent steel brackets, the side legs, as can be clearly seen in FIG. 1, engage deeply in the area of the side legs of the concrete frame 3 and, as indicated by a weld seam 12 , with the steel reinforcement 10 can be firmly connected so that there is a high load-bearing capacity. After the concrete frame 3 is brought into the desired mounting position, the eyelets 11 can simply be bent over. In the case of a concrete wall, however, this is not necessary. Rather, a further anchoring of the concrete frame 3 in the adjacent wall is achieved with the aid of the eyelets 11 .

The installation of the concrete frame 3 containing the frame 2 in the course of creating the wall takes place of course without door leaf 1 . This will be added later. For this purpose, in the case of the exemplary embodiments on which the pivoting door leaf is based, a door cone 13 suitable for receiving the door leaf 1 is mounted on the frame 2 already integrated in the concrete frame 3 . For this purpose, the frame 2 integrated in the concrete frame 3 can be provided with locking bolt recesses and threaded bushings 14 arranged at the height of the lock, into which the threaded pins carrying the door cones can be screwed. The threaded bushings 14 can each be arranged in a manner known per se within an assigned housing 15 fastened to a frame rail, which prevents sand concrete from entering the threaded bushings 14 during the production of the concrete frame. These are each accessible via a corresponding recess in the assigned frame rail. To ensure that the door leaf 1 can either be hit to the right or left, threaded bushings are provided in the area of both vertical frame rails. In order to avoid open holes in the frame rails, these holes are only pre-punched in such a way that there are predetermined breaking points on their edge for pressing in the pre-punched tongue. The same naturally also applies to the locking bolt recesses arranged at the height of the lock.

While there are some preferred embodiments above games of the invention specified without, however this is to be associated with a restriction. Much more the expert has a number of options Available to the general idea of the invention appropriate solution to the circumstances of the individual case fit.

Claims (19)

1. Door with a preferably made of metal frame ( 2 ) on which a door leaf ( 1 ) is preferably pivotally receivable, characterized in that the frame ( 2 ) in a prefabricated element made of concrete frame ( 3 ) is accommodated without gaps. 2. Door according to claim 1, characterized in that the frame ( 2 ) with the concrete frame ( 3 ) is positively connected. 3. Door according to claim 2, characterized in that the frame ( 2 ) has an outwardly open groove ( 5 ) into which a spring of the concrete frame ( 3 ) engages. 4. Door according to one of the preceding claims, characterized in that the frame ( 2 ) is poured into the concrete frame ( 3 ). 5. Door according to one of the preceding claims, characterized in that the frame ( 2 ) forms out as a corner frame. 6. Door according to one of the preceding claims, characterized in that the frame ( 2 ) is designed as a portal-shaped frame. 7. Door according to one of the preceding claims, characterized in that the frame ( 2 ) is preferably provided with connecting elements provided in the region of both side legs for connecting the door leaf ( 1 ). 8. Door according to one of the preceding claims, characterized in that the inner circumference of the concrete frame ( 3 ) in the region of the upper web and the lateral legs is provided with a soffit adjoining the frame ( 2 ) which is preferably designed as a corner frame. 9. Door according to one of the preceding claims, characterized in that the concrete frame ( 3 ) in the region of its outer circumference has at least one, preferably around running, groove-shaped connection recess ( 7 ). 10. Door according to one of the preceding claims, characterized in that the concrete frame ( 3 ) is designed as a closed frame encircling sen. 11. Door according to one of the preceding claims, characterized in that the lower web ( 4 ) of the concrete frame mens ( 3 ) is designed as a threshold with a horizontal tread. 12. Door according to one of the preceding claims, characterized in that the cross section of the concrete frame ( 3 ), at least in the region of its upper web, is stronger than in the region of its lower web ( 4 ) designed as a threshold. 13. Door according to one of the preceding claims, characterized in that the cross section of the concrete frame ( 3 ) in the region of the upper web and the lateral legs is the same. 14. Door according to one of the preceding claims, characterized in that the concrete frame ( 3 ) consists of sand concrete, preferably with a quality between B25 and B35. 15. Door according to one of the preceding claims, characterized in that the concrete frame ( 3 ) has a steel reinforcement, preferably in the form of two circumferential cast rings ( 10 ). 16. Door according to one of the preceding claims, characterized in that the concrete frame ( 3 ) has at least one provided in the region of its upper web, preferably in the form of an eyelet ( 11 ), means of transport connecting element. 17. Door according to claim 16, characterized in that two in the region of the side legs of the concrete frame mens ( 3 ) with the steel reinforcement ( 10 ) connected transport means connecting elements ( 11 ) are provided. 18. Door according to one of the preceding claims, characterized in that the depth of the concrete frame ( 3 ) corresponds to the wall thickness of a concrete wall. 19. Door according to one of the preceding claims 1 to 17, characterized in that the depth of the concrete frame mens ( 3 ) corresponds to the wall thickness of a masonry plus plaster overhang.