DE824106C - In the longitudinal direction assembled continuous beam, preferably made of wood - Google Patents

Description

Continuous beam assembled in the longitudinal direction, preferably made of Wood The invention relates to composite beams, preferably made of wood, which rest on three or more supports, and aims to provide more secure calculation bases to create than they are given with the continuous carriers used so far and to save on material through better material utilization. In the case of wooden beams it is also important that according to the invention it is possible with shorter beam lengths manage than before. This is important because the price per meter is shorter Bar is less than with long.

The invention consists in that the intermediate support surfaces of the Beam whose cross-section is reinforced in the area of the intermediate supports, for example is doubled, lie lower than the end support surfaces when the beam is in a de-energized state, the difference in height between the contact surfaces in the de-energized state is useful is dimensioned so that the carrier the extended position under its own weight with or achieved without additional burden.

The reinforcement of the cross-section above the intermediate supports can be in can be achieved in various ways, e.g. B. in that the ends of the items of the girder in the area of the intermediate supports or that the ends of the individual girders, which are butted at the front in the area of the intermediate supports, by lateral connecting parts are connected to each other, the overall diameter of which is greater than the diameter of the beam, expediently twice as large as this.

In special cases where this side and the other side of the intermediate support different load conditions are available, it is also possible to design the support parts on this side and on the other side of the support differently, which then also offers these adapted options for reinforcing the cross-section of the girder above the intermediate support.

A particular advantage of the carrier according to the invention is that that the items are de-energized per se and only during the installation Obtain the desired preload. This is expediently done in such a way that the de-energized Individual parts of the girder are placed on partially temporarily raised end supports and in this position are connected to one another in a rigid manner, whereupon the support elevation is eliminated, so that the total support when the extended position is reached under effect its dead load and, if necessary, an additional load. the the resulting prestress over the intermediate supports can be reinforced by the Cross-section can be fully recorded. This makes it possible to use the Adapt the torque curve and thus the load to the existing cross-sections.

While with normal continuous beams the supporting moments in general are hardly controllable, as it is seldom possible to adjust the support heights to regulate so precisely that the requirements made in the invoice are met are, this uncertainty does not apply to the subject matter of the invention.

Due to the fixed connection of the individual beams, the cross-section is adapted to the torque curve. For example, in the case of a beam on three supports with the same field widths and uniform loading, the field moments are 9: 128 q12 and the supporting moment 16: 128 q12. With the same cross-section of the normal beams, if the greatest stress in the field is denoted by i, the stress across the central support is 8 / e. Since the one-sided effective load and thus the deflection are decisive for the beam design, especially with larger spans, the existing cross-section above the central support is almost never fully used. The increase in the column torque up to the limit of the permissible load-bearing capacity due to the prestressing reduces the field moments and thus, above all, the deflection considerably.

When using wooden beams, the connection can be made with nails, Steel pins, bolts or by gluing. Anyway, that's on Particular importance should be attached to the formation of the rigid joint.

Of course, it is also possible to apply the invention to bars apply four or more supports, then making appropriate connections respectively are to be provided above the intermediate supports.

The drawing explains the concept of the invention, namely, Fig. i to 6 are schematic representations, while FIGS. 7 to 12 are particularly suitable means represent the connection of the individual parts of wooden beams. In Fig. I are the two End supports with i and 2 and the: middle support with 3. The one over these supports Continuous bar is composed of the two individual parts 4 and 5. the When laying the individual parts, support 2 is .4 and provisionally by size 2 f increased so that the end bearing surface of the item; in the de-energized state is higher than the intermediate support surface above support 3. The two individual parts 4 and 5 are rigidly connected to one another in the position shown. To Continuation of the provisional elevation of support 2 receives beam .4, 5 over the intermediate support 3 the desired preload. If the dead weight of the part 5 is not sufficient for this, it will be charged additionally.

Fig. 2 shows a different type of laying of the de-energized items 4 and 5, in this case the supports i and 2 are provisional by the amount f increased so that both end support surfaces of the items 4 and 5 are higher than the contact surface above the intermediate supports 3. After the bending stiffness has been produced Connection in the area of the intermediate support 3 (Fig. 3), will increase the two End supports i and 2 removed, so that the overall beam 4. 5 after reaching the extended position (Fig., 4) has the same bias in the area of the intermediate support 3 as in the embodiment according to FIG. 2.

Fig. 5 shows the course of the tension torque after it has been reached the extended position of the beam, while Fig. 6 shows the bending line of the pretensioned unloaded Carrier illustrated.

7 and 8 show a side view and a plan view the ends of the two items 4 and 5 of a wooden beam, for example through Nails are connected to one another at the points indicated by crosses 6. To the The angle between the two individual parts, 5 form with each other, shown somewhat enlarged. The enlargement of the cross section of the entire beam is therefore carried out on the length designated by e. The distance of the Nails between each other is e / 8.

FIGS. 9 and 10 show an exemplary embodiment of the subject matter of the invention, in which two items 7 and 8 of the carrier are met at 9 on the end face. she are connected to one another by two lateral straps io, their overall cross-section is larger than the cross section of the individual parts 7 and 8, respectively. In the present case is the total cross-section of the two tabs is twice as large as that of each individual part 7 or B.

In the embodiment according to FIGS. I I and 12, one side of the carrier is formed by individual parts ii, while the other side of the carrier consists of two parallel bars 12, the overall cross-section of which is the same as the cross-section of the individual part i i. In the area of the support 3, the individual parts ii and 12 overlap, so that the total cross-section of the continuous beam above the intermediate support 3 is doubled. In all of the exemplary embodiments, the bars can also be connected to one another by gluing. It is possible to provide a connection using nails, steel pins, bolts and the like as well as glueing at the same time. It can be useful to proceed in such a way that the beams are first coated with glue in a tension-free position, nailed to them and then immediately fully or partially pretensioned.

Claims (4)

PATENT CLAIMS: i. 1) continuous beam assembled in the longitudinal direction, preferably made of wood, characterized in that at least one end support surface of the carrier (4, 5), the cross section of which in order to achieve a greater section modulus Reinforced in the area of the intermediate support (3) or the intermediate supports, for example is doubled, in the de-energized state of the carrier is higher than the intermediate support surface or the intermediate support surfaces, the difference in height between the support surfaces in de-energized state is expediently dimensioned so that the carrier is in the extended position reached under its own weight with or without additional load. 2nd carrier according to claim i, characterized in that the individual parts (4, 5 or i i, 12) of the beam overlap in the area of the intermediate support (3) or the intermediate supports. 3. Carrier according to claim i, characterized in that the carrier parts (7, 8) in the Area of the intermediate support (3) or the intermediate supports butted on the front side and are connected by side straps (i0), the total cross-section of which is greater than the carrier cross-section, appropriately twice as large as this. 4. Carrier according to -Anspruch i, characterized in that- an individual part between two supports (2, 3) consists of two parallel supports (i2), preferably of small cross-section, between which the adjacent individual part (ii) in the area of the intermediate support ( 3) is inserted for connection. . Carrier made of wood according to one of claims 2 to 4, characterized in that the overlapping ends of the individual parts (4, 5 or 1 1, 12) of the carrier or the butting ends of the individual parts (7, 8) and the Connecting lugs (io) by nails (6), steel pins, bolts or other connecting means, such as e.g. B. glue, are directly connected to each other. 6. A method for producing supports according to any one of claims i to 5, characterized in that the stress-free individual parts (4, 5) of the support are placed on partially provisionally raised supports (2 or i and 2) and connected to one another in a rigid manner in this position whereupon the increase in support is eliminated so that the entire girder is pretensioned when the extended position is reached under the effect of the dead weight and, if necessary, additional load.