AT502959B1 - Concrete barrier ELEMENT - Google Patents

Description

2 AT 502 959 B1

The invention relates to a Betonleitwand element with at least one tension member for frontal connection with another Betonleitwand element, wherein - seen in the operating position -an at least one of the end faces at least one vertical guide groove is provided for a damping element and the guide lateral restraints for the lateral Begren Has -5-surfaces of the damping element.

DE 103 11 590 A1 describes a roadway limiting device consisting essentially of the same concrete parts, on whose end faces connecting elements are provided, which engage with each other. 10

EP 715 026 A1 describes a roadway boundary constructed from individual elements, the elements of which are provided with connecting elements on their end faces. In this case, the end faces have corresponding obliquely inclined sections, in the region of which deformable parts are arranged. 15

DE 198 31 268 C1 describes a concrete sliding wall which is formed from elements arranged in a row, which have obliquely extending end faces to their longitudinal extension and are arranged in a scale-like manner. Known such Betonleitwand elements have the front side a receptacle for a connecting element for connection to a neighboring Betonleitwand element. The disadvantage here is that joints can form between the Betonleitwand elements in a collision of a vehicle to the Betonleitwand, with a sliding along a concrete Leitwand element vehicle can strike the front of the adjacent Betonleitwand-25 element substantially frontally. The formation of a joint by the concrete guide wall elements thus represents a high security risk.

The object of the invention is to provide a Betonleitwand element in which the known disadvantages are avoided, with the formation of a joint can be effectively avoided 30, which is particularly simple, which has a high level of security.

According to the invention this is achieved in that the guide groove is formed for feeding the damping element from above. 35 This results in the advantage that the damping element introduced particularly quickly and easily and a bias of the tension member can be achieved easily and quickly. In a check the presence of the damping element and thus the bias of the tension member can be checked quickly and easily. Falling out of the damping element is effectively avoided by the leadership. The damping element 40 can be used in conjunction with a clamping screw for supporting on the adjacent concrete guide wall element, wherein the clamping screw can be arranged on a front side of the concrete guide wall element. In this case, an additional bias of the tension member can be achieved by changing the region of the screw which protrudes from the concrete Leitwand element. 45

In a continuation of the invention can be provided that the guide groove is arranged in the lower region of the end face, wherein the formation of a bias of the tension member is provided by means of the damping element, whereby additional clamping elements for tensioning the tension member need not be provided. 50

According to a further embodiment of the invention can be provided that - in the direction away from the top - the guide groove is at least partially formed with a decreasing depth, wherein the guide groove is at least partially wedge-shaped. With a wedge-shaped guide groove, it can be ensured that the damping element, if appropriate, constantly slips in the event of deformation of the concrete guide wall element itself in order to completely fill the joint.

In a further embodiment of the invention can be provided that above the guide groove, a lateral feed opening is provided. By means of the lateral feed opening, the 5 damping element can be particularly easily and quickly brought into the guide groove.

According to a further embodiment of the invention can be provided that two laterally spaced guide grooves are provided, whereby a high stability against lateral tilting of the concrete guide wall elements can be ensured and curves io a balance of the different distance of Betonleitwand elements in the side spaced guide grooves can be easily achieved by means of the damping elements.

The invention further relates to a concrete baffle with Betonleitwand elements, each 15 two of Betonleitwand elements with formation of a joint are connected end face by means of at least one tension member, wherein - seen in operating position - at least one of the end faces of Betonleitwand elements at least one vertical guide is provided for a damping element and the guide has lateral boundaries for the lateral boundary surfaces of the damping element. 20

Known such concrete baffles are formed from the above known as known concrete guide wall elements and have their disadvantages.

The object of the invention is to provide a Betonleitwand in which the known disadvantages 25 are avoided, in which the formation of a joint can be effectively avoided, which is particularly simple and which has a high level of security.

According to the invention this is achieved in that the guide groove is formed for feeding the damping element from above, wherein the damping element 30 is preferably designed as a wedge element.

This results in the advantage that the damping element introduced particularly quickly and easily and a bias of the tension member can be achieved easily and quickly. In a tour, the presence of the damping element can be quickly and easily checked 35, and falling out of the damping element can be effectively avoided by the guide.

In a further development of the invention can be provided that - in the direction away from the top - the guide groove is at least partially formed with a decreasing depth, wherein the guide groove 40 is at least partially wedge-shaped. As a result, it can be ensured that the damping element, if appropriate, automatically slips when the concrete guide wall element is deformed in order to completely fill the gap.

The invention further relates to a method for constructing a concrete wall with Betonleitwand-45 elements, wherein each two of the concrete guide wall elements are connected to form a joint on the face side by means of at least one tension member.

In known methods of this kind, the concrete guide wall elements are connected after erection by means of connecting elements, wherein in particular due to the play of the connecting elements in an impact there is often the risk of the formation of joints.

The object of the invention is to provide a method of the type mentioned above, in which the known disadvantages are avoided, in which simply and quickly sufficient bias of the tension members is reached and in which the presence of the bias voltage 55 can be checked. 4 AT 502 959 B1

According to the invention, this is achieved by connecting the further concrete deflector element by means of the tension member to the existing concrete deflector wall, the further concrete deflector element is raised, and in the lower region of the joint a damping element for prestressing the tension member is arranged 5 and then the further concrete deflector element is lowered, wherein the damping element is compressed and the tension member is biased.

This results in the advantage that the bias can be easily and quickly made, with no additional elements io must be adjusted in addition to the introduction of the damping element. By controlling the deformation of the damping element can be checked in a simple manner, the formation of the bias voltage.

According to a further embodiment of the invention can be provided that the damping element is introduced from above into a vertical guide groove. Thereby, a seitli-15 Ches falling out of the damping element due to temperature fluctuations, vibrations or other stresses of the concrete guide can be avoided.

The invention will be further described with reference to the accompanying drawings, in which embodiments are shown. It shows: 20

Fig. 1 is a side view of a concrete guide according to the invention with two concrete guide wall elements, wherein one of the concrete guide wall elements is raised on one side;

FIG. 2 shows a side view of the concrete guide wall according to FIG. 1 with lowered concrete guide wall element; FIG. 25 is a plan view of the joint of the concrete guide wall according to FIG. 2; FIG.

4 shows an end view of a concrete guide wall element with lateral damping elements;

5 shows a plan view of the joint of a concrete guide wall with concrete guide wall elements according to FIG. 4, in section; FIG.

Fig. 6 is an end view of a further concrete guide wall element with lateral Dämpfungsele-30 elements;

7 shows an end view of a concrete guide wall element according to the invention with damping elements;

8 and 9 is a plan view of the joint of a concrete guide wall with Betonleitwand elements of Figure 7, in section. and FIGS. 10 to 12 are side views of the joint of a concrete guide wall with concrete guide wall elements according to FIG. 7 with joints of different widths.

In FIGS. 1 to 3, a concrete guide wall with concrete guide wall elements 11, 12 is shown, wherein two of the concrete guide wall elements 11,12 are connected to form a joint on the face side by means of 40 at least one tension member 3. Buckling of the Betonleitwand in a collision of a vehicle can be avoided if the tension member 3 has a bias.

1 and 2, a method is shown in which a bias of the tension member 3 45 can be achieved easily and quickly. In the cultivation of another Betonleitwand element 12 to the Betonleitwand the further Betonleitwand element 12 is coupled by means of the tension member 3 to the existing concrete baffle and raised the further Betonleitwand element 12. In this case, the further Betonleitwand element 12 is tilted about the connection of the tension member 3, as shown in Fig. 1 can be seen. In the lower region of the joint 5 so a damping element 4 is arranged for biasing the tension member 3. Subsequently, the further Betonleitwand element 12 is lowered, wherein the damping element 4 is compressed and the tension member 3 is biased. In the context of the invention, the further Betonleitwand element 12 can be brought in the inclined position to the concrete guide wall. Furthermore, the damping element 4 can already be arranged before the introduction of the further concrete guide wall element 55 12 to the concrete guide wall in the lower region of the joint 5. These modifications do not affect the nature of the process and are therefore also to be regarded as realizing the process according to the invention. In this case, the bias of the tension member 3 is achieved by means of weight bias of the further Betonleitwand element 12 and the damping element 4. The damping element 4 also prevents buckling of Betonleit-5 wall and the formation of a joint in the region of the joint 5 in an impact.

In the case of concrete deflector elements, damping elements 4 can be brought laterally into the joint after forming the concrete deflecting wall and optionally clamped against each other by means of a connecting link 45. Such Betonleitwand elements are shown in Figs. 4, 5 and io 6.

In Fig. 7, the end face 21 of a Betonleitwand element 11, 12 is shown, which - seen in the operating position - at least one vertical guide groove 22 on the end face 21, wherein the guide groove 22 has lateral boundaries 23 for the damping element 4 15 and the guide groove 22 is formed for a supply of the damping element 4 from above. The lateral boundaries 23 prevent the damping element 4 from falling out laterally during operation. In particular, a release of the damping element from the concrete guide wall by vibrations and / or air suction is avoided. The guide groove 22 is preferably arranged in the lower region of the end face 21 of the concrete guide wall element 11, 12, wherein the formation of a prestressing of the tension member 3 by means of the damping element 4 is provided. The bias voltage is preferably produced by the method described above. In other embodiments, it may also be provided that the damping element 4 expands in the joint 5, whereby a chip-25 tion in the joint 5 is generated and the bias of the tension member is effected.

Above the guide groove 22, a lateral feed opening 24 may be provided, whereby a lateral feeding of the damping element 4 is made possible. In Fig. 7, a plurality of positions when supplying the damping element 4 are shown on the right side. 30

A good security against unintentional rotation of the concrete guide wall elements 11,12 against each other, whereby small displacement paths can be ensured in an impact is achieved when at least two laterally spaced guide grooves 22 are provided. The damping elements 4 are provided both for the security against rotation as well as for the achievement of a bias.

The guide groove 22 may be formed, at least in regions, with a decreasing depth, in the direction away from the upper side, wherein the wedge element 4 is preferably formed substantially opposite to one another. As a result, different distances of the joint 5 with 40 a damping element 4 can be compensated. In particular, when enlarging the joint 5 due to temperature fluctuations od. Like., This change can be compensated for by the fact that the damping element 4 optionally slips and so completely fills the distance between the adjacent Betonleitwand elements 11,12. In FIGS. 10 to 12, three positions of the damping element 4 are shown with a different thickness of the joint 5. In this case, the guide groove 22 is at least partially wedge-shaped, wherein the damping element 4 is formed as a wedge element. In this way, different thicknesses of the joint 5 can be easily compensated for a curved concrete guide, with only one size of the damping elements 4 are required.

In FIGS. 8 and 9, a plan view of the joint 5 of a concrete guide wall with concrete guide wall elements 11, 12 is shown in section, wherein the concrete guide wall elements 11, 12 in Fig. 8 along a straight line and in Fig. 9 along a Curvature are arranged. In FIG. 9 55 it can be seen that the joint 5 has a width across the width of the concrete guide wall elements 11, 12.

Claims (9)

6 AT 502 959 B1 has different thickness. This can be compensated in particular by wedge-shaped damping elements 4 and wedge-shaped guide groove 22, as described above, or by the use of different damping elements 4. 5 concrete guide walls can be constructed with the concrete guide wall elements 11, 12, wherein the damping element 4 is introduced from above into the vertical guide groove 22. The concrete guide wall then has the characteristics of the concrete guide wall elements 11,12. Further embodiments according to the invention have only a part of the described features, wherein each feature combination, in particular also of various described embodiments, can be provided. 1. concrete guide wall element (11, 12) with at least one tension member (3) for frontal connection with another concrete guide wall element (12), wherein - seen in operating position -an at least one of the end faces (21) at least one vertical Guide groove (22) for a damping element (4) is provided and the guide groove (22) has lateral boundaries 20 (23) for the lateral boundary surfaces of the damping element (4), characterized in that the guide groove (22) for a supply of the damping element ( 4) is formed from above. 2. concrete guide wall element according to claim 1, characterized in that the guide groove 25 (22) in the lower region of the end face (21) is arranged, wherein the formation of a tension of the tension member (3) by means of the damping element (4) is provided: 3. concrete guide wall element according to claim 1 or 2, characterized in that - in the direction away from the top - the guide groove (22) is at least partially formed with a decreasing depth, wherein the guide groove (22) in particular at least be rich is wedge-shaped. 4. Betonleitwand element according to one of claims 1 to 3, characterized in that above the guide groove (22) has a lateral feed opening (24) is provided. 35 5. Betonleitwand element according to one of claims 1 to 3, characterized in that two laterally spaced guide grooves (22) are provided. 6. Concrete guide with Betonleitwand elements (11, 12), wherein each two of Betonleit-40 wall elements (11, 12) to form a joint (5) the front side by means of at least one tension member (3) are connected, wherein - in operating position at least one vertical guide groove (22) for a damping element (4) is provided on at least one of the end faces (21) of the concrete guide wall elements (11, 12) and the guide groove (22) has lateral boundaries (23) for the lateral boundary surfaces of the guide rail Damping element 45 (4), characterized in that the guide groove (22) for feeding the damping element (4) is formed from above, wherein the damping element (4) is preferably designed as a wedge element. 7. Concrete guide wall according to claim 6, characterized in that - in the direction of the top side away - the guide groove (22) is formed at least partially with a decreasing depth, wherein the guide groove (22) is in particular at least partially wedge-shaped. 8. Method for constructing a concrete guide wall with concrete guide wall elements (11, 12), wherein 55 each two of the concrete guide wall elements (11, 12) to form a joint (5) end vorg by at least one tension member (7). 3) are connected, characterized in that when connecting a further Betonleitwand element (12) the further Betonleitwand element (12) is coupled by means of the tension member (3) to the existing concrete baffle, the further Betonleitwand element (12) raised is, in the lower part of the Fu-5 GE (5) a damping element (4) for biasing the tension member (3) is arranged and then the further Betonleitwand element (12) is lowered, wherein the damping element (4) compresses and the tension member (3) is biased. 9. The method according to claim 8, characterized in that the damping element (4) io from above into a vertical guide groove (22) is introduced. For this purpose 2 sheets of drawings 15 20 25 30 35 40 45 50 55