FI59639C - FOGINLAEGG FOER DILATATIONSFOGAR I KONSTRUKTIONER SOESOM BROAR GATOR OCH DYLIKA - Google Patents

Description

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Jfijl ^ <11) UTLÄCGN I NGSSKRIFT 5 “OO 9 C (4S) Patent granted 10 09 1931 ^ (51) K» .ik.3 / Nit.ci.3 E 01 C 11/10 FINLAND —FINLAND (21) P «* flttir» k * ma. —3037/72 (22) HakMitapUvI - AnaMailngtdag 01.11.72 (23) Alkupilvl — GIMfhatadif 01.11.72 (41) Tullut JulM ** k * l - Bllvlt offwcll | 10. 05.73 ^ tantti- jm register administration NUulvtolp ^ en j. monthLM ^ n p ** .-

Patent · och rcfiitmrttyrmlamn '' amMum * uttagd oeh uti.ikrtftan pubikund 29.05.81 (32) (33) (31) Ρ) 7 * «* Χ« uolk «n — B ** lrd prlorluc 09 · 11.71 19.07.72 Germany Federal Republic of Förbunds-Republiken Tyskland (DE) P 2155651-U, P 2235 ^ 13-8 (71) W. Stog KG Industrie- und Rohrleitungsbau, Postfach 36U, D- ^ 355 Waltrop, Federal Republic of Germany-Förbundsrepubliken Tyskland (DE) ( (72) Wilhelm Stog, Waltrop, Reinhard Springer, Waltrop, Federal Republic of Germany, Germany (DE) (7 ^) Oy Kolster Ab (5M Joint selection of structures such as bridges, streets and similar expansion joints - Fittings for expansion joints and construction dylika

The invention relates to a seam selection of structures, such as bridges, streets and similar expansion joints, consisting of a strip-like belt of resilient material, such as rubber and the like, attached to the notches of the carriageway on both sides of the expansion joint by means of a support fixedly fitted in each notch of the carriageway, the lower surface of which has at least one recess extending longitudinally between the fastening ribs.

In known seam spacers of this type, these ribs are, for example, in the form of a T-iron neck and the T-iron flange is fastened with screws firmly to the plate by which the neck and the flange are fastened to the bottom of the carriageway notches on either side of the expansion seam. In such a grouping, the entire seam belt or its locally limited parts cannot be pre-tensioned during installation in order to achieve the desired function of the seam spacer when both components move towards each other. In order to ensure the sealing of the joint spacer with respect to the associated casting compounds, corner pieces are already provided in this known construction, which are screwed together with the T-irons into the joint spacer and a certain prestressing of the joint spacer parts is ensured. After screwing on the T-iron and the angle iron, the space between the joint belt and the carriageway is closed with sealing compounds.

The object of the present invention is to improve the moisture- or water-resistant coating of the expansion joints of structures so that it is obtained without a large structural input and that even in wide joint coatings the curvature of the joint spacer is prevented when the spacer is subjected to strong compressive forces.

In the coating described in more detail at the beginning, this is achieved according to the invention by placing the screw elements in the aligned holes of the fastening ribs and brackets and thus directly or partially indirectly acting as tensioning parts. under prestressing to their adjacent elements, and that the recess or recesses are made arcuate and fitted for fastening ribs embedded in the strap.

The fastening ribs can be adjusted with respect to the elements so that a certain prestress can be reserved during installation in the part of the seam spacer between them. This prestressing ensures that the side edge of the seam spacer does not rise out of place in the maximum expansion conditions. The prestress can also be set in the expansion seam differently because the mounting ribs are individual parts. A different prestressing is appropriate because experience has shown that the wheels of vehicles strike a few parts of the seam spacer incessantly, which rarely happens at the parts between them. The wadding work of the wheels of the vehicles affects the seam belt differently depending on the drive joint, which can also be taken into account when setting the prestress.

A particularly simple construction of the pavement can be achieved by suitably embedding angle irons in the notches of the carriageway, the horizontal side of which facing the expansion seam is fixed to the bottom of the carriageway notch and the vertical side of which has through-holes for tightening screws.

A particularly advantageous sealing against the ingress of water, dust, dirt or the like is obtained by introducing the vertical side of the angle iron up to the upper surface of the carriageway and forming a through contact surface on the side edge of the seam belt.

In order to prevent the belt from curving upwards during compression, the fastening ribs can be arranged to deviate vertically with respect to the side of the angle iron towards the bottom of the roadway notch. For this purpose, however, the underside of the belt may also be suitably provided with at least one arcuate recess extending in the longitudinal direction of the belt between the two fastening ribs. In the moving parts, the belt 5 59639 suitably has a corresponding number of bearing surfaces between a plurality of arcuate recesses which rest on the bottom of the notch of one of the carriageways. When the tine spacer is compressed, the belt is pressed downwards at the bottom of the notch in the carriageway and thus obtains an increased positional confirmation, which is crucial for the effect of rolling loads.

On the other hand, the seam spacer can be formed in such a way that recesses with an arcuate cross-section increase the stability of the belt. Thus, the advantage is obtained that the stresses occurring in the compression and expansion of the belt are uniformly due to the fastening members reserved for the edge areas. These charged stabilizing accessories help to ensure that the deformation forces inside the belt are dissipated and that the material displacements that occur do not lift the belt from the bottom or side of the notches associated with it from the 1st intermediate layers. The recess may be formed as an eccentric vault. In this case, it is advantageous if the recess has several relatively short vaults arranged in succession in the longitudinal direction of the belt, which point alternately in the direction of one or the other bearing.

According to another embodiment, the arcuate recess is provided with spaced ribs transverse to the expansion seam. The ribs are suitably formed in one piece with the belt.

The drawing shows examples of embodiments of the invention, which are examined in more detail in the following description. Fig. 1 shows an embodiment of a seam spacer for substantially stationary components, Fig. 2 a seam spacer for movable components according to Fig. 1, Fig. 3 a second embodiment of a seam spacer, Fig. 4 a second embodiment of clamping members, Fig. 3 an embodiment of a seam spacer when the width is relatively small but relatively large; 6 and 7 seam spacer for relatively large expansion. The expansion joint 10 is designed between both parts 11 and 12 of a structure such as a bridge, street or the like. The foundation is usually concrete and is covered with a pavement 13 »with an asphalt layer 14 which forms the surface of the carriageway. The coating 13 is generally bitumen and is on top of an interposed underlying insulating plastic layer 13. Layer 13 may be a fiberglass reinforced mat.

Layers 13, 14 and 13 have not been extended to the expansion seam 10, as a result of which notches in the seam cover are formed in the carriageways. According to its embodiment, each component 11 and 12 has an angle iron 16 parallel to the expansion joint 10 with a horizontal side 17 and a vertical side 18. The horizontal side 17 is fixed to the bottom 19 of the carriageway notch so that the side 17 is welded to a concrete reinforcement 20 which is reserved for the foundation. The upper surface 21 of the horizontal side 17 is formed as a smooth bearing surface of the seam belt 22.

In this embodiment, the vertical side 18 of the wind iron 16 is pulled up to the upper surface of the carriageway. It has a plurality of through-bores 23 * along its length into which tightening screws 24 are inserted. · The end 25 of the tightening screws 24 is on the surface of the vertical side 18 facing the bituminous layer 13.

The fastening ribs 26 parallel to the vertical sides 18 are embedded in the seam belt 22. In all parts of the fastening rib 26 it is advantageous to have two outwardly pointing threaded nipples 27 «terminating at a small spacer end on the free side surfaces 28 of the seam strap 22. The clamping screws 24 are fastened in the threaded sleeves 27 so that the seam strap 22 can be biased. between side 18. In this way, the surface 28 is pressed evenly against the inwardly facing surface of the vertical side 18 and, with all the loads present, a tight seal is obtained at the entrance of water, moisture, dust, dirt or the like. The fastening ribs 26 formed of separate parts allow the seam belt to be delivered in larger pieces, which can then be cut into pieces of the correct length at the construction site. It does not require special tools, as it can only be cut between the parts of the fastening ribs 26 of the resilient belt 22. In this way, the belt can also be cut into an oblique end connection and moved without hindrance onto the cut part.

The screw heads 25 are exposed for bias adjustment. They can then be covered with an insulating plastic layer 15 according to Figure 1. The bitumen pavement 13 and the asphalt layer 14 are then lowered to the layer 15 or to the vertical side 18.

Figure 2 shows a cross-section of the seam cover 22 of the components moving towards each other. Similar parts are denoted by the same reference numerals. Compared to Fig. 1, in this embodiment, on the underside of the seam belt 22, between the fastening ribs 26, there are two curved recesses 29 · Both recesses 29 are parallel to the expansion seam 10. A bearing surface 30 is formed between the recesses 29 in the seam sleeve 22. The bearing surface 30 rests on the bottom 19 of the notch of the carriageway 11 ·

Longitudinal grooved recesses 31 can be provided in the area of the bearing surface 30 between the recesses 29 in the open upper surface of the seam belt 22. These longitudinal grooved recesses 31 also run in the longitudinal direction of the expansion seam 10 and are aligned with each other. For example, their length may be the same as the length of the portions of the mounting ribs 26.

In addition, near the longitudinal grooved recesses 31 below them, there may be rigid plates 32 «embedded in the seam belt 22, which are shown in Fig. 3 by a broken line. The rigid plates 32 are also separate parts.

When the seam belt 22 is compressed, the recesses 29 alone ensure that the belt presses in the direction of the bearing surface 30 according to the arrows P and presses it firmly against the surface 19. As a result, the seam belt 22 does not curve evenly into the shape of the dome, but forms only a weak wavy line with a strong bulge. If the belt in this form is subjected to rolling loads "the entire length of the belt does not protrude from one bearing surface to another" because part of the protruding movement is distributed in the area of the bearing surface 30. In this way, it is prevented that the side surfaces 28 do not rise too much from the vertical side 18, so that, even with extreme loads, some of the prestressing is maintained so that any ingress of moisture or dirt is prevented.

Also as the belt expands, this appears to tend to press the bearing surface 30 against the surface 19.

The longitudinal grooved recesses and / or rigid plates 32 also promote the deformation of the belt 22 in the direction of the arrows P during the pressing step. The longitudinal grooved recesses in the upper surface of the belt make it possible to balance the forces in the upper surface area, especially in the long belts of the moving expansion joints, so that the surface stressed by the wheels of the vehicle can withstand aging better.

The embodiment shown in Figure 3 also shows the cover of the components moving relative to their tooth. A clamping screw is not shown in the structural part 11, whereas a clamping screw 24 is inserted in the structural part 12. In this embodiment, the fixing ribs 36 have a recess in which threaded sleeves 27 are inserted. In addition, a second angle iron 33 is connected to the angle iron 16 »with a vertical side 34 next to the vertical side The horizontal side 33 of the angle iron 33 is slightly lower than the horizontal side 17 of the angle iron 16 and is also connected to the reinforcement 20. Both vertical sides 18 and 34 have a through hole 23 for the clamping screw 24. This arrangement is suitable for large prestressing and wide crossings. In addition, a wedge-shaped strip of resilient material 37 »is provided for this embodiment, which, after tightening the screw 24, is pushed onto it at an angle piece 33 · Corresponding recesses 38 can be provided on the ends 25 of the tapping screws 24. As shown on the right in Fig. 3 , the plastic layer 15 can be pulled just as in the above exemplary embodiments between the wedge-shaped strip 37 and the angle iron 33 up to the upper surface of the carriageway. In this example, the vertical sides 18 and 34 of the angle irons 16 and 33 terminating below the upper surface of the carriageway are protected with a special compound.

As in the above embodiments, here too, after placing the wedge-shaped strip, the bitumen layer 13 and the asphalt layer 14 are led to the strips 37.

Fig. 4 shows a modified embodiment of the fastening devices, in which the opposing fastening ribs 46 extend away from the vertical side 18 of the angle iron 16 towards the bottom 19 of the roadway recess. The inclined shape of the mounting ribs 46 ensures uniform prestressing. However, when the seam belt 22 is compressed, it presses strongly against the base, i. against surfaces 19 and 21 of the horizontal side 17. This attaches the strap to the foundation once again.

In the embodiment according to Figures 5-7, a T-piece 82 with a flange 83 and a neck 84 is fastened to the free upper surface 21 of the horizontal side 17 by means of screw bolts 85. The neck 84, which is formed similarly to the fastening ribs 26, 36, 46, is a fastening rib 22 edge area from below. The belt 26 is connected to the rib 24 by appropriate vulcanization.

In addition, a flexible corner piece 87 is fastened to the horizontal flange 83 of the T-piece 82 by means of screw bolts 85, the vertical arm of which is prestressed attached to the free side surface 28 of the belt 22. The preload is obtained by tightening the nut of the screw bolt.

In the embodiment according to Fig. 5, the angled iron 16 has a substantially T-shaped basic shape so that the horizontal side 17 becomes a flange 33 * The insulating plastic layer 15 is guided up to the horizontal flange 35 and can also be pulled up parallel to the side 18. The space between the flexible corner piece 87 and the asphalt layer 14 adjoining the vertical side 18 1. and the pavement 13 is closed after tightening the screw bolt by elastic strips 37 'or the like embedded in the sealing masses 89.

In place of the flexible corner piece 87 and the sealing masses 89, a profile piece 70 can be reserved according to Fig. 7. The profile piece 70 can preferably be made of metal, especially aluminum. It runs parallel to the expansion seam 10 and has a recess 71 for the screw 25. The profile piece 70 is firmly attached to or biased against the free side surfaces 28 of the belt 22. Its cross-section may be trapezoidal, rectangular or, according to Fig. 7, substantially triangular, the bitumen layer 13 and the asphalt layer 14 being applied immediately up to the oblique side surface 72 and possibly also to the recesses 71 * In the carriageway area only a narrow strip prevents the pavement of the adjacent carriageway from rising upwards from the diatomaceous earth 72. In connection with the profile piece 70, the angle iron 16 can be omitted and replaced by a slab 76 welded to the reinforcement 20. In the area of the expansion joint 10 be stiffened by a rib. A tough resilient plastic layer 77 can be placed under the slab 76, which after concreting is sprayed through the opening of the screw bolt 83 between the slab 76 and the upper side of the structure 12. In this way any cavities are closed and the formation of wet compartments is prevented.

As seen in Figures 5-7, the vertical neck 84 of the T-piece 82 may be notched at certain intervals, as illustrated by the oblique neck 84 '. In this way, the attachment of the strap 22 to the ribs or necks 84, 84 'is improved. Ribs 26, 36, 46 may be formed accordingly;

According to Fig. 3, a recess 60 extending in the direction of the expansion seam 10 is formed on the underside of the seam belt. This recess is in the form of a gentle arc and is formed eccentrically according to the embodiment of Fig. 3. In addition, in the embodiment according to Fig. 3, the recess has a plurality of successively arranged, eccentric vaults in the longitudinal direction of the belt 22, the dimension of which is relatively short in the longitudinal direction. Figure 5 shows a vault 60 in the section plane and a vault 60 'at the back. It is displaced with respect to the eccentric vault 60 so that its dome 61 'is close to the right bearing, while the dome 60' of the vault 60 is near the left bearing. Viewed from below, the oblique edges 62 and 62 of the vaults 60 and 60 'form ribs which engage each other in a finger-like manner. As a result, when the belt 22 is compressed, the substance changes its shape not only in the direction of the compression movement, but also in its transverse direction. An S-shaped main tension line is formed inside the belt. The same is true when the belt is stretched.

Only ribs can also be reserved inside the arcuate recesses. These ribs are transverse to the expansion seam and are arranged at a certain distance from each other, which can be between 13 cm and 40 cm, depending on the size of the belt.

In the embodiment according to Fig. 6, two longitudinally curved recesses 60 are provided, which extend in the direction of the expansion seam 10, of similar cross-section over the entire length of the belt 22. The recesses 60 of the recesses β 59639 are eccentric, with their domes 61 facing the side bearings. Arranged inside the recesses 60 are ribs 63 »which taper towards the bottom 19 of the carriageway notches in a trapezoidal manner. The ribs end slightly above the bottom of the roadway notches.

The ribs 63 of the adjacent notches 30 need not be aligned with each other. It is advantageous that they are displaced relative to each other so that when the belt 22 is compressed, a deformation takes place as described in connection with FIG.

The ribs 63 can be equipped with rigid, recessed pieces? as indicated in paragraph 64. These rigid, recessed pieces 64 contribute to the belt becoming increasingly S-shaped when compressed when the ribs 63 are not aligned with each other, or, if the ribs 63 are aligned with each other, that the seam belt 22 presses into the bottom of the notch 19 in the central region between the recesses 60. .

Both the longitudinal notches 31 on the surface of the carriageway and the domed recesses 29, 60 on the underside of the seam belt 22 ensure that the seal in the area of the surfaces 21 and 28 protecting the metal parts is maintained during prestressing and also under the influence of weather and mechanical effects.

Claims (18)

1. Joint insert for dilatation joints in structures such as bridges, streets and the like, which joint joint consists of a strip-shaped band (22) of elastic material, such as rubber, which at both sides of the dilatation joint is fixed in recesses in the carriageway by means of the belt recessed and longitudinally extending fastening strips (26, 36, 66, 8), which are connected by means of screw elements to carriers (16, 76) fixedly fixed in each carriageway, which have at least one in the bottom side of the fastening strips. longitudinal recess (29, 60) of the belt, characterized in that the screw elements (2U, 85) are inserted in line with one another in the holding strips (26, 36, 66, & k) and the supports (16, 76). and designed as instant or partially directional clamping elements which, under tension, cause all free, horizontal, vertical and vertical surfaces of the belt (32) to abut against the same adjacent members, and respite The recesses (29, 60) are beak-shaped and assigned to the retaining strips (26, 36, 1 + 6, Qh) which are embedded in the belt (22). Sealing insert according to claim 1, characterized in that the retaining strips (26, 36, 1 + 6) consist of individual sections extending longitudinally along the strip (22), which are provided with threaded bushings (27) arranged perpendicular to the the dilatation joint (10) and each star engaging a tensioning screw (2U), which freely pivots abut against an angular profile strip (16) arranged in the carriageway recess. Sealing insert according to claim 2, characterized in that the sections of the retaining strips (26, 36, U6) are each provided with two non-aligned threaded bushes (27) which terminate at a slight distance from the free side surfaces (28) of the sealing strip (22). ). 1+. Seam inserts according to claims 2 and 3, characterized in that the horizontal flange (17) directed towards the bottom of the carriage recess (18) and the vertical flange (18) of the angular profile frame (16) is provided with a continuous shaft (23). for the clamping screws (2k). Sealing insert according to claims 1 and h, characterized in that the vertical flange (1.8) extends to the top of the carriageway and forms a continuous abutment surface for the side edge (28) of the sealing strip (22). 6. Joints according to any of claims 1-5, characterized in that each threaded bush (27) is advanced through a recess in the retaining strip (36). Sealing insert according to claims 1-6, characterized in that the retaining strips (26, 36) extend parallel to the vertical flange (18) of the angular profile strip (16). i2 596 3 9 8. Grout insert according to claims 1-6, characterized in that the opposing fixing strips (U6) diverge relative to the vertical flange (18) of the angular profile strip (16) in the direction of the bottom (19) of the carriageway recess. 9 · Seam insert according to any of claims 1-8, characterized in that an angular iron (33) is connected to the angular profile strip (16), whose vertical flanges (18 and 3M respectively abut each other and are provided with a common through-going heel (23) for the clamping screws (2U), wherein the horizontal flange (33) of the angle iron (33) is longer than the corresponding flange in the angular profile strip (16) and is anchored to the support. A joint insert according to any one of claims 1 ~ 9> characterized in that a wedge-shaped strip (37) of resilient elastic material is arranged between the carriageway coating (13, 1U) and possibly during intermediate coupling of an insulating plastic layer (15). between the coating (13) and the substrate (11 and 12, respectively) rests on the horizontal flange (35) of the angle iron (33) · Seam insert according to claim 10, characterized in that the wedge-shaped strip (37) is provided with recesses (38) for the heads (25) of the tensioning screws (2U). Seam insert according to claim 1, characterized in that the recess (60) is provided in the longitudinal direction with a plurality of successively arranged, eccentric recesses with relatively short length extension (60, 60 '), alternately directed to one or the other layer. . Socket insert according to claim 1, characterized in that two recesses (60) of equal direction are eccentrically arched with the dome (61) facing outwardly in the direction of the bearing. 1U. Seam insert according to claim 13, characterized in that the oblong recess is provided with strips (63) perpendicular to the dilatation joint (10). Sealing insert according to claims 13 and 14, characterized in that the strips (63) in adjacent recesses (60) are offset relative to each other. Sealing insert according to claim 1H, characterized in that the strips (63) are provided with rigid inserts (6U). Seam insert according to claim 1, characterized in that the free side surfaces (28) of the strip (22) are tightly abutting against rigid profile pieces (70) which are anchored by bolts (85) · Sealing insert according to claim 17, characterized in that the profile pieces (70) are arranged to expose the strip (22) to a weak bias, especially in the roadway area.