RU2515755C1 - Pressing bracket and method of its use (versions) - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: pressing bracket comprises upper and lower plates (5 and 6) and a gasket (7), each of which is made of a polymer composite material, and at least a bolt (9) and a nut (10); at the same time the upper plate (5) is designed for installation in the horizontal position between adjacent vertical ribs (2) of the bridge deck, the lower plate (6) is designed for installation under the appropriate shelf (4) of the bridge span beam, and the gasket (7) is designed for installation between the upper and lower plates. In the upper and lower plates (5 and 6) and the gasket (7) there is a through hole so that they may be fixed by the bolt (9), stretched via through holes at the order of the upper plate (5), the gasket (7) and the lower plate (6), with fixation by the nut (10) to form the pressing bracket. Preferably between the upper plate (5) and the gasket (7) they install an angle (8), the width of which makes it possible to freely move it (and the entire pressing bracket) between support sites (3) of adjacent vertical ribs (2) of the deck.

EFFECT: simplicity and low cost of a pressing bracket, which simplifies process of bridge construction.

10 cl, 4 dwg

Description

FIELD OF THE INVENTION

The invention relates generally to construction, in particular to a clamping bracket for mounting a bridge deck, as well as to methods of using such a clamping bracket.

State of the art

When constructing bridges, it is often necessary to make flooring for pedestrians or vehicles. Typically, such floorings are made of metal sheets, as described, for example, in RF patent application No. 95103588 (publ. 01/20/1997), in US patent No. 6418583 (publ. July 16, 2002), in applications for US patent No. 2010 / 004315 (publ. 25.02.2010) and No. 2012/0023687 (publ. 02.02.2012). Such floorings are mounted on the shelves of the beams of the bridge span using various clamping devices, for example, such as described in Japanese application No. 2003-025237 (publ. 01.29.2003) or in Korean patents No. 100737841 (publ. 04.07.2007) and No. 100817449 (published on March 27, 2008).

However, all such designs of metal decking require the use of metal clamping devices installed by drilling metal parts at the attachment point. This increases the construction of the bridge and complicates the process of its manufacture.

In the patent of the Russian Federation No. 2403336 (publ. 10.11.2010) a composite flooring is proposed, which is used in the construction of pedestrian crossings using polymer composite materials. Such a flooring is fastened with a U-shaped bracket with bolts, under which it is necessary to drill holes in the beam shelf of the bridge span. Those. and in this case, the manufacturing process of the bridge is complicated.

Disclosure of invention

Thus, there is a need for the development of such a clamping element, which would be simple enough and cheap and which would simplify the process of construction of the bridge. The present invention solves the problem and provides the specified technical result.

To this end, in the first aspect of the present invention, there is provided a clamping bracket made of polymer composite materials (PCM) and intended for fastening a PCM bridge deck placed on the shelves of the beams of the bridge span, the deck having a horizontal deck and vertical ribs extending down from the deck parts with spacing at almost the same distance from each other and ending each along its entire length with a horizontal supporting platform intended for installation on The appropriate shelf girder bridge superstructure and comprising: top and bottom plates and a gasket, each of which is made of FRP; and a set of metal fasteners comprising at least a bolt and a nut; the upper plate is intended to be installed in a horizontal position between adjacent vertical edges of the flooring, and the length of the upper plate in the direction perpendicular to the direction in which the vertical edges of the flooring does not exceed the distance between adjacent vertical edges of the flooring, but it is known to be larger than the distance between their supporting platforms ; the lower plate is designed to be installed under the corresponding shelf of the beam of the bridge span and has a width that is obviously greater than the distance between the supporting areas of adjacent vertical deck ribs; the gasket is designed to be installed between the upper and lower plates and has a thickness almost equal to the thickness of the beam span of the bridge span and a width not less than the width of the lower plate; in each of the upper and lower plates and gaskets, a through hole is made so as to fasten them with a bolt passed through the through holes in the order of the upper plate, gasket and lower plate, with fixing by the said nut to form a clamping bracket.

A feature of the clamping bracket of the present invention is that the upper and lower plates can be pultrusion, the length of the upper plate and the width of the lower plate practically coinciding with the direction of their drawing during pultrusion.

Another feature of the clamping bracket of the present invention is that it can further comprise a corner made of PCM and having a thickness not exceeding the thickness of any of the supports of the vertical ribs of the floor, and a width almost equal to the distance between the supporting pads of adjacent vertical ribs of the deck minus the tolerance for the free movement of the corner between the supporting platforms of adjacent vertical edges of the flooring, while in one of the shoulders of the corner there is a through hole so that when installing Single between the upper plate and gasket bolt passed through the through holes of the order of the top plate, angle, and the bottom plate gasket. In this case, the corner can be made of PCM by pultrusion method.

Another feature of the clamping bracket of the present invention is that a recess can be formed on one of the sides of the lower plate, the height and width of which are almost equal, respectively, to the thickness and width of the corner.

Moreover, on the part of the upper surface of the gasket surrounding the through hole in it and reaching the edge of this gasket closest to the beam shelf of the bridge span, a reduction of no less than the tolerance on the thickness of the shelf can be performed.

Another feature of the clamping bracket of the present invention is that the upper plate may have at the edges of its sides that face the vertical ribs of the floor, bevels or fillets that are geometrically aligned with the cross section of the intersection of the rib and the supporting platform.

Finally, another feature of the clamping bracket of the present invention is that the set of metal fasteners may additionally contain two washers designed for lining under the head of the bolt and under the nut.

To solve the same problem and achieve the same result, a second object of the present invention provides a method for using the clamping bracket, which consists in the following: preparing the clamping bracket without a corner, as previously disclosed, without tightening the nut to the end; then the prepared clamping bracket is inserted with the upper plate into the space between two adjacent vertical edges of the flooring so that the length of the upper plate is almost perpendicular to the edges of the flooring, and the gasket is under the supporting areas of the adjacent vertical edges of the flooring; advance the prepared clamping bracket until the bottom plate is under the corresponding shelf of the beam of the span of the bridge so that between the gasket and the shelf a gap of no more than a predetermined value is formed; and tighten the nut while fixing the bolt.

To solve the same problem and achieve the same result, in the third object of the present invention, a method for using a clamping bracket is proposed, which consists in the following: preparing a clamping bracket with a corner without tightening the nut to the end; insert the prepared clamping bracket with the upper plate into the space between two adjacent vertical flooring ribs so that the length of the upper plate is almost perpendicular to the flooring ribs, the corner is between the mentioned supporting areas of adjacent vertical flooring edges, and the gasket is under the supporting areas of adjacent vertical flooring edges; advance the prepared clamping bracket until the bottom plate is under the corresponding shelf of the beam of the span of the bridge so that between the gasket and the shelf a gap of no more than a predetermined value is formed; tighten the nut while fixing the bolt.

Brief Description of the Drawings

The present invention is further illustrated by drawings, in which the same elements in different drawings are assigned the same reference position.

Figure 1 shows a cross section of a bridge deck for fixing which a clamping bracket of the present invention is intended.

Figure 2 shows the clamping bracket of the present invention in cross section, the plane of which is perpendicular to the plane of the cross section of the bridge deck of Figure 1.

Figure 3 shows a perspective view of a pressure bracket of the present invention without a top plate and a bolt.

FIG. 4 shows a pressure bracket of the present invention mounted in the bridge deck of FIG. 1.

Detailed Description of Embodiments

Figure 1 shows a cross section of a bridge deck made of polymer composite materials (PCM), for example, fiberglass grade SPPS (TU 2296-005-39790001-2003). This bridge deck is intended for placement on the shelves of beams of the bridge span (not shown). The bridge deck has a horizontal deck 1 and vertical ribs 2 extending downward from this deck 1 with a spacing of almost the same distance from each other. Each of the vertical ribs ends along its entire length (extending perpendicular to the plane of the cross section in FIG. 1) with a horizontal supporting platform 3 intended for installation on the corresponding shelf of the beam of the bridge span, each of which extends under the supporting platforms 3 almost parallel to the plane of the cross section in figure 1. Such flooring is described, for example, in the above patent of the Russian Federation No. 2403336.

The clamping bracket of the present invention is shown in FIG. 2 in cross section, the plane of which is perpendicular to the plane of the cross section of the bridge deck of FIG. 1. Details of the clamping bracket of the present invention described in detail below, are made of PCM, for example, the mentioned fiberglass grade SPPS, and are intended for fastening the bridge deck of figure 1. In figure 2, reference numerals 2 and 3 mark, respectively, one of the vertical ribs of the bridge deck and the supporting platform, which ends with this vertical rib. Reference numeral 4 indicates the beam span of the bridge span, shown in section with oblique hatching.

The clamping bracket of the present invention comprises an upper plate 5, a lower plate 6, a gasket 7 and (optionally) a corner 8, as well as a set of metal fasteners containing a bolt 9 with a nut 10 and, possibly, the first and second washers 11 and 12, and split washer 13.

The upper plate 5 is intended to be installed in a horizontal position between adjacent vertical ribs 2 of the flooring, the length of the upper plate in the direction perpendicular to the direction in which the vertical ribs 2 of the flooring (i.e., in the direction perpendicular to the sectional plane in FIG. 2), does not exceed the distance between adjacent vertical ribs 2 of the flooring, but is obviously greater than the distance between their supporting platforms 3. The width of the upper plate 5, as a rule, does not exceed its length, and the thickness is selected from the condition that eniya sufficient strength of the top plate 5.

The upper plate 5 preferably has, on the edges of its lateral sides that face the vertical ribs 2 of the deck, bevels or fillets, geometrically aligned with the cross section of the intersection of the rib 2 and the support pad 3. These bevels or fillets are made so that the upper plate 5 more tightly pressed to the reverse sides of the supporting platforms 3 in the process of their attachment to the shelves 4 of the beams of the bridge span.

The lower plate 6 is designed to be installed under the corresponding shelf 4 of the beam of the bridge span and has a width in the same direction as the length of the upper plate 5 (i.e., perpendicular to the sectional plane in Fig. 2), obviously exceeding (for example, twice) the distance between supporting platforms 3 adjacent vertical ribs 2 flooring. The length of the lower plate 6 (the size in the direction along the vertical ribs 2 of the flooring, i.e., in the horizontal direction in FIG. 2) is selected from the condition of ensuring reliable fastening of the bridge deck of FIG. 1 to the shelf 4 of the beam of the bridge span with the clamping bracket of the present invention , and the thickness is selected from the condition of ensuring sufficient strength of the lower plate 6.

The gasket 7 is designed to be installed between the upper and lower plates 5 and 6 and has a thickness practically equal to the thickness of the shelf 4 of the beam of the bridge span and a width of at least the width of the lower plate 6 (for example, equal to the distance between the supporting platforms 3 of the adjacent vertical ribs 2 of the deck plus double the width of these supporting platforms 3 adjacent vertical ribs 2 flooring). The length of the gasket 7 (in the horizontal direction in FIG. 2) is less than the length of the lower plate 6 (for example, half) and is selected so that when the pressure bracket of the present invention is installed with the lower plate 6 at a predetermined distance under the shelf 4 between the gasket 7 and the shelf 4 a gap formed no more than a given value (for example, 0.1 mm).

The upper and lower plates 5 and 6 can be made by pultrusion, and the length of the upper plate 5 and the width of the lower plate 6 practically coincide with the direction of their drawing during pultrusion. The pultrusion process itself is known to specialists (see, for example, RF patent No. 2112650, publ. 10.06.1998, and RF patent No. 2446948, publ. 10.04.2012). Gasket 7 can also be performed by pultrusion, while the direction of extraction of the gasket 7 does not matter.

Corner 8 can also be made of PCM by pultrusion. It has a thickness not exceeding the thickness of any of the supports 3 of the vertical ribs 2 of the deck, and a width that is practically equal to the distance between the support pads 3 of the adjacent vertical ribs 2 of the deck, minus the tolerance for the free movement of the corner 8 between the supports of 3 adjacent vertical ribs 2 of the deck. Corner 8 is an optional, albeit preferred, element of the pressure bracket of the present invention. It is made in such a way that the distance between the hole in corner 8 (described below) and its vertical wall is equal to the distance from the edge of the lower plate 6 to the hole in it, which eliminates the rotation of the lower plate 6 with corner 8 during installation and incorrect installation of corner 8.

In the case of using the corner 8 in the construction of the clamping bracket of the present invention, a recess can be made on one of the sides of the lower plate 6, the height and width of which are almost equal, respectively, to the thickness and width of the corner 8. This recess is designed to fit flush with that shoulder corner 8, which is shown in FIG. 2 perpendicular to the plane of the supporting platforms 3 and shelves 4. The recess may not be performed, because the shoulder of the corner 8 will rest on the end of the lower plate 6 and will not turn.

In the case of using the angle 8 in the construction of the clamping bracket of the present invention on a part of the upper surface of the strip 7, reaching the edge of this strip 7, closest to the shelf 4 of the beam of the bridge span, a reduction is made by an amount not less than the tolerance on the thickness of the shelf 4. This decrease gives the ability to press the other shoulder of the corner 8 to the gasket 7 and thereby provides a more reliable fixation of the clamping bracket of the present invention when attaching the bridge deck to the shelves 4 having technological cue variation in thickness.

In each PCM part of the pressure bracket of the present invention, i.e. in the upper plate 5, lower plate 6, gasket 7 and corner 8 (if used in the construction of the clamping bracket of the present invention), a through hole for the bolt 9 is made. This bolt 9, passed through the through holes in order of the upper plate 5, corner 8 (if used in the construction of the clamping bracket of the present invention), the gasket 7 and the lower plate 6, fastens these parts by fixing with a nut 10, resulting in the formation of the clamping bracket of the present invention. In this case, it is possible to use the first and second washers 11, 12 and the split washer 13, designed to control the connection, as is well known to specialists.

Figure 3 shows in perspective the relative position of the corner 8, the gasket 7 and the lower plate 6 before installing the upper plate 5 and the bolt 9.

The clamping bracket of the present invention is used as follows.

If, in a preferred embodiment of the present invention, a corner 8 is used in the clamping bracket, then the clamping bracket of the present invention is assembled as shown in FIG. 3. In this case, the corner 8 can be located with one shoulder in the corresponding recess, if it is made on the lower plate 6. After that, the upper plate 5 is installed over the gasket 7, a bolt 9 is inserted into the through holes of the parts 5-8-7-6 combined (possibly with washers 11-13) and screw on nut 10, but do not tighten it to the end, leaving some play between the assembled parts.

The prepared clamping bracket is inserted into the space between two selected vertical ribs 2 of the bridge deck so that the length of the upper plate 5 is almost perpendicular to the ribs 2 of the deck, and the corner 8 is between the bearing pads 3 of the adjacent vertical ribs 2 of the deck (Figure 4). Then, the prepared clamping bracket is advanced until the lower plate 6 is under the corresponding flange 4 of the beam of the span of the bridge so that between the gasket 7 and the flange 4 a gap of no more than a predetermined value is formed. Such a supply of the prepared bracket with the lower plate 6 under the shelf 4 is possible precisely because the details of the pressure bracket are connected to the aforementioned play, i.e. loose. After placing the clamping bracket in a predetermined position, tighten the nut 10, while fixing the bolt 9 from twisting using suitable tools.

If corner 8 is not used in the clamping bracket, then the clamping bracket of the present invention is assembled without corner 8, and otherwise, all operations are performed as described previously.

Thus, the present invention allows to simplify the process of building a bridge through the use of a simple and cheap clamping bracket that does not require drilling during its installation.

Claims (10)

1. A clamping bracket made of polymer composite materials (PCM) and intended for fastening a bridge deck made of PCM placed on the shelves of the beams of the bridge span, said deck having a horizontal deck and vertical ribs extending down from said deck with a spacing of almost the same distance from each other and ending each along its entire length with a horizontal supporting platform, designed to be installed on the corresponding shelf of the beam of the structure of the bridge, and containing:
- upper and lower plates and gaskets, each of which is made from RMB; and
- a set of metal fasteners containing at least a bolt and a nut; wherein:
- said upper plate is designed to be installed horizontally between adjacent vertical edges of said flooring, the length of said upper plate in the direction perpendicular to the direction in which said vertical edges of flooring does not exceed the distance between adjacent vertical edges of the flooring, but it is known to be larger than the distance between their reference sites;
- said lower plate is designed to be installed under the corresponding shelf of the beam of the span of the bridge and has a width obviously exceeding the distance between the said supporting platforms of adjacent vertical edges of the flooring;
- said gasket is designed to be installed between the upper and lower plates and has a thickness almost equal to the thickness of the said shelf flange of the bridge span, and a width not less than the width of the said lower plate;
- in each of the aforementioned upper and lower plates and gaskets, a through hole is made so as to fasten them with said bolt, passed through the through holes in the order of the upper plate, gasket and lower plate, with fixing by said nut to form the said clamping bracket. 2. The clamping bracket according to claim 1, wherein said upper and lower plates are made by the pultrusion method, wherein said length of the upper plate and said width of the lower plate practically coincide with the direction of their drawing in the process of said pultrusion. 3. The clamping bracket according to claim 1, additionally containing a corner made of PCM and having a thickness not exceeding the thickness of any of the said supports of the vertical ribs of the floor, and a width practically equal to the mentioned distance between the bearing pads of the adjacent vertical ribs of the deck, minus the allowance for free moving said corner between said supporting platforms of adjacent vertical floor ribs, wherein a through hole is made in one of the arms of said corner so that during installation it is mentioned a corner between said top plate and said pad bolt passed through the through holes of the order of the top plate, angle, and the bottom plate gasket. 4. The clamping bracket according to claim 3, wherein said corner is made of PCM by pultrusion. 5. The clamping bracket according to claim 3 or 4, in which a recess is made on one of the sides of said lower plate, the height and width of which are almost equal, respectively, to the thickness and width of the said corner. 6. The clamping bracket according to claim 5, in which on the part of the upper surface of said gasket surrounding said through hole in it and reaching the edge of this gasket closest to said shelf span of the bridge span, a reduction is made by an amount not less than the thickness tolerance of said shelves. 7. The clamping bracket according to claim 1, in which the said upper plate has on the edges of those lateral sides that face the said vertical ribs of the floor, bevels or fillets, coordinated in geometry with a cross section of the intersection of the rib and the supporting platform. 8. The clamping bracket according to claim 1, in which the aforementioned set of metal fasteners further comprises two washers designed for lining under the head of said bolt and under said nut. 9. The method of using the clamping bracket, which consists in the fact that:
- prepare the clamping bracket according to claim 1 or 2, without tightening said nut to the end;
- insert the prepared clamping bracket with the said upper plate into the space between two adjacent vertical edges of the flooring so that the said length of the upper plate is almost perpendicular to the said edges of the flooring, and the said gasket is under the mentioned supporting areas of the adjacent vertical edges of the flooring;
- advance the prepared clamping bracket until the aforementioned lower plate is under the corresponding shelf of the beam of the bridge span so that between the said gasket and the said shelf a gap of no more than a predetermined value is formed;
- tighten said nut while fixing said
bolt. 10. The method of using the clamping bracket, which consists in the fact that:
- prepare the clamping bracket according to any one of claims 3-6, without tightening said nut to the end;
- insert the prepared clamping bracket with said upper plate into the space between two adjacent vertical floor ribs so that the said upper plate length is almost perpendicular to said floor ribs, said corner is between said supporting platforms of adjacent vertical flooring edges, and said gasket is under said supporting platforms adjacent vertical flooring ribs;
- advance the prepared clamping bracket until the aforementioned lower plate is under the corresponding shelf of the beam of the bridge span so that between the said gasket and the said shelf a gap of no more than a predetermined value is formed;
- tighten said nut while fixing said
bolt.

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