Patent Application
20160376756
This invention is directed to precast structures, and more particularly to an improved precast concrete bridge unit and headwall assembly.
In a precast reinforced concrete bridge unit having a headwall it is known to cast the headwall as an integral part of an end bridge unit when the bridge unit is being cast. It is also known to precast the headwall separately with a bottom arcuate abutment or collar which extends continuously across the arcuate top wall of the bridge unit. The collar is secured to the top wall of the bridge unit by bolts or threaded rods which extend into the top wall and are threaded into concrete anchors embedded within the top wall. The continuous arcuate collar provides for attaching the vertical headwall to the bridge unit at the construction site. It is also known to precast a series of concrete counterfort members that are supported on a headwall and subsequently secured to the top wall of the bridge unit by bolts or threaded rods which extend into the top wall and are threaded into concrete anchors embedded within the top wall.
It is desirable for the headwall to be precast separately from the precast bridge unit for significantly reducing the weight of the precast bridge unit and to facilitate shipping the precast bridge unit along a roadway or highway with a semi-truck and low bed trailer vehicle. The separate precast headwall units also facilitate handling and shipping of the headwall units on a semi-truck and trailer vehicle. After all of the bridge units are positioned at the construction site with the aid of a crane, the headwall units are then positioned with the crane and attached to the opposite end bridge units.
In accordance with an aspect of the invention, a method of producing a precast concrete bridge and headwall assembly is provided, comprising the steps of: casting a reinforced concrete bridge unit having a top wall connecting opposite side walls; releasably attaching a series of counterfort forms to the top wall of the bridge unit at laterally spaced intervals between the side walls; positioning the bridge unit with a first side supported by a horizontal casting surface, wherein the top wall is positioned adjacent a casting framework and a bottom edge of the counterfort forms is located adjacent the casting framework; precasting a concrete headwall unit onto the casting surface; precasting a series of counterfort members into the counterfort forms before the headwall has completely hardened; removing the series of counterfort forms from the top wall of the bridge unit; and removing the headwall and counterfort members as a unit from the bridge unit.
The precasting of the headwall and the series of counterfort members may be simultaneous, forming an integral unit made up of the counterfort members and the headwall.
The casting of the bridge unit may include positioning a series of anchor members in the top wall at laterally spaced intervals between the side walls.
A cross-hole may be created in each of the counterfort members during the casting of the series of counterfort members.
The precasting of the headwall may include positioning at least one primary bracket at least partially in the casting framework, such that the at least one primary bracket may be integrally formed with the headwall once the headwall has hardened, and may include at least one secondary bracket attached to the top wall of the bridge unit, such that the at least one primary bracket formed in the headwall and the at least one secondary bracket attached to the top wall of the bridge unit are positioned between adjacent anchor members.
The at least one primary bracket may include studs extending into the casting framework.
Prior to precasting of the headwall a first end of at least one rod may be releasably coupled to the at least one primary bracket in the casting framework and a second end of the at least one rod may be releasably coupled to the at least one secondary bracket attached to the top wall of the bridge unit.
The series of counterfort forms may include at least two different sizes of forms.
A first size of the counterfort members may have a releasable connection to the top wall of the bridge unit, and a second size of the counterfort members may have a releasable connection to the top wall of the bridge unit.
Releasably attaching the series of counterfort forms may include side plates of the counterfort forms having forward edges adjacent the top wall of the bridge unit and a lateral plate, which extends between the side plates, being spaced from the top wall of the bridge unit.
In accordance with another aspect of the invention, a method of producing a precast concrete bridge and headwall assembly is provided, comprising the steps of: casting a reinforced concrete bridge unit having a top wall connecting opposite side walls; releasably attaching a series of counterfort forms to the top wall of the bridge unit at laterally spaced intervals between the side walls; positioning the bridge unit with a first side supported by a horizontal casting surface, wherein the top wall is positioned adjacent a casting framework and a bottom edge of the counterfort forms is located adjacent the casting framework; positioning at least one primary bracket at least partially in the casting framework; releasably attaching a first end of at least one rod to the at least one primary bracket in the casting framework and attaching a second end of the at least one rod to at least one secondary bracket attached to the top wall of the bridge unit; precasting a concrete headwall unit onto the casting surface; precasting a series of counterfort members into the counterfort forms before the headwall has completely hardened; removing the series of counterfort forms from the top wall of the bridge unit; detaching the first end of the at least one rod from the at least one primary bracket and detaching the second end of the at least one rod from the at least one secondary bracket; and removing the headwall and counterfort members as a unit from the bridge unit.
A shaft may be anchored within each of the anchor members and can extend outwardly from the top wall and through each of the counterfort forms, wherein a cross-hole is created in each of the counterfort members during the casting of the series of counterfort members.
A tubular member may be positioned over the anchored shaft and can be integrally formed within the counterfort member such that the diameter of the cross-hole generally corresponds to the diameter of the tubular member.
In accordance with a further aspect of the invention, a precast concrete bridge and headwall assembly is provided comprising a precast concrete bridge unit including a top wall connecting opposite side walls, and a precast concrete headwall having a bottom surface mating with the top wall of the bridge unit and a series of counterfort members at laterally spaced intervals between the side walls. The counterfort members are integrally formed with the headwall such that no seam is present between the headwall and the counterfort members.
The series of counterfort members may include at least two different sizes of members.
The counterfort members of a first size may have a releasable connection to the top wall of the bridge unit, and the counterfort members of a second size may have a releasable connection to the top wall of the bridge unit.
The assembly may further comprise at least one primary bracket integrally formed with the headwall, at least one secondary bracket attached to the top wall of the bridge unit such that the at least one primary bracket formed in the headwall and the at least one secondary bracket attached to the top wall of the bridge unit are positioned between adjacent anchor members, and may additionally include at least one rod having a first end releasably coupled to the at least one primary bracket and a second end releasably coupled to the at least one secondary bracket.
While the specification concludes with claims particularly pointing out and distinctly claiming the present invention, it is believed that the present invention will be better understood from the following description in conjunction with the accompanying Drawing Figures, in which like reference numerals identify like elements, and wherein:
In the following detailed description of the preferred embodiments, reference is made to the accompanying drawings that form a part hereof, and in which is shown by way of illustration, and not by way of limitation, specific preferred embodiments in which the invention may be practiced. It is to be understood that other embodiments may be utilized and that changes may be made without departing from the spirit and scope of the present invention.
A method of production of a precast bridge unit and headwall assembly will be described. Referring to
As shown in
Referring to
As shown in
Referring additionally to
Prior to formation of the headwall 16, the primary bracket 48 may be supported by attachment of one or more of the studs 50 to the casting framework 42, such as by tying the studs 50 via wire to the casting framework 42. The releasable coupling of the brace member 54 to the primary and secondary brackets 48, 52 forms a detachable assembly that permits the bracing structure 49 to be located in position during formation of the headwall 16 for accurate placement of the primary bracket 48, and allowing disassembly for shipment of the bridge unit 10 and the headwall 16 as separate components. It may be noted that the bracing structure 49 is preferably formed of a corrosion resistant material, such as stainless steel.
With the counterfort forms 24, the brace assembly 49 and the framing unit 44 in position with the top wall 10, concrete is poured into the framing unit 44 and around the brace assembly 49 to form the headwall 16. Subsequently, before the concrete of the headwall 16 fully sets, concrete is poured in the counterfort forms 24. Hence, the top wall 12 with a counterfort form 24 forms a mold cavity for formation of a counterfort member 18. The concrete for the counterfort members 18 can be poured simultaneous with or as a final stage of pouring of the concrete for the headwall 16, i.e., immediately following the pouring of the concrete of the headwall 16 while the headwall concrete is still wet. Forming the counterfort members 18 simultaneously with, or substantially simultaneously with, the formation of the headwall 16 is designed to create the counterfort members 18 as integral or unitary with the concrete material of the headwall 16, defining an integral unit 64, as illustrated in
Further, upon hardening of the concrete forming the headwall 16, the at least one primary bracket 48, previously positioned at least partially within the casting framework 42, is integrally formed with the headwall 16 via the studs 50, i.e., the studs 50 are embedded within the hardened concrete of the headwall 16. A cross-hole 62 is created in each of the counterfort members 18 by way of the threaded shaft 23 and the tubular member 25 such that a diameter D of the cross-hole 62 generally corresponds to the diameter of the tubular member 25, see
Subsequently, the bridge units 10 and integral units 64 can be shipped to a construction site where opposite end bridge units 10 may be installed with a crane on supporting concrete footers, and the integral units 64 can be attached to the top wall 12 of each bridge unit 10 with the threaded shafts 23 to form a bridge unit and headwall assembly. After all of the bridge units and integral units 64 are backfilled with compacted soil, the soil around the attached counterfort members 18 cooperates to provide for a more positive lock of the integral units 64 to the end bridge units 10.
Summarizing the process for formation of the integral units 64, with reference to
Referring to
As shown in
After the bridge unit 110 is precast, a series of counterfort forms 124a, 124b are releasably attached to the top wall 112 at laterally spaced intervals between the side walls 114. Each counterfort form 124a may be formed the same as the previously described counterfort form 24, and includes two side plates 126, a lateral plate 128 between the side plates 126, a bottom edge 130, a top edge 132, and forward edges 134. Each counterfort form 124b has two side plates 126, a first lateral plate 128a having an aperture 129, a second lateral plate 128b, the first and second lateral plates 128a, 128b being between the side plates 126, a bottom edge 130, a top edge 132, and forward edges 134. The first lateral plate 128a extends generally parallel to the top wall 112 of the bridge unit 110 and the second lateral plate 128b angles away from the first lateral plate 128b and top wall 112 toward a horizontal casting surface 140. The second counterfort form 124b is taller along the top wall 112 and extends a greater distance from the top wall 112 than the first counterfort form 124a. The counterfort forms 124a, 124b are positioned such that the forward edges 134 are adjacent the top wall 112 of the bridge unit 110, the lateral plates 128, 128a, 128b are spaced from the top wall 112 of the bridge unit 110, and one of the threaded shafts 123 extends through each aperture 129, and is secured, for example, by two nuts and a washer, to support the counterfort forms 124a, 124b to the bridge unit 110.
The bridge unit 110 is initially provided positioned with a first side 138 supported by the horizontal casting surface 140 and the top wall 112 being adjacent a casting framework 142 and a framing unit 144. The bottom edge 130 of the counterfort forms 124a, 124b is located adjacent an upper edge of the casting framework 142, identified by the dashed line L, and framing unit 144. The casting framework 142 may be formed of, for example, rebar. Rebar reinforcements 143a, 143b may be placed in the respective counterfort forms 124a, 124b such that a portion of the rebar reinforcement 143a, 143b extends down into the casting framework 142. The rebar reinforcements 143a, 143b may include enlarged ends 155, or hooks, as illustrated for example by hook 157 in
The concrete headwall 116 is cast on the casting surface 140 embedding the casting framework 142 within the headwall 116. Before the headwall 116 completely hardens, the counterfort members 118a, 118b are cast into the counterfort forms 124, 124b, as seen in
While particular embodiments of the present invention have been illustrated and described, it would be obvious to those skilled in the art that various other changes and modifications can be made without departing from the spirit and scope of the invention. It is therefore intended to cover in the appended claims all such changes and modifications that are within the scope of this invention.
