In a precast reinforced concrete bridge unit having a headwall, for example, as disclosed in U.S. Pat. No. 4,993,872 which issued to the assignee of the present invention, it is known to cast the headwall as an integral part of an end bridge unit when the bridge unit is being cast, for example, as shown in the '872 Patent. 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 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.
The present invention is directed to an improved precast concrete bridge and headwall assembly and which provides for precasting the headwall units separately from the bridge units and for obtaining a precision match of each headwall unit with an end bridge unit. The precast concrete bridge and headwall assembly of the invention also reduces the volume and weight of concrete to form the assembly and thereby provides economy in construction and economy in shipping the bridge and headwall assembly in separate pieces. The reduced weight of concrete further provides for more conveniently handling the separate bridge unit and headwall unit at the construction or job site.
In accordance with one embodiment of the invention, a reinforced concrete bridge unit is precast with a top wall integrally connecting opposite side walls. The top wall of the bridge unit is provided with laterally spaced embedded anchor members in the form of internally threaded tubular anchors. A series of reinforced concrete brackets or counterforts are precast, preferably in different sizes, and each counterfort is cast with a hole for receiving a threaded bolt or rod for attaching a plurality or series of counterforts to the top wall of the bridge unit at laterally spaced intervals between the side walls of the bridge unit. The counterforts have end surfaces spaced from the end surface of the attached bridge unit and have steel reinforcing bars which project into the space.
The counterforts are releasably connected or attached to the top wall of the bridge unit, and the end surface of the bridge unit is placed on a horizontal casting surface with the reinforcing bars of the counterforts depending into the space between the end surfaces of the counterforts and the casting surface. A reinforced concrete headwall is then cast within the space on the casting surface so that the reinforcing rods of each counterfort are embedded in the concrete headwall. After the concrete forming the headwall cures, the counterforts are released from the top wall of the bridge unit so that the headwall with the integrally connected counterforts may be handled and transported as a unit separately from the precast bridge unit.
Other features and advantages of the invention will be apparent from the following description, the accompanying drawings and the appended claims.
Referring to
Referring to
As shown in
After the concrete forming the headwall 15 cures, the bolts 44 are released and removed from the anchor members 36 so that the headwall 15 and all of the connected counterforts 20 form an integral headwall and counterfort unit 55 which is separate from the precast concrete bridge unit 10. The separate units 10 and 55 may then be conveniently handled and shipped to a construction site on a low flat bed semi-trailer vehicle. For example, two of the bridge units 10 may be shipped with each unit resting on one end, as shown in
After the opposite end bridge units 10 are installed with a crane on the supporting concrete footers at the construction site, the combined headwall and counterfort units 55 are attached to the top wall 12 of each bridge unit with the threaded rods or bolts 44. After all of the bridge units and headwall and counterfort units 55 are backfilled with compacted soil, the soil around the attached counterforts 20 cooperates to provide for a more positive lock of the combined headwall and counterfort units 55 to the end bridge units 10. As mentioned above, the laterally spaced counterforts 20 also provide for a significant reduction in the weight of the headwall and counterfort units 55, and this reduction provides for economy in construction as well as economy in shipping and simplified handling of the units 55 with a crane at the construction site.
While the form of headwall and counterfort units herein described and the method of construction and assembly constitute a preferred embodiment of the invention, it is to be understood that the invention is not limited to the precise method and form of unit described, and that changes may be made therein without departing from the scope and spirit of the invention as defined in the appended claims.
Number | Name | Date | Kind |
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1412616 | Kammerer et al. | Apr 1922 | A |
4390306 | Fisher | Jun 1983 | A |
4459063 | Shaw | Jul 1984 | A |
4563107 | Peterson | Jan 1986 | A |
4993872 | Lockwood | Feb 1991 | A |
6205605 | Orsat | Mar 2001 | B1 |
Number | Date | Country | |
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20070059102 A1 | Mar 2007 | US |