JP2021183798A - Prestress cable inspection method for old bridge cables - Google Patents

Abstract

To provide a prestress cable inspection method for old bridge cables that can perform a safe tensile strength lift-off inspection on prestress and rope body materials in a cable embedded in an old bridge.SOLUTION: The safety of using old bridge cables can be ensured by understanding the soundness of bridge cables through inspecting the old bridge cables one by one by lifting-off a prestressed cable wire inside the old bridge cable from a pulling end and gradually increasing the tensile force within a yield point range of the prestressed cable wire using an inspection mechanism having a jack, an electric hydraulic pump, and an extension measuring device.SELECTED DRAWING: Figure 3

Description

The present invention relates to an old bridge cable prestress cable inspection method for inspecting an old bridge cable cable and a prestressed wire whether the tensile strength of the material satisfies a safety value.

In the conventional prestress of cable-stayed bridges, suspension bridges, arch bridges, etc., as shown in FIG. 1, the main tower 101 stands above the bridge 100, and several cables 102 are connected to the upper end and girder of the main tower 101, respectively. It is connected to the girder and hung to keep the girder in equilibrium.

In the prestressed concrete of a conventional bridge cable, a prestressed PC stranded wire (PC-Strand) is mainly embedded inside the cable to form a prestressed cable, and one PC steel stranded wire or a plurality of PCs is used. By bundling steel stranded wires to accommodate tension conditions in different working environments, the outside of the cable is usually even higher density to prevent rust and corrosion on the PC steel stranded wire. It is coated with polyethylene (HDPE, High-Density-Prestressed) tube, aluminum alloy tube, or other protective tube.

The load strength of bridge cables can be increased through simulation or practical experience at the design stage, but the installation location affects the service life due to factors such as sea breeze, strong wind, climatic environment such as heavy rain, or impact of the vehicle body. It is likely to occur, and regular inspections and repairs of bridges are indispensable for maintaining their safety and service life.

As a method for improving the safety in use of a conventional bridge, for example, as disclosed in Patent Document 1, a warning system is installed below the bridge to immediately issue a warning when a change in inclination occurs in the bridge. There is something that can be done.
Alternatively, as disclosed in Patent Document 2, a crimping grip is fixed to the PC steel stranded wire of the cable, the crimping grip is fixed to the fixing plate inside the anchor socket, and the PC steel stranded wire is fixed by a close engagement method. There is something that prevents loosening and enhances its safety.
However, maintenance of old bridges is often done only by replacing the rust-preventive grease of the cable wire, and for old bridges that have been used for 10 or 20 years or more, the actual state of cable tensile strength is unknown. There are many concerns.

Taiwan Patent Application No. M407925 Taiwan Patent Application No. 4066883

An object of the present invention is to provide a prestress cable inspection method for an old bridge cable capable of performing a safe tensile strength lift-off inspection for prestress and cord material in a cable embedded in an old bridge. be.

The invention according to claim 1 of the present application is a prestress cable inspection method for an old bridge cable, which uses an inspection mechanism including a jack, an electric hydraulic pump, and an extension amount measuring device to inspect the prestress cable wire inside the old bridge cable. By lifting off from the tension end and gradually increasing the tensile force within the yield point range of the prestressed cable wire, the old bridge cable is inspected one by one, and the soundness of the bridge cable is surely grasped. This is a prestress cable inspection method for old bridge cables, which is characterized by ensuring the safety of use of old bridge cables.

The invention according to claim 2 of the present application is a protective cap removal step of removing the protective cap provided at the end of the bridge cable to expose the prestress cable wire, and corrosion / rust of the prestress cable wire exposed to the outside. A cable wire that removes the preventive grease, selects a single prestressed cable wire, and loosens the fixing member that connects the prestressed cable wire to the fixture into which the prestressed cable wire is inserted. Installation of an inspection mechanism in which a jack is installed outside the fixing tool in the selection process, the head end of the jack is connected to the selected prestress cable wire, and the jack is connected to the electric hydraulic pump via an oil pipe. In the process and the yield point range of the prestressed cable wire to be pulled, the electric hydraulic pump is started to control the pulling of the jack to the prestressed cable wire, and the pulling force is gradually increased. This includes a tensile strength inspection step that measures the elastic limit of the stress cable wire, converts the elongation amount, and confirms whether the tensile strength of the prestress cable wire to be pulled is within the safe value range. The prestress cable inspection method for an old bridge cable according to claim 1, wherein the method is characterized by the above.

According to the third aspect of the present application, in the inspection mechanism mounting step, a jack (prestress cable puller) is mounted on the cable wire by using a fixed rack, or a single strand jack is directly mounted without using a fixed rack. The prestress cable inspection method for an old bridge cable according to claim 2, wherein the cable is attached to the cable wire.

In the invention according to claim 4 of the present application, when the fixed rack is not used, a clip provided on the surface of the fixing tool is opened, and one end of the prestress cable wire is sandwiched by a clip head of a single strand jack. A single-strand jack is connected to an electric hydraulic pump via an oil pipe, a pre-calibrated oil pressure gauge is installed at one end of the electric hydraulic pump, and an extension measuring device is installed at the rear end of the single-strand jack. The prestress cable inspection method for an old bridge cable according to claim 3, wherein the change in the elongation amount of the prestress cable wire under a set tensile force is measured.

In the invention according to claim 5 of the present application, a pressure sensor and a pressure indicator capable of displaying the pressure strength of the pressure sensor are further installed at the rear end of the elongation amount measuring device, whereby the extension amount of the prestress cable wire is provided. The prestress cable inspection method for an old bridge cable according to claim 4, wherein the tensile strength can be confirmed when the change in the pressure is measured.

The invention according to claim 6 of the present application is when the cable is a focused PC steel stranded cable and is composed of a prestressed cable wire composed of a plurality of sets of PC steel stranded wires in the cable wire selection step. The prestress cable inspection method for an old bridge cable according to claim 2, wherein the selection is made in the clockwise direction from the center to the outside.

The old invention according to claim 2 of the present application is characterized in that, in the tensile strength inspection step, when the bridge cable is a wire rope, a tensile test is simultaneously performed on the entire wire rope, according to claim 2. This is a prestress cable inspection method for bridge cables.

According to the present invention, since the prestressed cable wire of the old bridge cable is inspected one by one, the tensile capacity of each wire inside the cable can be clearly confirmed, which can be used as a reference for bridge maintenance and the soundness of the cable material can be grasped in detail. However, the safety of using old bridges can be ensured.

It is a schematic diagram of a conventional cable-stayed bridge. It is sectional drawing of the cable which concerns on embodiment of this invention. It is a flowchart of the inspection process which shows the embodiment of this invention. It is a schematic diagram of the inspection mechanism which concerns on embodiment of this invention. It is a schematic diagram of the inspection mechanism which concerns on another embodiment of this invention. It is sectional drawing of the focused type PC steel stranded cable which concerns on embodiment of this invention. It is sectional drawing of the wire rope cable which concerns on embodiment of this invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. Needless to say, the present invention is not limited to the following embodiments.

As shown in FIG. 2, in the embodiment of the present invention, in the bridge cable 200, the mantle tube 500 is installed between the fixed end 300 and the tension end 400.
The inside of the mantle tube 500 is a prestress cable (not shown), and protective caps 301 and 401, loosening prevention plates 302 and 402, fixing tools 303 and 403, and fixings are attached to the fixing portions 300A and 400A of the fixed end 300 and the tension end 400. The tool rings 304 and 404 are installed, respectively. The outside of the prestress cable wire inserted through the fixing tools 303 and 403 is coated with epoxy resin or covered with an HDPE tube, and grease is injected inside the prestress cable to prevent rust and corrosion, and the protective cap 301, Cover with 401.

The prestress cable inspection method for old bridge cables of the present invention mainly lifts off the prestress cable wires constituting the cable, for example, PC steel stranded wire, wire rope, fatigue resistant cable or carbon fiber cable one by one. Inspect whether the tensile strength of the prestressed cable wire is within the safe range.

As shown in FIG. 3, the inspection method of the present invention includes the following inspection steps.
First, in the protective cap removing step 601 the protective cap provided at the end of the bridge cable 200 is removed to expose the prestress cable wire to the outside.
Next, in the grease removing step 602, the corrosion / rust preventive grease of the prestress cable wire exposed to the outside is removed.
Next, in the cable wire selection step 603, one prestress cable wire is selected, and the fixing member for connecting the one prestress cable wire and the fixing tool into which the prestress cable wire is inserted is loosened.
In the next inspection mechanism mounting step 604, the fixing rack 6A (see FIG. 4) is mounted on the outside of the fixing tool. Further, the jack (prestress cable puller) 6B is installed on the fixed rack 6A, and the head end of the jack (prestress cable puller) and the prestress cable wire are connected. For this coupling, a coupling member can be selected and used according to the diameter of the prestress cable wire. The jack (prestress cable puller) is connected to the electric hydraulic pump via an oil pipe, and the jack (prestress cable puller) is driven by the electric hydraulic pump to pull the prestress cable wire.
Then, in the tensile strength inspection step 605, the electric hydraulic pump is started in the yield point range of the prestressed cable wire to be pulled to control the pulling of the lift-off to the prestressed cable wire of the jack (prestress cable puller) in a stepwise manner. While increasing the tensile force, measure the elastic limit of the cable wire to be pulled, convert the elongation amount, check whether the tensile strength of the cable wire to be pulled is within the safe value range, and check the cord material. Prove that is healthy or not.

In the inspection mechanism mounting step 604, depending on the site environment of the tension end, the jack (prestress cable puller) may be mounted to the prestressed cable wire using a fixed rack, or directly without a fixed rack, single strand. It is possible to select whether to attach the jack to a prestress cable wire such as a PC steel stranded wire.

As shown in FIG. 5, in order to attach the inspection mechanism 700, a jack (single strand jack 73) is directly installed outside the cable fixing tool 71, and after opening the clip 72 provided on the surface of the fixing tool 71, the inspection mechanism 700 is attached. Directly clip one end of the PC steel stranded wire 74 with the clip head of the single strand jack 73.
The single strand jack 73 is connected to the electric hydraulic pump 75 via an oil pipe, and a pre-calibrated hydraulic gauge 76 is installed at one end of the electric hydraulic pump 75. As a result, when the electric hydraulic pump 75 is started, the single strand jack 73 can be driven to pull the PC steel stranded wire 74 with a predetermined tensile force.

An elongation measuring instrument 77 can be installed at the rear end of the single strand jack 73. The elongation amount measuring instrument 77 measures the change in the elongation amount under the set tensile force of the PC steel stranded wire 74, and determines whether or not the strength of the force received by the PC steel stranded wire 74 is within the safe range. Can be used for
Further, a pressure sensor 78 and a pressure indicator 79 capable of displaying the pressure strength of the pressure sensor 78 can be further installed at the rear end of the extension amount measuring device 77. As a result, when measuring the change in the elongation amount of the PC steel stranded wire 74, the tensile strength can be confirmed at the same time.

After completing the first-stage wire tensile test, another prestress cable wire is selected again, and the tensile strength test is performed on the other prestress cable wire again with a jack (prestress cable puller).
Taking the case where each prestressed cable wire is a high tensile strength PC steel stranded wire of 22-15 0.2 mmФ, at the time of initial design, the cable is used only up to 0.4 fs, and fs is the ultimate strength. = 19 t / cm ² and can be repeatedly tested within the range of 0.7 fs, once it is found that the old cable cannot withstand the load or the elongation exceeds the safe range. It is determined that repair is necessary immediately.

In the prestress cable inspection method for an old bridge cable of the present invention, in the cable wire selection step 603, taking the focused steel stranded cable 800 as shown in FIG. 6 as an example, the prestress cable composed of 21 sets of PC steel stranded wires is used as an example. It is composed of wires, and it is preferable to select prestressed cable wires one by one in the clockwise direction from the center to the outside during inspection.
Taking the wire rope 900 as shown in FIG. 7 as an example, the wire rope 900 is selected as one prestress cable wire in the cable wire selection step 603, and then the jack is connected to the wire rope 900 in the inspection mechanism mounting step 604. It is preferable that the subsequent tensile strength inspection step 605 is further performed, and in the tensile strength inspection step 605, a tensile test is simultaneously performed on the entire wire rope 900.

The above description is the best concrete embodiment of the present invention, and all modifications that do not deviate from the gist of the present invention are included in the scope of rights of the present invention.

100 Bridge 101 Main tower 102 Cable 200 Bridge cable 300 Fixed end 400 Pulling end 500 Mantle tube 300A, 400A Fixing part 301, 401 Protective cap 302, 402 Loosening prevention plate 303, 403 Fixing tool 304, 404 Fixing tool ring 601 Protective cap removal Process 602 Grease removal process 603 Cable wire selection process 604 Inspection mechanism installation process 605 Tensile tensile strength inspection process 6A Fixed rack 6B Jack (prestress cable puller)
700 Inspection mechanism 71 Fixture 72 Clip 73 Single strand jack 74 PC steel stranded wire 75 Electric hydraulic pump 76 Hydraulic gauge 77 Elongation measuring instrument 78 Pressure sensor 79 Pressure indicator 800 Focused PC steel stranded cable 900 Wire rope

Claims (7)

This is a prestress cable inspection method for old bridge cables. Using an inspection mechanism equipped with a jack, an electric hydraulic pump, and an extension measuring instrument, the prestress cable wire inside the old bridge cable is lifted off from the tension end, and the prestress is lifted off. By gradually increasing the tensile force within the yield point range of the cable wire, the old bridge cable is inspected one by one, and the soundness of the bridge cable is surely grasped, so that the safety of using the old bridge cable is safe. Prestress cable inspection method for old bridge cables, which is characterized by ensuring. The protective cap removal process, which removes the protective cap provided at the end of the bridge cable to expose the prestress cable wire,
A grease removal process that removes corrosion and rust preventive grease from externally exposed prestress cable wires,
A cable wire selection process that selects one prestress cable wire and loosens the fixing member that connects the prestress cable wire and the fixing tool into which the prestress cable wire is inserted.
An inspection mechanism mounting process in which a jack is installed outside the fixture, the head end of the jack is coupled to the selected prestress cable wire, and the jack is connected to the electric hydraulic pump via an oil pipe.
In the yield point range of the prestress cable wire to be pulled, the electrohydraulic pump is started to control the pulling of the jack to the prestress cable wire, and the pulling force is gradually increased while the prestress cable wire is pulled. The tensile strength inspection process, which measures the elastic limit of the pump, converts the elongation amount, and confirms whether the tensile strength of the prestressed cable wire to be pulled is within the safe value range.
The prestress cable inspection method for old bridge cables according to claim 1, wherein the methods are included in this order. In the inspection mechanism mounting process, the jack (prestress cable puller) is attached to the cable wire using a fixed rack, or the single strand jack is directly attached to the cable wire without using the fixed rack. The prestress cable inspection method for old bridge cables according to claim 2. When the fixing rack is not used, the clip provided on the surface of the fixing tool is opened, one end of the prestress cable wire is pinched by the clip head of the single strand jack, and the single strand jack is passed through the oil pipe. Connected to the electro-hydraulic pump, a pre-calibrated hydraulic gauge was installed at one end of the electro-hydraulic pump, an elongation measuring instrument was installed at the rear end of the single strand jack, and the prestress cable wire was set. The prestress cable inspection method for an old bridge cable according to claim 3, wherein the change in the amount of elongation under tensile force is measured. A pressure sensor and a pressure indicator capable of displaying the pressure strength of the pressure sensor are further installed at the rear end of the elongation amount measuring device, whereby when measuring the change in the extension amount of the prestress cable wire, the tensile strength thereof is measured. The prestress cable inspection method for an old bridge cable according to claim 4, wherein the strength can be confirmed. In the cable wire selection step, when the bridge cable is a focused PC steel stranded cable and is composed of a prestress cable wire composed of a plurality of sets of PC steel stranded wires, the direction is clockwise from the center to the outside. The prestress cable inspection method for an old bridge cable according to claim 2, wherein the prestress cable wire is selected. The prestress cable inspection method for an old bridge cable according to claim 2, wherein in the tensile strength inspection step, when the bridge cable is a wire rope, a tensile test is simultaneously performed on the entire wire rope.

Images