JPH06117103A - Method and device for releasing tension of pc outer cable - Google Patents

Abstract

PURPOSE:To replace a PC outer cable easily by continuously passing the PC cable through a heating furnace controllable at a fixed temperature and lowering yield strength to specified strength or less. CONSTITUTION:A tension releasing device is composed of a heating furnace 30 heating a PC cable 10, a sensor 41 detecting the temperature of the PC cable 10 and a controller 40 heating and keeping the PC cable at a temperature, where tension is released. Temperature control is set at a temperature of approximately 600 deg.C, where the yield strength of the PC cable 10 reaches approximately 20kg/mm<2> or less, the temperature is elevated gradually, the temperature is measured by the sensor 41, and a measured value is input to the controller 40. When the temperature reaches a set temperature, a burner 31 is adjusted through a fuel adjusting valve 34, an air adjusting valve 37 and a gas mixer 32 by the command of the controller 40, and the furnace temperature of the heating furnace 30 is controlled.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cable replacement technique for a PC structure in which a PC cable is stretched outside the concrete of the structure.

[0002]

2. Description of the Related Art In a PC structure, a method of constructing a PC structure by using a PC outer cable to reduce the number of PC cables buried in concrete has many advantages. For example, (a) by keeping the PC cables arranged in the concrete to a minimum, it is not necessary to arrange an extra sheath, and concrete placing is significantly facilitated. (B) High-quality solid concrete can be obtained, the strength of the structure can be improved, and the member thickness can be reduced. Therefore, the structure is lightweight, which is preferable. (C) The PC cable in the concrete can be limited to a straight one, which reduces the friction loss of the PC cable.
Cable insertion and installation will be significantly easier. (D) The cable outside the PC is easy to inject and manage the grout, and further, without damaging the structure,
It is also possible to replace only one of the many external PC cables.

2 and 3 illustrate a part of a bridge girder 50 using such an external PC cable. Figure 2
FIG. 3 shows a longitudinal section of a part of the PC bridge girder 50, and a sectional view taken along the line AA and a sectional view taken along the line BB thereof. The left half of FIG. 3 is a sectional view taken along the line AA, and the right half is a sectional view taken along the line BB. The PC bridge girder 50 has an inner PC cable 52 arranged in a concrete cross section 51 and an inner box 53 of the PC bridge girder.
An external PC cable 54 is provided inside. Since the number of PC cables 52 to be arranged in the concrete is small, the cross-sectional area of the concrete can be made small and the concrete skeleton becomes lightweight. In this way, by providing the cable 54 outside the PC in the box girder, it is possible to easily design a light and long bridge girder with a reduced amount of concrete in the girder. Also, P in the bridge girder
The C outer cable 54 is sealed by the outer sheath, and its management is easy.

There are several methods for replacing the existing external PC cable 54, but it is necessary to first release the tension.
The most popular and cheap cement grout type and wedge fixing type external cable for PC cannot release the tension by using a jack. There is also a method of cutting the cable outside the PC with a knife or the like, but it is extremely dangerous. In foreign countries, it has been reported that flammable gas is used to heat the cable outside the PC to remove its tension, but it is not concrete.
If it is heated unnecessarily, the risk of disconnecting the cable outside the PC is a serious problem. Moreover, using an open gas burner in a box girder poses a risk of oxygen shortage and carbon monoxide poisoning, and sufficient ventilation is necessary to prevent this. Furthermore, since the work at hand is a work at a short distance of the tension release cable, there is a risk in the unlikely event.

[0005]

SUMMARY OF THE INVENTION The present invention solves the above problems, and safely and easily releases the tension of the cable outside the PC,
It is an object of the present invention to provide a method and a device capable of easily replacing an external C cable.

[0006]

According to the present invention, when releasing the tension of an existing PC cable, the effective length of tension transmission at a planned processing position is estimated, and a portion of the effective length having a constant length is estimated. The yield strength of the PC cable is 20 kg / m
A tension releasing method for a cable outside a PC, which is characterized by uniformly heating to a strength lowering temperature of m ² or less and subjecting the heating portion to yield elongation. Here, the effective length of tension transmission means the length of the range in which the stress releasing effect from the heating position of the existing external PC cable to be stress released extends. In the existing cable outside the PC, the propagation of the tension does not necessarily reach the entire length of the cable and remains within a partial length range due to the bending and the constraint due to the frictional force of the adhesive force between the cable and the grout or the like. This effective tension transmission length can be estimated according to the installation conditions of the existing PC external cable.

In the present invention, the strength lowering temperature means that the yield strength of the PC cable is 20 kg / mm ² or less,
It is preferably the temperature at which only the residual tension due to the weight of the PC cable is left. The apparatus of the present invention capable of suitably carrying out the above-mentioned method of the present invention includes a heating section fitted onto a PC cable, a detector for detecting the temperature of the PC cable in the heating section, and a temperature detected by the detector. Is composed of a control unit for controlling heating so that the set temperature in the range of the strength lowering temperature is asymptotically reached from the low temperature side of the set temperature.
Such a tension releasing device for a cable outside a PC may be a split cylindrical electric heater in which the heating portion is fitted onto the PC cable, or as a heater equipped with a burner for gas fuel, liquefied petroleum gas fuel, or liquid fuel. Good. The point is that the controller is P
The temperature of the C outer cable is controlled so as to reach the set temperature at the time of asymptotic operation from below. Otherwise, the cable outside the PC may be broken.

[0008]

The principle and operation of the present invention will be described. FIG. 1 shows the relationship between the temperature and the strength and elongation of the PC cable. The yield strength of the PC cable decreases with increasing temperature, as shown by curve 100. On the other hand, when the temperature of the PC cable having a certain value of the initial introduced stress (tension per unit cross-sectional area) is increased, the stress is slightly decreased due to the initial thermal expansion, but the value is almost constant as shown by the curve 101. .
When the temperature is further increased and the introduced stress reaches the above-mentioned yield strength indicated by the curve 100, the PC cable yields and coincides with the yield strength curve 100.

On the other hand, when a portion of the PC cable, for example, a portion having a length of 50 cm, is heated, the PC cable is curved.
As shown in 2, elongation at break occurs. When the length of the temperature rising portion of the PC cable is 20 cm, the PC cable breaks at the breaking elongation shown by the curve 103. For a PC cable having an effective tension transmission length of 30 m, the yield elongation of the PC cable is as shown by curve 104. When the breaking elongation is larger than the yield elongation, the PC cable causes the yield elongation without breaking and the tension is released. This yield-free yield elongation depends on the ratio of the effective tension transmission length of the PC cable and the heating length of the PC cable. The value of this ratio is that if the heating length is a fixed length of the effective tension transmission length, for example, 1% or more, the PC cable is extended by yield elongation without breaking, and the effective tension transmission length is increased. The internal tension is released and only the residual tension due to its own weight is reached.

In the example shown in FIG. 1, the temperature at which the yield strength of the PC cable becomes 20 kg / mm ² or less is about 600 ° C., and at 600 ° C. or more, the yield strength further decreases. In the present invention, the yield strength of this PC cable is 20 kg / mm.
^The temperature at which the temperature is ² or less is referred to as the strength reduction temperature, and can be determined by an experiment according to the PC steel wire. By uniformly heating the strength lowering temperature so as to reach from the low temperature side, the tension release of the PC outer cable of the present invention can be realized.

Based on this principle, the present invention heats a portion of a certain length within the effective transmission length of tension. This fixed length is dangerous, for example, when the effective tension transmission length is less than 1%, the yield elongation causes a break before the tension is released. The longer the upper limit, the safer it is, but it is not preferable because the heating device becomes too large and the practicability becomes poor. The device of the present invention safely achieves tension release using a heating device that fits over the cable with a heating section consisting of an electric heater or a combustion burner. Therefore, it is important to detect the temperature of the cable outside the PC and perform heating control so that the detected temperature asymptotically reaches the set temperature from the low temperature side of the set temperature. By this control, the tension can be safely released without causing a breakage accident or the like of the cable outside the PC.

[0012]

EXAMPLE An example of the apparatus of the present invention is shown in FIGS. This device comprises a cylindrical heater 1, a heat insulating material 2, a casing 3, and a temperature sensor 4, and is divided into two parts. Casing 3
Are vertically connected by a hinge 6 and a buckle 7, and the upper half can be rotated by the handle 5. A leg 8 is attached to the lower half.

The cylindrical heater 1 has an inner diameter that fits over the PC cable 10 and has a cylindrical length of about 300 mm. The PC cable 10 is intended for a diameter of 70 mm, and the inner diameter of the cylindrical heater 1 is 76 mm. As shown in FIG. 6, the ceramic cylindrical heater support 20 has a coil heater 2KW × 2 built in a slot 21 having a slit-shaped opening on the inner diameter side.

As the heat insulating material 2, asbestos or glass wool having a thickness of 25 mm is used. The casing 3 has a cylindrical shape surrounding the heat insulating material, and cable insertion holes are opened at both end surfaces of the cylinder. The casing has a hinge and a coupling buckle for splitting a 3.2 mm steel plate into two pieces, and has a handle and a leg made of a heat insulating pipe. The temperature sensor 4 detects the temperature of the cable 10 outside the PC and controls the controller of the heater power supply (not shown). This control is performed so that the temperature of the cable 10 outside the PC approaches the set temperature from the low temperature side. Since this embodiment uses an electric furnace, there is no need for ventilation and remote control is possible, so the safety is extremely high.

The actual applicability of the present invention has been demonstrated by a model experiment in which an actual cable is strained and heated in the electric furnace of the embodiment. FIG. 7 is a flow sheet showing the configuration of an example apparatus using a gas heating furnace for carrying out the method of the present invention. The gas heating furnace 30 surrounds a fixed length of the cable 10 outside the PC and has a gas burner 31 inside. A mixed gas of combustion gas and air is sent from the combustion gas mixer 32 to the gas burner and is ignited by the ignition switch 42. For example, LPG gas is sent from the gas fuel tank 33 to the combustion gas mixer 32 by a pipe 35, while air is sent from an air fan 36 through an air pipe 38. City gas or the like may be used as the gas fuel, and a Bunsen burner or the like may be used instead of the combustion gas mixer.

The temperature sensor 41 measures the temperature of the heating portion of the external PC cable 10 and inputs the measured value to the controller 40.
Based on the signal from the temperature sensor 41, the controller 40 determines whether the PC
The outer cable 10 is gradually heated to the set temperature so as to approach from the low temperature side. The controller 40 uses the fuel gas regulating valve 34
The air amount adjusting valve 37 is controlled to control an appropriate amount of fuel and an air-fuel ratio. The heated exhaust gas is guided and exhausted to the outside by the exhaust pipe 39.

[0017]

According to the method of the present invention, the tension of the existing cable outside the PC can be safely released, and the work of replacing the cable outside the PC one by one can be easily performed. The apparatus of the present invention can safely and suitably carry out the above method.

[Brief description of drawings]

FIG. 1 is a graph showing yield strength, yield elongation, and elongation at break with respect to temperature of a PC cable.

FIG. 2 is a partial vertical cross-sectional view of a PC concrete bridge girder using an external PC cable.

3 is a sectional view taken along the line AA and a sectional view taken along the line BB of FIG.

FIG. 4 is a front view of an apparatus according to an embodiment of the present invention.

FIG. 5 is a side view of an apparatus according to an embodiment of the present invention.

FIG. 6 is a perspective view of a heater of an apparatus according to an embodiment of the present invention.

FIG. 7 is a flow sheet of an apparatus according to another embodiment of the present invention.

[Explanation of symbols]

1 Cylindrical Heater 2 Heat Insulation Material 3 Casing 4 Temperature Sensor 5 Handle 6 Hinge 7 Buckle 8 Leg 10 PC Cable 20 Heater Support 21 Slot 30 Gas Heating Furnace 31 Gas Burner 32 Combustion Gas Mixer 33 Fuel Tank 34 Regulator Valve 35 Piping 36 Air Fan 37 Adjustment Valve 38 Air Pipe 39 Exhaust Pipe 40 Controller 41 Temperature Sensor 42 Ignition Switch

Front Page Continuation (72) Inventor Toshiyuki Okazawa 3-4-1, Marunouchi, Chiyoda-ku, Tokyo Inside PS Corporation

Claims (4)

[Claims] 1. When releasing the tension of an existing PC cable, an effective length of tension transmission at a planned processing position is estimated, and a portion of the effective length of the constant length is yielded by the PC cable. A tension releasing method for a cable outside a PC, which comprises uniformly heating to a strength lowering temperature at which the strength is 20 kg / mm ² or less, and subjecting the heating portion to yield elongation. 2. A heating section fitted onto a PC cable, a detector for detecting the temperature of the PC cable in the heating section, and a detected temperature asymptotically approaching a set temperature within a range of strength reduction temperature from a low temperature side of the set temperature. A tension releasing device for a cable outside a PC, comprising: 3. The tension releasing device for a cable outside a PC according to claim 2, wherein the heating portion is a split cylindrical electrothermal heater fitted onto the PC cable. 4. The heating unit is a gas fuel, a liquefied petroleum gas fuel,
3. The tension releasing device for a cable outside a PC according to claim 2, wherein the heater is provided with a burner for liquid fuel.