JP2017014810A - Tensioning-force automatic-regulation type pre-tensioning device and pre-tensioning method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable the same automatic regulation of tensioning forces of a large number of PC steel materials without reference to generation of deformation such as the deflection and elongation of a tension beam loaded with the tensioning force when the PC steel material is tensioned.SOLUTION: A tensioning-force automatic-regulation type pre-tensioning device of the present invention includes a tension automatic-regulation mechanism in which a plurality of hydraulic tuning cylinders 16 fixed to an end of a PC steel material 13 are juxtaposed on a tension beam 15 and connected together via a communication pipe 30 for bringing cylinder chambers 26 of the adjacent hydraulic tuning cylinders 16 into conduction.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a pretensioning device and a pretensioning method for automatically adjusting tension used for producing prestressed concrete in which compressive stress is applied to concrete.

  Prestressed concrete is concrete that has been pre-stressed. Concrete is inherently disadvantageous in that it is strong against compression but weak in tension, and prestressed concrete has been developed to overcome this shortcoming of concrete.

  In the prestressed concrete, even if tensile stress due to load is applied, it is canceled out by the compressive stress given in advance, so that the concrete structure using this can be made to have a strong durability. Prestressed concrete with such features is widely used in advanced concrete structures such as high-rise building floors, earthquake-resistant structures, bridge decks, marine structures such as breakwaters, and even reactor containment vessels. ing.

  In order to give compressive stress to the concrete, the steel cord called PC steel is put in a tensioned state with a hydraulic jack or the like, and the concrete is placed. When the concrete hardens, the PC steel material shrinks and compressive stress is applied to the concrete. As a conventional technique for producing prestressed concrete by such a method, for example, a pretension device described in Patent Document 1 can be cited.

  Here, FIG. 5 is a diagram showing an outline of a conventional pretensioning device. In FIG. 5, reference numeral 10 denotes a fixed reaction table. Reference numerals 12 a and 12 b indicate hydraulic jacks that tension the PC steel material 13. The hydraulic jacks 12a and 12b are fixed to the reaction force base 10 via reaction force receiving members 14a and 14b, and press both ends of the tension beam 15.

  A large number of PC steel members 13 are prepared according to the size of the prestressed concrete structure 20. One end of the PC steel member 13 is fixed to the reaction table 10 and the other end is attached to the tension beam 15. It is fastened by a tool 16.

JP 2001-310318 A

  However, in the conventional pretensioning device, when both ends of the tension beam 15 are pushed out by the hydraulic jacks 12a and 12b and the PC steel material 13 is tensioned, both ends of the tension beam 15 are pushed more as shown in FIG. The center part of the tension beam 15 is bent so as to be recessed.

  When such a bending of the tension beam 15 occurs, the PC steel material 13 closer to the end of the tension beam 15 is stretched with a larger force, and the PC steel material 13 in the center is less stretched and the tension force is relatively smaller. It will decline.

  In tension work when prestressed concrete is pre-tensioned, management of the elongation of PC steel, in other words, management of tension of PC steel is very important. This is because if there is variation in the elongation of the PC steel material, it becomes impossible to produce a prestressed concrete structure having a uniform compressive stress.

  Conventionally, large and highly rigid beam members have been used in order to make the bending amount of the tension beam very small within an allowable range. However, under severe conditions regarding the rigidity of the beam member, various shapes and sizes can be used. It is difficult to design with a degree of freedom so that it can be applied to any prestressed concrete structure.

  On the other hand, instead of using a large and highly rigid beam member, tension each PC steel with a separate hydraulic jack and control each hydraulic pump that sends pressure oil to each hydraulic jack to equalize the tension force However, there is a problem that the hydraulic jack system is large and complicated.

  Therefore, the object of the present invention is to solve the problems of the prior art, and a large number of wires regardless of the occurrence of deformation such as bending or stretching of the tension beam on which the tension force is loaded when the PC steel material is tensioned. An object of the present invention is to provide a pretensioning device and a pretensioning method that can automatically adjust the PC steel material tension force.

In order to achieve the above object, the invention according to claim 1 hangs a plurality of PC steel materials between a fixed-side reaction force receiving structure and a tension beam on which tension force is loaded, In the pretensioning device for producing a prestressed concrete structure by providing tensioning means for tensioning the PC steel material on the tension beam side and placing concrete in a state where the PC steel material is tensioned,
A plurality of hydraulic tuning cylinders to which the ends of the PC steel material are fixed are arranged in parallel on the tension beam, and the hydraulic tuning cylinders are connected via a communication pipe that connects the cylinder chambers of the adjacent hydraulic tuning cylinders. It comprises an automatic tension adjusting mechanism formed by connecting them together.

It is a top view which shows one Embodiment of the tension force automatic adjustment type pretension apparatus by this invention. It is a top view which shows the state which the tension | tensile_strength automatic adjustment type pretension apparatus of FIG. It is a longitudinal section showing a hydraulic tuning cylinder with which a tension automatic adjustment type pretensioning device by an embodiment of the present invention is provided. It is a longitudinal cross-sectional view which shows the other example of a hydraulic tuning cylinder. It is a top view which shows the conventional tension | pulling force automatic adjustment type pretension apparatus. It is a top view which shows the state which tension | tensile_strength automatic adjustment type pretension apparatus of FIG. 5 tensioned PC steel materials.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a tension force automatic adjustment type pretensioning apparatus and a pretensioning method according to the present invention will be described with reference to the accompanying drawings.

  In FIG. 1, reference numeral 10 indicates a fixed-side reaction table. Reference numerals 12 a and 12 b indicate hydraulic jacks for tensioning the PC steel material 13. In order to press the left and right ends of the tension beam 15 on which the tension force is loaded, a pair of hydraulic jacks 12a and 12b are fixed to the reaction force base 10 side via the reaction force receiving members 14a and 14b.

  Although many PC steel materials 13 are prepared according to the magnitude | size of the prestress concrete structure 20, in this embodiment, the five PC steel materials 13 are shown simply. One end of the PC steel material 13 is fixed to the reaction force base 10, and the other end is connected to a hydraulic tuning cylinder 16 attached to the tension beam 15. A space is secured between the reaction table 10 and the tension beam 15, and a formwork for placing the prestressed concrete structure 20 is assembled therein. Each PC steel material 13 is stretched over the formwork.

  The hydraulic tuning cylinder 16 is a cylinder for synchronizing the PC steel materials 13 so that they all have the same tension. As the hydraulic tuning cylinder 16, hydraulic cylinders of the same specification, all of which have the same pressure receiving area, are used. Here, when it is necessary to distinguish between the hydraulic tuning cylinders 16, # 1 to # 5 will be given and distinguished.

  Next, FIG. 3 is a view showing a longitudinal section of the hydraulic tuning cylinder 16. In this embodiment, in order to insert the PC steel material 13, the hydraulic tuning cylinder 16 is configured as a hollow cylinder as follows.

  In FIG. 3, the rod 21 and the piston 22 are formed so as to form a hollow shape coaxially. A cylindrical portion 24 is coaxially formed inside the cylinder tube 23, and the piston 22 and the rod 21 are slidably fitted to the cylindrical portion 24 inside the cylinder tube 23. The PC steel material 13 is inserted through the inside of the cylindrical portion 24 and the rod 21. The distal end portion of the PC steel material 13 is fixed to the distal end portion of the rod 21.

  In such hydraulic tuning cylinders # 1 to # 5, the cylinder chamber 26 of each hydraulic tuning cylinder 16 communicates with the cylinder chamber 26 of the adjacent hydraulic tuning cylinder 16 via a communication pipe 30. Yes. Pressure oil is supplied to the # 1 hydraulic tuning cylinder 16 located at the end from a hydraulic pump (not shown) via a direction switching valve.

  When the cylinder chambers 26 of all the hydraulic tuning cylinders # 1 to # 5 are filled with pressure oil, all the units are connected and the pressure receiving area of the piston 22 is the same. The force with which the tuning cylinder 16 tensions the PC steel material 13 is the same.

  As the hydraulic tuning cylinder 16 as described above, a twin cylinder type cylinder as shown in FIG. 4 may be used instead of the hollow cylinder. The twin-cylinder cylinder 40 includes two cylinder tubes 41a and 41b arranged in parallel. The cylinder tubes 41 a and 41 b are provided with pistons 42 a and 42 b, and the piston rods 43 a and 43 b are connected by a connecting member 44. The PC steel material 13 is fixed to the connecting member 44 through the cylinder tubes 41a and 41b.

  The hydraulic tuning cylinder 16 may have a slight error in output even if pressure oil of the same pressure is supplied due to manufacturing errors and the like. Is preferred.

  The tension force automatic adjustment type pretensioning device according to the present embodiment is configured as described above. Next, a pretensioning method using the hydraulic tuning cylinder 16 in a passive manner will be described.

  First, in FIG. 1, the hydraulic jacks 12 a and 12 b are operated, both ends of the tension beam 15 are pushed out, and the PC steel material 13 is tensioned. In this embodiment, since the hydraulic tuning cylinder 16 functions passively, the PC steel material 13 is tensioned by the hydraulic jacks 12a and 12b. At the same time or thereafter, pressure oil is supplied to all the hydraulic tuning cylinders 16 from # 1 to # 5, and the tension is synchronized as follows.

  As shown in FIG. 2, the tension beam 15 is bent such that both ends thereof are pressed and the central portion is recessed as a whole. As shown in FIG. 6, when the hydraulic tuning cylinder 16 is not provided, the PC steel material 13 closer to the end of the tension beam 15 is tensioned with a larger force, and the steel cord 15 at the center is less stretched. The tension will be relatively reduced.

  On the other hand, in this embodiment, since the end of the PC steel material 13 is connected to the tension beam 15 via the hydraulic tuning cylinder 16, the tuning of the hydraulic tuning cylinder 16 is performed when the PC steel material 13 is in tension. The function works, and the tension force of the PC steel material 13 can be all automatically adjusted regardless of the bending of the tension beam 15.

  That is, the cylinder chambers 26 of all the hydraulic tuning cylinders # 1 to # 5 are connected to each other through the communication pipe 30, and the pressure receiving area of the piston 22 is the same. The force with which the type tuning cylinder 16 tensions the PC steel 13 is the same.

  Here, s indicates the elongation of the PC steel material 13 due to tension. In the # 1 and # 5 hydraulic tuning cylinders 16 at the end of the tension beam 15, the stroke of the piston 22 is reduced as compared to the # 2, # 3 and # 4 hydraulic tuning cylinders 16. In this way, the stroke is automatically adjusted in each hydraulic tuning cylinder 16 so that the same tension is applied to all the PC steel materials 13. As a result, as shown in FIG. 2, the positions of the tips of the PC steel materials 13 held by the hydraulic tuning cylinder 16 are aligned, and the elongation s is the same for all the PC steel materials 13, so that the tension is also the same. Become.

  Moreover, since such a tuning function of the hydraulic tuning cylinder 16 works regardless of the occurrence and degree of bending of the tension beam 15, it is necessary to use a large beam member with high rigidity for the tension beam 15 as in the prior art. This allows a flexible design of the pretensioning device.

  Further, even if the tension beam 15 is bent, it is not necessary to perform a correction calculation of the tension force of the PC steel material 13, and the hydraulic tuning cylinder 16 also has a load cell function. Can be easily obtained.

  As described above, when the PC steel material 13 is kept in a tensioned state, a mold (not shown) is assembled and the concrete structure 20 is placed. Then, the concrete is cured while the PC steel 13 is kept in tension. When the curing is over, release the tension.

  The embodiment described above is an embodiment in which the hydraulic tuning cylinder 16 is passively operated. However, the hydraulic tuning cylinder 16 can also be operated in an active manner. Any of the formulas can be selected.

  In the case of the active type, instead of tensioning the PC steel material 13 with the hydraulic jacks 12a and 12b, the PC steel material 13 is directly tensioned with the hydraulic tuning cylinder 16, respectively. Even in that case, the tension of all the PC steel materials 13 is the same as in the passive type.

  The tension force automatic adjustment type pretensioning device and the pretensioning method according to the present invention have been described with reference to the preferred embodiments. However, the present invention is not limited to the embodiments, and for example, an existing structure Various design changes, such as replacing the reaction table, are possible.

  DESCRIPTION OF SYMBOLS 10 ... Reaction force stand, 12a, 12b ... Hydraulic jack, 13 ... PC steel, 14a, 14b ... Reaction force cradle, 15 ... Tension beam, 16 ... Hydraulic straight cylinder, 20 ... Pre-stress concrete structure, 21 ... Rod, 22 ... Piston, 23 ... Cylinder tube, 24 ... Cylindrical part, 26 ... Cylinder chamber, 40 ... Cylindrical cylinder

In order to achieve the above object, the invention according to claim 1 hangs a plurality of PC steel materials between a fixed-side reaction force receiving structure and a tension beam on which tension force is loaded, In the pretensioning device for producing a prestressed concrete structure by providing tensioning means for tensioning the PC steel material on the tension beam side and placing concrete in a state where the PC steel material is tensioned,
A plurality of hydraulic tuning cylinders to which the ends of the PC steel material are fixed are arranged in parallel on the tension beam, and the hydraulic tuning cylinders are connected via a communication pipe that connects the cylinder chambers of the adjacent hydraulic tuning cylinders. Ri Na connected to each other, wherein the stroke of each hydraulic tuning cylinder in response to deflection of the tension beam is characterized in that comprises a frettage tension automatic adjustment mechanism is automatically adjusted.

Claims (4)

A plurality of PC steel materials are stretched between the reaction force receiving structure on the fixed side and the tension beam on the side on which the tension force is loaded, and tension means for tensioning the PC steel material is provided on the tension beam side, In a pretensioning device for producing a prestressed concrete structure by placing concrete in a state where PC steel is in tension,
A plurality of hydraulic tuning cylinders to which the ends of the PC steel material are fixed are arranged in parallel on the tension beam, and the hydraulic tuning cylinders are connected via a communication pipe that connects the cylinder chambers of the adjacent hydraulic tuning cylinders. An automatic tension adjusting type pretensioning device comprising an automatic tension adjusting mechanism formed by connecting each other.   The tension force automatic adjustment mechanism according to claim 1, wherein the tension force automatic adjustment mechanism is a passive tension automatic adjustment mechanism that performs tension of the PC steel material with a hydraulic jack that presses both ends of the tension beam. Adjustable pretensioning device.   2. The automatic tension force adjusting type pre-tension according to claim 1, wherein the tension force automatic adjusting mechanism is an active tension automatic adjusting mechanism for directly tensioning the PC steel with the hydraulic tuning cylinder. apparatus.   Using the self-adjusting pretension device according to any one of claims 1 to 3, placing concrete between the reaction force receiving structure and the tension beam in a state where the PC steel material is tensioned. A pretensioning method characterized by.

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