JP2017141570A - Structure of metallic ground anchor using pc steel strand coated with epoxy resin, production method and installation method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To dispense with supply of rustproof materials for corrosion protection after constructing a ground anchor in a face of slope and eliminate the need for maintenance by achieving corrosion resistance and long-term fixability, so-called maintenance free and extend its life, concerning a metallic ground anchor, a production method and an installation method.SOLUTION: An anchor body part 2, a tensile part 3 and an anchor head part 4 are formed by a tendon 1 made of PC steel strands coated with epoxy resin. A stainless-steel restricted type spiral spacer 5 is fitted to an anchor body part 2, and an end cap 6 is covered on the tip of the spiral spacer. A polyethylene sheath 7 is coated in a tensile part 3, and a tendon grip 8 made of stainless steel or galvanization is fitted to the anchor head 4. A fixing filler 9 having high fixing power and fixing strength to the tendon in the tendon grip is filled and cured.SELECTED DRAWING: Figure 1

Description

  The present invention relates to the structure of a metal ground anchor and its installation method, and after constructing the ground anchor on the slope surface, it is not necessary to replenish rust preventives for corrosion prevention, and to achieve corrosion resistance and long-term fixability, The purpose is so-called maintenance-free and longer life, which does not require maintenance.

  In general, metal ground anchors used to prevent the collapse of the surface layer and the rocks, the anchor body part is applied to the tensile force applied to the tensile member made of PC steel wire by the adhesion resistance force between the tensile member and the grout material. There are known adhesion transfer methods for transmitting to the skin.

(1) Creep displacement due to splitting of anchor body and construction cost The structure of the anchor body part of the adhesion transfer method is that when a tensile force is applied to a tensile member made of PC steel wire, a crack crack develops in the surrounding grout. There is a problem that the adhesion portion between the tensile member and the grout gradually breaks down and the creep property is pulled out, and improvement at a low cost is demanded.

(2) Corrosion of anchor head and construction cost The structure of the metal ground anchor head is to fix a tensile member made of PC steel wire with a wedge and to prevent corrosion around it with a rust prevention material and a protective cap. In addition to the method, a method is known in which a steel pipe is press-bonded to a tension member, a screw is cut and fixed with a nut, and the periphery thereof is anticorrosive with a rust preventive material and a protective cap. However, when the vicinity of the anchor head is submerged for a long time due to spring water from the ground, it is difficult to block water, and deterioration of the rust preventive material proceeds. For this reason, even if a wedge and a resin-coated PC steel strand are used, since the resin is broken in the portion of the PC steel that is held by the wedge or the wedge, the progress of corrosion cannot be avoided. In addition, the method of fixing with the nut has a problem that the corrosion of the screw portion proceeds, and even when stainless steel or the like is used for the screw portion steel pipe, the potential difference between dissimilar metals at the crimping portion with the PC steel strand. Therefore, the progress of corrosion is inevitable. There is a need to improve the anchor head corrosion at a low cost.

(3) Maintenance work The metal ground anchor constructed on the slope surface is required to be maintained and managed against deterioration of anchorage anchorage and corrosion of the anchor head over time, but the steep slope surface. Maintenance / inspection work, etc. is always dangerous and needs to be improved.

Japanese Patent Laid-Open No. 2015-229861 Registered Utility Model Gazette of Registration No. 3194214

  The invention of the above-mentioned patent document 1 and the device of patent document 2 are owned by the present applicants, and use a PC steel wire filled and coated with polyethylene resin as a tendon, and the anchor body part is a cylindrical restraint. A method of reinforcing with a mold spiral spacer is shown.

  Further, the invention of Patent Document 1 and the idea of Patent Document 2 show a method of fixing the head of the anchor head (4) to a stainless steel or galvanized cylindrical tendon grip with a fixing filler.

  In the invention of the above Patent Document 1 and the device of Patent Document 2, a method of reinforcing a anchor body portion by a cylindrical constraining spiral spacer while using a strand of PC steel filled and coated with a polyethylene resin as a tendon. However, since the polyethylene coating has a large resin deformability and a small adhesion resistance of the coating, there is still a problem that the anchor body length is increased and the construction cost is increased. Therefore, the adhesion transfer type anchor has problems in terms of creep displacement and construction cost.

  Moreover, in the invention of Patent Document 1 and the device of Patent Document 2, a PC steel wire filled and coated with polyethylene resin is used for tendons, and the head is made of stainless steel or galvanized with a fixing filler. Although a method of fixing to a cylindrical tendon grip is shown, there is still a problem that polyethylene resin has a large resin deformability and a low adhesion resistance of the coating, so that the grip length is increased and the construction cost is increased. Therefore, the structure of the metal ground anchor head has problems with respect to corrosion resistance and construction cost.

  Accordingly, the present invention is provided to solve the conventional problems and achieve the object of the invention.

  In the first aspect of the present invention, in a metal ground anchor using a PC steel stranded wire coated with an epoxy resin, an anchor body portion, a tensile portion, and an anchor head are formed with a wire tendon from a PC steel coated with an epoxy resin. A stainless steel restraint type spiral spacer is fitted to the anchor body part, a terminal cap is put on the tip of the spiral spacer, a polyethylene sheath is covered to the tension part, and a stainless steel or galvanized tendon grip is fitted to the anchor head part. Then, the tendon grip is filled and cured with a fixing filler having a high fixing force and fixing strength with respect to tendon.

  A second aspect of the present invention is a method of manufacturing a metal ground anchor using a PC steel stranded wire coated with an epoxy resin. The PC steel coated with an epoxy resin is cut into a predetermined length to form a tendon. A stainless steel tendon grip is fitted to the head, and the inside is filled with a fixing filler having high fixing force and fixing force, cured, and a polyethylene sheath is coated on the tension portion, and the anchor body portion is made of stainless steel. A constraining spiral spacer is fitted and a terminal cap is put on the end of the tendon.

  In the third aspect of the present invention, in the installation method of a metal ground anchor using a PC steel strand coated with an epoxy resin, a drilling length designed by a boring machine is drilled on the ground slope surface, After pouring cement milk to become grout for the purpose of fixing to the ground, insert a ground anchor into the drilling hole, pressurize it further and attach the anchor plate after hardening the cement milk, and fix the anchor head It is fixed to the pressure receiving plate on the slope surface while applying tension with a jack via a fixing nut.

Since the present invention uses PC steel stranded wire coated with an epoxy resin having high adhesion resistance on the tendon, and the anchor body portion is reinforced by a cylindrical constraining spiral spacer, the grout is formed on the entire anchor body portion. It has the effect of evenly filling and adhering, suppressing the development of splitting of the hardened grout, and exhibiting higher adhesion than conventional methods.
As a result, the creep resistance can be improved and the construction cost can be reduced based on the reduction of the anchor body length.

  Also, using a steel strand of PC steel coated with an epoxy resin with high adhesion resistance on the tendon, its head is fixed to a stainless steel or galvanized cylindrical tendon grip with a fixing filler. The wedge gripping part and screw part will not corrode due to deterioration of the rust preventive material or intrusion of moisture, so that permanent corrosion resistance can be obtained and construction cost can be reduced based on the reduction in grip length. Can do.

In the present invention, the metal ground anchor suppresses the development of cracking of the filled grout, and exhibits a high adhesion function with respect to the grout so that it can be fixed for a long time, and the anchor body length and the grip length are reduced. Cost can be reduced.
Furthermore, since the permanent corrosion resistance of the tension member can be obtained, maintenance-free operation and longer life can be realized by eliminating the need for inspection and repair after ground anchor construction.

It is a side view of the ground anchor structure concerning the present invention. FIG. 2 is an enlarged cross-sectional view taken along line 2-2 in FIG. It is an expanded sectional view which follows the 3-3 line of FIG. FIG. 4 is an enlarged cross-sectional view taken along line 4-4 of FIG. It is an expansion perspective view which shows a part of strand from PC steel coated with an epoxy resin. It is a figure which shows the test result of the grout adhesion strength with respect to the spiral spacer of an anchor body part. It is a strain distribution map of a tendon grip using a strand of PC steel coated with a polyethylene resin. It is a strain distribution figure of the tendon grip using the PC steel strand covered with the epoxy resin.

  An anchor body, tension, and anchor head are formed from tendon made of PC steel coated with epoxy resin, and a stainless steel constraining spiral spacer is sheathed, and a terminal cap is put on the tip, and a polyethylene sheath is applied to the tension By fitting a stainless steel or galvanized tendon grip to the anchor head, filling and curing a filler having high fixing power and fixing power in the grip, and fixing the anchor head, After constructing the ground anchor on the slope surface, it is possible to realize so-called maintenance-free operation that does not require maintenance by eliminating the need for replenishment of rust-preventive materials for rust-prevention and achieving corrosion resistance and long-term fixability.

Figure 1 shows a side view of a ground anchor structure according to the present invention, 1 is a tendon, manufactured by lines 1 ₁ PC strand coated with an epoxy resin 1 _2, anchor body the tendons, the tension member, It is constructed on the anchor head.
2 is an anchor body part, 3 is a tension part, 4 is an anchor head part, 5 is a stainless steel or galvanized restraint type spiral spacer that fits the anchor body part 2, and 6 is an anchor body part. 2 is an unbonded sheath made of polyethylene resin that covers the tension portion of the anchor, 8 is a stainless steel tendon grip that is crowned on the anchor head, and one end of the end cap of the unbonded sheath 7 Is in contact with. 9 is a fixing filler for holding the PC strand of the anchor head filled in the cylindrical cap, 10 is a ground surface of the ground, 11 is a hole drilled from the ground surface into the ground, and 12 is A grout filled in the drilling hole, 13 is a pressure receiving plate, 14 is an anchor plate, and 15 is a fixing nut. The anchor plate 14 and the fixing nut 15 are both made of the same material as the tendon grip 8. Reference numeral 16 denotes a protective cap.

2, the outer peripheral portion of the line 1 ₁ PC strand coated with epoxy resin are reinforced with a spiral spacer 5 captive, together with the corrosion resistance of the line 1 ₁ is ensured PC strand, grout split Crack Initiation us It shows that the structure suppresses.

3, there is coated an outer peripheral portion further coating of polyethylene resin unbonded sheath 7 line 1 ₁ PC strand with an epoxy resin, together with the corrosion resistance of the line 1 ₁ PC strand is secured, tension is It shows that the structure transmits to the anchor body without adhering to the grout on the outer periphery of the tension portion.

4, line 1 ₁ PC strand coated with epoxy resin, are gripped in a stainless steel tendon grip 8 through the fixing filler 9, with line 1 ₁ of the corrosion resistance is ensured PC strand This shows that the fixing device also has a corrosion resistance structure.

5, the anchor body 2, the tension member 3, the tendons 1 constituting the anchor head 4 are so as to manufacture a line 1 ₁ PC strand coated with an epoxy resin 1 _2.

  FIG. 6 shows that the test body (thick line) constrained by the spiral spacer 5 reaches a load near 500 kN, whereas the unconstrained test body (thin line) breaks when the load is about 120 kN.

Additional tendons grip 8, the loading test results, compared with the line from the coated PC steel polyethylene resin, since towards the line 1 ₁ of an epoxy resin coating 1 ₂ PC steel is large adhesion resistance, shorter length It is shown that the load is transmitted to the tendon grip (FIGS. 7 and 8). It can be considered that the load is transmitted within a range where the strain amount of the tendon grip 8 is constant.

  The fixing filler 9 is prepared by using a known manufacturing method, for example, by using a cement-like powder mainly composed of a special silicate, and mixing it in an appropriate ratio of the water fixing expansion material from the state before kneading. Make a slurry with high fluidity and material separation resistance. When this slurry is filled in a cylindrical tendon grip, after several hours, it hardens and develops an expansion pressure.

And it has the fluidity | liquidity and material separation resistance which can be filled with the filler for fixing even if there are few clearance gaps between the cylindrical tendon grip 8 of this invention and the plurality of strand tendons 1 inserted therein. After several tens of hours (several days), the one having the ability to reach 40 N / mm ² is used.
The anchor plate 14 and the fixing nut 15 are made of the same material in the case of the stainless steel tendon grip 8.

  In addition, the stainless steel restraint type spiral spacer 5 protects when the tendon is inserted, and further secures adherence to the grout 12 filled in the hole 11 and prevents splitting of the hardened grout 12. The spiral pitch (interval) is set to about 2 to 4 times the filament diameter.

"Production example of ground anchor"
(1) A tendon 1 is obtained by cutting a wire from a PC steel coated with an epoxy resin into a predetermined length.
(2) The tendon grip 8 is fitted to the anchor head 4 and the inside is filled with a fixing filler for fixing the tendon head and cured.
(3) The unbonded sheath 7 made of polyethylene resin is put on the tensile part 3 of the tendon 1.
(4) A constraining spiral spacer 5 is fitted and attached to the anchor body 2 of the tendon 1.
(5) A terminal cap 6 is put on and attached to the tip of the anchor body 2 of the tendon 1 to complete the ground anchor.

"Specific ground anchor installation process"
(1) A drilling hole 11 is provided by drilling from the ground surface 10 of the natural ground into the ground with a predetermined depth by a boring machine.
(2) Cement milk is primarily injected into the hole 11 as a grout 12 for the purpose of removing slime.
(3) Insert a ground anchor into the hole 11.
(4) Cement milk as the grout 12 is injected into the casing under pressure, and then injected into the secondary injection.
(5) After the above-described cement milk is hardened, the pressure receiving plate 13 with holes is fitted into the tendon grip 8 at the anchor head 4.
(6) The pressure plate 13 is fixed to the pressure plate 13 by fitting the anchor plate 14 and the fixing nut 15 in the order of the tendon grip 8. Finally, the protective cap 16 is put on.

  The present invention eliminates the need for crimping or wedge by using a fixing filler for tension fixing of the anchor head conventionally used in this type of anchor construction, and also coats the tendon tension part with epoxy resin. Furthermore, by fitting a spiral spacer to the anchor body, it can be used as a maintenance-free completely anticorrosive anchor as a new ground anchor that has not existed so far.

DESCRIPTION OF SYMBOLS 1 ... Tendon made from PC steel strand 1 ₁ ... PC steel strand 1 ₂ ... Epoxy resin coating 2 ... Anchor body part 3 ... Tensile part 4 ... Anchor head 5 ... Restraint type spiral spacer 6 ... End cap 7 ... Polyethylene sheath 8 ... Stainless steel or galvanized cylindrical tendon grip 9 ... Fixing filler 10 ... Slope 11 ... Hole 12 ... Groat 13 ... Pressure plate 14 ... Anchor plate 15 ... Fixing nut 16 ... Protective cap

Claims (3)

  An anchor body part (2), a tension part (3), and an anchor head part (4) are formed from a tendon made of PC steel coated with epoxy resin (1), and a stainless steel restraint type is formed on the anchor body part (2). Fit the spiral spacer (5) and put the end cap (6) on the tip of the spiral spacer, cover the tensile part (3) with the polyethylene sheath (7), and the anchor head (4) with stainless steel or zinc A PC coated with an epoxy resin, characterized in that it is fitted with a plated tendon grip (8) and filled and cured with a fixing filler (9) that has a high fixing force and fixing strength to the tendon in the tendon grip. Metal ground anchor using steel strands.   PC steel wire coated with epoxy resin is cut to a predetermined length to make a tendon (1), and a stainless steel tendon grip (8) is fitted to the anchor head, and a high fixing force and adhering force are set inside it. The fixing filler (9) having the above is filled and cured, and the tensile part (3) is covered with a polyethylene sheath (7), and a stainless steel-constrained spiral spacer (5) is fitted to the anchor body part (2). A metal ground anchor manufacturing method using a PC steel stranded wire coated with an epoxy resin, characterized in that a terminal cap (6) is put on the end of the tendon. Drilling a drilling length designed by a boring machine on the ground surface, pouring cement milk that becomes grout into the drilling hole for the purpose of fixing to the ground, and then inserting a ground anchor into the drilling hole Furthermore, the anchor plate is attached after the cement milk is hardened by injecting under pressure, and the anchor head is fixed to the pressure receiving plate on the slope surface while applying tension with a jack via a fixing nut. Metal ground anchor installation method using PC steel strands coated with epoxy resin.