RU2178485C1 - Anchor device (alternatives) - Google Patents

Abstract

FIELD: construction engineering; highway engineering; manufacturing reinforced concrete structures used in bridge engineering. SUBSTANCE: according to first alternative device for cable bundled bar passed through duct-former has steel supporting member made in the form of perforated plate bent over broken or bow-shaped line; cables with enclosing cylinders on ends are passed through member holes at angle of 20 deg. to bundled bar axes; ends of cables contact pressure members installed equidistantly at above mentioned angles; each of pressure member is made in the form of plate; coupling bolts whose axes are in plane or in parallel with plane of location of enclosing cylinder axes are passed through holes of plane and those of supporting member; force ring is formed on end of duct-former in area enclosed by at least two turns of reinforced spiral installed on both sides of ring; spiral is installed concentrically and in a spaced relation to force ring, this space exceeding at least half of its radius; L-shaped exhaust pipe is introduced in duct-former hole between turns of reinforced spiral, mainly along axis or with displacement towards top part through ring hole; pipe end inserted in duct-former interior is parallel to cable axis of bundled bar. According to second alternative mechanical design of anchor device is essentially simplified without impairing its operating characteristics. EFFECT: enhanced efficiency of using anchor devices; simplified design; reduced material consumption. 3 cl, 4 dwg

Description

 The invention relates to the field of construction, mainly road construction, and can be widely used in the manufacture of reinforced concrete structures used in bridge construction.

 The devices for the passive anchoring of reinforcing ropes are widely known, which are a cylindrical hollow body, in which segmented wedges with a cylindrical spring resting on a threaded cover are placed, segmented wedges with an annular groove at a larger base in which a spring ring is placed (Mikhailov V.V., A. Folomeev, Pre-stressed Reinforced Concrete Structures with Wire and Strand Reinforcement, Moscow: Stroyizdat, 1971, p. 75, Fig. IV.10).

 The closest known device is an anchor for a reinforcing rope bundle passing through a channel former made of a polymeric material, containing a steel anchor ferrule, through which a rope with crimp sleeves at the ends and a supporting element in contact with the ends of the sleeves are passed through (Mikhailov V.V., Folomeev A. A., Pre-stressed reinforced concrete structures with wire and strand reinforcement. - M.: Stroyizdat, 1971, p. 246, 247).

 The designs of the known devices do not allow their effective use due to structural complexity with significant metal consumption.

 The objective of the present invention is to increase the efficiency of use of anchor devices while simplifying their design and reducing metal consumption.

In one embodiment of the anchor device for the reinforcing rope bundle passing through the channel former, this is achieved by the fact that it contains a steel supporting element in the form of a perforated plate bent along a broken or arcuate line through which holes are passed at an angle of up to 20 ^o to the axis of the reinforcing beam ropes with crimping sleeves at the ends, contacting the ends with the clamping elements located equidistantly at the corresponding indicated angles, each of which is made in the form of a plate, through the opening which and the holes of the supporting element are missing coupling bolts, the axes of which are located in the plane or parallel to the plane of arrangement of the axes of the crimp sleeves, while a force ring is mounted on the end of the channel former in the area covered by at least two coils of the reinforcing spiral located concentrically mounted on both sides thereof and with a gap relative to the force ring exceeding at least half of its radius, and between the turns of the reinforcing spiral, preferably along the axis or offset to the upper part and, through the hole in the ring, a L-shaped air outlet tube is inserted into the hole of the channel former, the end of which is parallel to the axis of the reinforcing beam in the cavity of the channel former.

In another embodiment of the anchor device for the reinforcing bundle of ropes passing through the channel former, this is achieved by the fact that it contains a power ring mounted on the end of the duct former, through the opening of which ropes with crimp sleeves are run at an angle of up to 20 ^° to the axis of the reinforcing bundle, A reinforcing spiral is mounted around the zone and with a gap relative to the power ring, covering at least two turns located on both sides of the power ring, and the gap exceeds at least half the radius of the power ring, and between the turns of the reinforcing spiral, preferably along the axis or offset to the upper part of the channel former, an L-shaped air outlet tube is inserted through the hole of the ring into the channel former, located in the cavity of the duct former that is parallel to the axis of the reinforcing beam, and the ends of the ropes are the portion of the crimp sleeves, not less than 100 mm in length, are braided with the formation of the resulting bends directed to the sides from the central wire of each rope, the image They have a three-dimensional structure in which the length of the central wire in the rope unwinding section is less than the length in the same section of any wire forming a bend. In this case, the length of the untwisted section may be equal to 1.2-1.8 of the largest diameter of the cross section of the formed three-dimensional structure.

The invention is illustrated by drawings, where
in FIG. 1 shows a general view of a first embodiment of a passive-type anchor device (axonometry);
in FIG. 2 is a general view (top view) of a first embodiment of a passive-type anchor device;
in FIG. 3 shows a general view of a second embodiment of a passive type anchor device (axonometry);
in FIG. 4 shows an enlarged diagram of the rope weaving.

The anchor device contains ropes 1 located in the channel former 2 and divorced at the exit from it at an angle not exceeding 20 ^o . A force ring 3 is installed at the end of the channel former 2, which receives the radial forces arising as a component of the force in the ropes. Diluted ropes pass through the support element in the form of a perforated plate 4 (first option), which provides the transfer of force from the ropes to concrete, (Fig. 1, 2). To transfer the force from the rope to the plate 4, crimp sleeves 5 are used, fixed on the ends of the ropes 1. On the ends of the crimp sleeves 5, pressure plates 7 are mounted, fixed by the coupling bolts 6. A L-shaped tube is introduced into the duct former 2 with the bundle 1 at the place of installation of the force ring 3. 8, designed to drain air and sludge during injection of the channel with a cement-sand mortar. Around the power ring 3, a reinforcing spiral 9 is installed, reinforcing the concrete directly in the area around the passive anchor to absorb local tensile stresses.

 In another embodiment, the anchor device excludes a number of metal-intensive elements, for example, perforated and pressure plates, tie bolts, and at the ends of all the divorced ropes, a wire is braided to form the resulting wires directed away from the central wire of each rope 10, (fluffing with the formation of volumetric structures with wires (“lanterns”) fixed by crimp sleeves 11. The length of the central wire 12 at the stretch of the rope narrower than the length in the same section of any wire forming a bend 10 due to the fact that the central (seventh) wire 12 is pulled through the sleeve 11. In this case, the length of the untwisted section is 1.2-1.8 of the largest cross-sectional diameter d of the formed three-dimensional structure .

 The proposed design is reliable and durable in operation.

Claims (3)

1. Anchor device for a reinforcing rope bundle passing through a channel former containing a steel support element in the form of a perforated plate bent along a broken or curved line, through the openings of which ropes with crimp sleeves at the ends contacting the ends are run at an angle of up to 20 ^o to the axis of the reinforcing bundle with clamping elements arranged equidistantly at respective angles, each of which is made in the form of a plate, through the openings of which and openings of the supporting element are passed a tie bolts, the axes of which are located in the plane or parallel to the plane of the axes of the crimp sleeves, while at the end of the channel former a power ring is mounted in the area covered by at least two turns of the reinforcing spiral located on both sides, mounted concentrically and with a gap relative to the power ring, exceeding at least half of its radius, and between the turns of the reinforcing spiral, preferably along the axis or offset to the upper part through the opening of the ring into the opening of the channelizer A L-shaped air outlet tube is introduced, the end of which is parallel to the axis of the reinforcing beam rope in the channel former cavity. 2. An anchor device for a reinforcing rope bundle passing through a channel former, comprising a force ring mounted at its end, through an opening of which ropes with crimp sleeves at the ends are passed at an angle of up to 20 ^° to the axis of the reinforcing bundle, while in the area around and with a gap relative to the force a reinforcing spiral is mounted, covering at least two turns of the power ring located on both sides of the coil, and the gap exceeds at least half the radius of the power ring, and between the turns of the arm urn spiral, preferably along the axis or with an offset to the upper part of the channelizer through the hole of the ring into the channelizer hole introduced L-shaped air outlet tube located in the cavity of the channelizer end of which is parallel to the axis of the rope of the reinforcing beam, and the ends of the ropes in the area at the crimp sleeves along the length less than 100 mm are braided with the formation of the resulting wires directed away from the central wire of each rope of the bends, forming a three-dimensional structure, in which the length of the central of the wire in the stretch of the rope is less than the length in the same stretch of any wire forming a bend.  3. An anchor device for a reinforcing rope bundle passing through a duct former according to claim 2, characterized in that the length of the untwisted section is 1.2-1.8 of the largest cross-sectional diameter of the formed three-dimensional structure.

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