CN106759278B - A kind of construction method of high inclination-angle taper pile steel reinforcement cage decentralization - Google Patents

Abstract

It further includes production steel reinforcement cage semi-finished product that the invention discloses a kind of construction methods of high inclination-angle taper pile steel reinforcement cage decentralization including aperture, laying steel mesh, the preamble work for setting up steel arch-shelf and gunite concrete；It is laid with conduit in taper pile aperture, and clears up concrete surface on steel arch-shelf and exposes reserved pad；The steel reinforcement cage semi-finished product made in step 1 are hoisted to taper pile aperture with lifting machine, after slinging pre-determined tilt angle, entire steel reinforcement cage is snapped down to bottom hole along conduit；By steel reinforcement cage semi-finished product by temporary weld reinforcement welding in pad reserved on steel arch-shelf；Laying density, is increased to the construction procedure of predetermined density by the longitudinal reinforcement and transverse steel of banding steel cage.Steel reinforcement cage of the invention is first fabricated to semi-finished product again by the one hand improving installation effectiveness and quality compared with being laid in hole completely and installing steel reinforcement cage in conduit auxiliary decentralization to hole；On the other hand installation quality and safety are improved compared with transferring again after steel reinforcement cage integral manufacturing is good.

Description

A kind of construction method of high inclination-angle taper pile steel reinforcement cage decentralization

Technical field

The invention belongs to what taper pile construction field in architectural engineering more particularly to a kind of high inclination-angle taper pile steel reinforcement cage were transferred to apply Work method.

Background technique

With the rapid development of domestic and abroad bridge technology, multiarch bridge, Deck Arch Bridges, steel arch bridge etc. have landscape, The bridge structure form for meeting landform requirement is come into being, and not only embodies the design level of designer, and to different types of rridges A kind of verifying of construction method.The Engineering Projects of taper pile involved in Arch Bridge Construction is more, and underwater taper pile is also relatively universal, mostly big straight The taper pile of diameter is designed as full face inclined steel-pipe pile more, using tunneling boring impact holing, impact holing equipment also at home and abroad compared with Maturation, but excavated by manual work is mostly used both at home and abroad without mature construction technology and equipment for minor radius, the taper pile design of High angle The construction method in hole ensures the quality and safety constructed, but there is the disadvantage of many quality control in the construction process, because The special construction principle of taper pile, and influenced by geographical environment and geological condition, collapse hole is also easy to produce during manually digging hole And water burst phenomenon.Therefore the generation of these hidden danger how is avoided in work progress at the scene, other than carrying out advance support measure, also Need to avoid the generation of some quality, safety accident using effective construction method.

In High angle taper pile work progress, after stake holes pore-forming, after indices meet the requirements on inspection, that is, steel is installed How muscle cage guarantees the installation effectiveness and quality of steel reinforcement cage because of the stake holes of High angle, while ensuring the thickness of protective layer uniformly simultaneously The safety problem for guaranteeing work progress, is the practical problem that technical staff faces at the scene.

Summary of the invention

The technical problems to be solved by the present invention are: providing a kind of construction method of high inclination-angle taper pile steel reinforcement cage decentralization, mention Efficiency, quality and the safety of high work progress.

In order to solve the above-mentioned technical problem, the invention discloses a kind of high inclination-angle taper pile steel reinforcement cage decentralization construction method, It is further comprising the steps of including aperture, laying steel mesh, the preamble work for setting up steel arch-shelf and gunite concrete:

Step 1: production steel reinforcement cage semi-finished product, steel reinforcement cage include longitudinal reinforcement and transverse steel, and steel reinforcement cage semi-finished product are indulged To 1/2~3/4 that the laying density of reinforcing bar and transverse steel is predetermined density；

Step 2: being laid with conduit in taper pile aperture, and clears up concrete surface on steel arch-shelf and expose reserved pad；Step Rapid three: the steel reinforcement cage semi-finished product made in step 1 are hoisted to taper pile aperture with lifting machine, after slinging pre-determined tilt angle, Entire steel reinforcement cage is snapped down to bottom hole along conduit；

Step 4: by steel reinforcement cage semi-finished product by temporary weld reinforcement welding in pad reserved on steel arch-shelf；

Step 5: laying density is increased to predetermined density by the longitudinal reinforcement and transverse steel of banding steel cage.

Further, conduit is hollow steel pipe in the step 2, and outer diameter is identical as the thickness of steel bar cage protecting layer, institute Steel bar cage protecting layer is stated as steel reinforcement cage outer edge to the default spacing between steel arch-shelf inward flange.

Further, conduit has 2~5 in the step 2.

Further, root is gone back after the longitudinal reinforcement and transverse steel to predetermined density of banding steel cage in the step 5 Need to increase lateral fixed steel bars according to scene, the transverse direction fixed steel bars binding is located at longitudinal reinforcement end in bottom hole.

Further, after qualification of checking on the quality, withdrawal conduit.

Further, end of conduit is equipped with symmetrical perforation in the step 2, and the perforation is passed through suitable for cable wire.

Compared with prior art, the present invention can obtain following technical effect:

1) steel reinforcement cage is first fabricated to semi-finished product again by the way that in conduit auxiliary decentralization to hole, the program has not been needed in the present invention Be laid in Quan Kong and steel reinforcement cage be simultaneously installed, nor by steel reinforcement cage integral manufacturing it is good after transfer again, program one side is and complete It is laid in hole and steel reinforcement cage is installed compared to improving installation effectiveness and quality；On the other hand with by steel reinforcement cage integral manufacturing it is good after Transferred again compared to improving installation quality and safety because integral manufacturing it is good steel reinforcement cage overall weight it is too heavy, loop wheel machine handling and There are very big security risks in decentralization process, have recessive danger to operating personnel and other construction equipments；And first by steel reinforcement cage Semi-finished product are fabricated to again by conduit auxiliary decentralization to the method in hole, conduit has ensured installation effectiveness, while ensuring protection The thickness of layer is uniform, and greatly improves construction safety and total quality.

2) steel reinforcement cage is first fabricated to semi-finished product again by the decentralization of conduit auxiliary in hole, later again by lateral steel in the present invention The laying density of muscle and longitudinal reinforcement increases to predetermined density, further, longitudinal steel of banding steel cage in the step 5 After muscle and transverse steel to predetermined density, need to increase lateral fixed steel bars, the transverse direction fixed steel bars binding also according to scene It is located at longitudinal reinforcement end in bottom hole.The program can adjust distributing position and the installation of reinforcing bar in time according to site operation state Sequentially, the space for improving quality is increased compared with transferring steel reinforcement cage integral manufacturing after good again, so that steel reinforcement cage is more firm, Improve construction quality.

3) end of conduit is equipped with symmetrical perforation in heretofore described step 2, and the perforation is passed through suitable for cable wire.It should Scheme is conducive to withdrawal conduit in construction follow-up work, has further ensured construction quality and safety.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, those of ordinary skill in the art are come It says, without creative efforts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is high inclination-angle taper pile stake mouth reinforcing bar section layout drawing.

Fig. 2 is another high inclination-angle taper pile stake mouth reinforcing bar section layout drawing.

Wherein: 1. steel arch-shelfs, 2. steel reinforcement cages, 21. longitudinal reinforcements, 22. transverse steels, 3. conduits, 4. temporary weld reinforcing bars.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to embodiments, to the present invention It is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not used to Limit the present invention.

With reference to the accompanying drawing and specific embodiment is further described application principle of the invention.

Embodiment one

As shown in Figure 1, a kind of construction method of high inclination-angle taper pile steel reinforcement cage decentralization, including aperture, laying steel mesh, erection The work of the preamble of steel arch-shelf 1 and gunite concrete, further comprising the steps of:

Step 1: production 2 semi-finished product of steel reinforcement cage, steel reinforcement cage 2 include longitudinal reinforcement 21 and transverse steel 22, steel reinforcement cage 2 half The longitudinal reinforcement 21 of finished product and the laying density of transverse steel 22 are the 1/2 of predetermined density；

Step 2: being laid with conduit 3 in taper pile aperture, and clears up concrete surface on steel arch-shelf 1 and expose reserved pad；

Step 3: 2 semi-finished product of steel reinforcement cage made in step 1 are hoisted to taper pile aperture with lifting machine, are sling predetermined After tilt angle, entire steel reinforcement cage 2 is snapped down to bottom hole along conduit 3；

Step 4: 2 semi-finished product of steel reinforcement cage are welded on steel arch-shelf 1 by temporary weld reinforcing bar 4 and reserve pad；

Step 5: laying density is increased to predetermined density by the longitudinal reinforcement 21 and transverse steel 22 of banding steel cage 2.

Wherein: conduit 3 is hollow steel pipe in the step 2, and outer diameter is identical as the thickness of 2 protective layer of steel reinforcement cage, described 2 protective layer of steel reinforcement cage is 2 outer edge of steel reinforcement cage to the default spacing between 1 inward flange of steel arch-shelf；There is conduit 3 in the step 2 2；In the step 5 after the longitudinal reinforcement 21 and transverse steel 22 to predetermined density of banding steel cage 2, needed also according to scene Increase lateral fixed steel bars, the transverse direction fixed steel bars binding is located at 21 end of longitudinal reinforcement in bottom hole；In the step 2 3 end of conduit is equipped with symmetrical perforation, and the perforation is passed through suitable for cable wire.

Embodiment two

As shown in Fig. 2, a kind of construction method of high inclination-angle taper pile steel reinforcement cage decentralization, basic with the construction method of embodiment one It is identical, the difference is that: the longitudinal reinforcement 21 of 2 semi-finished product of steel reinforcement cage and the laying density of transverse steel 22 are in step 1 The 3/4 of predetermined density.

Embodiment three

As shown in Fig. 2, a kind of construction method of high inclination-angle taper pile steel reinforcement cage decentralization, basic with the construction method of embodiment one It is identical, the difference is that: the longitudinal reinforcement 21 of 2 semi-finished product of steel reinforcement cage and the laying density of transverse steel 22 are in step 1 The 3/4 of predetermined density；Conduit 3 has 5 in the step 2.

The technical effect of above scheme is realized in the present invention:

1) steel reinforcement cage is first fabricated to semi-finished product again by the way that in conduit auxiliary decentralization to hole, the program has not been needed in the present invention Be laid in Quan Kong and steel reinforcement cage be simultaneously installed, nor by steel reinforcement cage integral manufacturing it is good after transfer again, program one side is and complete It is laid in hole and steel reinforcement cage is installed compared to improving installation effectiveness and quality；On the other hand with by steel reinforcement cage integral manufacturing it is good after Transferred again compared to improving installation quality and safety because integral manufacturing it is good steel reinforcement cage overall weight it is too heavy, loop wheel machine handling and There are very big security risks in decentralization process, have recessive danger to operating personnel and other construction equipments；And first by steel reinforcement cage Semi-finished product are fabricated to again by conduit auxiliary decentralization to the method in hole, conduit has ensured installation effectiveness, while ensuring protection The thickness of layer is uniform, and greatly improves construction safety and total quality.

2) steel reinforcement cage is first fabricated to semi-finished product again by the decentralization of conduit auxiliary in hole, later again by lateral steel in the present invention The laying density of muscle and longitudinal reinforcement increases to predetermined density, further, longitudinal steel of banding steel cage in the step 5 After muscle and transverse steel to predetermined density, need to increase lateral fixed steel bars, the transverse direction fixed steel bars binding also according to scene It is located at longitudinal reinforcement end in bottom hole.The program can adjust distributing position and the installation of reinforcing bar in time according to site operation state Sequentially, the space for improving quality is increased compared with transferring steel reinforcement cage integral manufacturing after good again, so that steel reinforcement cage is more firm, Improve construction quality.

3) end of conduit is equipped with symmetrical perforation in heretofore described step 2, and the perforation is passed through suitable for cable wire.It should Scheme is conducive to withdrawal conduit in construction follow-up work, has further ensured construction quality and safety.

Claims (2)

1. a kind of construction method of high inclination-angle taper pile steel reinforcement cage decentralization, including aperture, be laid with steel mesh, set up steel arch-shelf (1) and The preamble of gunite concrete works, which is characterized in that further comprising the steps of:

Step 1: production steel reinforcement cage (2) semi-finished product, steel reinforcement cage (2) includes longitudinal reinforcement (21) and transverse steel (22), steel reinforcement cage (2) laying density of the longitudinal reinforcement (21) of semi-finished product and transverse steel (22) is the 1/2~3/4 of predetermined density；

Step 2: being laid with conduit (3) in taper pile aperture, and clears up concrete surface on steel arch-shelf (1) and expose reserved pad；

Step 3: the steel reinforcement cage made in step 1 (2) semi-finished product are hoisted to taper pile aperture with lifting machine, sling pre- constant inclination After rake angle, entire steel reinforcement cage (2) is snapped down to bottom hole along conduit (3)；

Step 4: steel reinforcement cage (2) semi-finished product are welded on steel arch-shelf (1) by temporary weld reinforcing bar (4) and reserve pad；

Step 5: the longitudinal reinforcement (21) and transverse steel (22) of banding steel cage (2), laying density is increased to make a reservation for it is close Degree；

Step 6: after qualification of checking on the quality, withdrawal conduit (3)；

Conduit (3) is hollow steel pipe in the step 2, and outer diameter is identical as the thickness of steel reinforcement cage (2) protective layer, the reinforcing bar Cage (2) protective layer is steel reinforcement cage (2) outer edge to the default spacing between steel arch-shelf (1) inward flange；

In the step 5 after the longitudinal reinforcement (21) and transverse steel (22) to predetermined density of banding steel cage (2), also according to Scene needs to increase lateral fixed steel bars, and the transverse direction fixed steel bars binding is located at longitudinal reinforcement (21) end in bottom hole；

Conduit (3) end is equipped with symmetrical perforation in the step 2, and the perforation is passed through suitable for cable wire.

2. a kind of construction method of high inclination-angle taper pile steel reinforcement cage decentralization according to claim 1, it is characterised in that: the step Conduit (3) has 2~5 in rapid two.