CN108049393A - For the attached building enclosure construction technology in subway station under the conditions of rich water thick sand bed - Google Patents

Abstract

The invention discloses a kind of attached building enclosure construction technologies in subway station under the conditions of rich water thick sand bed, it comprises the following steps：Surveying setting-out, construction of guide wall, trenching construction, fabrication of reinforcing cage, reinforcing bar cage hoisting, concreting, provided by the present invention for the attached building enclosure construction technology in subway station under the conditions of rich water thick sand bed, that is ground-connecting-wall entirety grooving technology+borehole filling pile cage of reinforcement, and the construction technology of the connector slot section sealing welded using fish mouth muscle with steel reinforcement cage and I-steel, make the building enclosure water proof effect under the conditions of rich water thick sand bed more preferable, reduce leak stopping cost, site operation is greatly facilitated, shortens the building enclosure construction period.

Description

For the attached building enclosure construction technology in subway station under the conditions of rich water thick sand bed

Technical field

Technical field of construction is gone along with sb. to guard him the present invention relates to subway station, in particular to a kind of under the conditions of rich water thick sand bed The attached building enclosure construction technology in subway station.

Background technology

The existing attached building enclosure of City Subway Station adds rotary churning pile water stopping construction method for common cast-in-situ bored pile, It is taken using Spiral digging machine or percussive drill after levelling of the land, measure of pile position unwrapping wire and jumps storehouse method by root pore-forming, borehole cleaning, decentralization Single pile steel reinforcement cage pours underwater concrete, and injection two-tube rotary churning pile in outside carries out sealing between bored concrete pile, rotary churning pile depth with Bored concrete pile is the same as deep.

Separately there is a kind of existing building enclosure construction technology for diaphram wall, chute forming machine and percussive drill is used to combine Grooving mode, standard groove width are 6.0m, and slot section connector I-steel is directly welded with rectangle steel reinforcement cage, single width ground-connecting-wall steel reinforcement cage weight Amount is typically about 25~30t, and matching somebody with somebody truck crane using large caterpillar after borehole cleaning carries out reinforcing bar cage hoisting, decentralization, finally pours water Lower concrete.

In above-mentioned existing construction method of enclosure structure, although though drilled pile is plus the construction letter of jet grouting pile construction technique Just, but under rich water thick sand bed geological conditions construct it was verified that rotary churning pile water stopping effect is poor, percolating water is tight after excavation of foundation pit Weight, leak stopping is costly, and delays the duration；On the other hand, though ground-connecting-wall construction work is better than rotary churning pile water stopping effect, built on periphery It builds in the city narrow space that object stands in great numbers, ground-connecting-wall steel reinforcement cage volume is too big, can not often provide steel reinforcement cage processing site, and City busiest section carries out large-scale reinforcement cage lifting, and security risk is high, according to the mode dispensed from external concentrated processing, then transports It is defeated of high cost, and the transport of large-scale reinforcement cage understands serious threat to traffic safety, therefore a kind of technical flow design of design is reasonable, The better construction method of enclosure structure of foundation pit water-stagnating effect is various equivalent modifications urgent problem.

The content of the invention

In order to solve the above technical problems, technical solution provided by the invention is：For the subway under the conditions of rich water thick sand bed The attached building enclosure construction technology in station, it comprises the following steps：

(1) surveying setting-out：It is taken multiple measurements according to the traverse point of construction requirement and elevation, after accurate, by four etc. Control point is encrypted in conducting wire code requirement, and measuring goes out the ground center line that wall is led in underground, while the center line setting-out of circuit Out, checking the correctness for the center line for leading wall.

(2) construction of guide wall：It according to the measurement result of step (1), is excavated along center line both sides, constructs and lead wall, using to drawing Screw rod is as the support construction for leading wall, using flitch as the support construction between leading wall.

(3) trenching construction：The technique that ground-connecting-wall entirety grooving is taken with chute forming machine or impact drill, a phase slot of constructing, standard Combination is grabbed in the wide 5.5m of slot section, punching.

(4) fabrication of reinforcing cage：Borehole filling pile cage of reinforcement is used in the phase slot constructed in step (3)；

(5) reinforcing bar cage hoisting：In the intersegmental I-shaped steel plate of increase of slot and step (3) one phase slot section both sides cast-in-situ bored pile steel Muscle cage welds, and fish mouth muscle is welded on the steel reinforcement cage close to I-shaped steel plate, and I-shaped plate joint and fish mouth muscle are welded, Slot section connector is formed, I-shaped steel plate connector is integrally hung in groove inlet section together with a phase slot section both sides steel reinforcement cage.

(5) concreting：Using the method for underwater concreting, one-piece casting grooving.

Further, Screw arbor with nut at both-ends is arranged as 500mmX600mm in step (2), and cross-brace uses 48 steel pipes of Φ, spacing 500mm, flitch use 100X100, step pitch 1000mm.

Further, step (3) is in borehole filling pile cage of reinforcement process, the vertical main reinforcement at left and right sides of steel reinforcement cage Spacing is adjusted to 10cm along groove width direction, and reduces the spacing between the vertical main reinforcement of steel reinforcement cage upper and lower ends.

Further, after the welding of step (5) I-shaped steel plate, I-shaped steel plate bottom is above the absolute altitude of steel reinforcement cage bottom surface 250mm is sphenocephaly, is 500mm above steel reinforcement cage top surface absolute altitude at the top of I-shaped steel plate.

Further, led in step (2) and reinforcing bar or steel plate are embedded on wall, after the completion of reinforcing bar cage hoisting decentralization, used Reinforcing bar welds steel reinforcement cage with leading reinforcing bar pre-buried on wall or steel plate, prevents rising of steel cage.

Further, in step (6) during underwater concreting, when slot section connector has concrete slurry outflow, to phase During adjacent slot section grooving, pile monkey must be rushed with Φ 780mm and is backwashed overflowed concrete, with the plane set-hammer of special strip wire brush in end steel Silt particle on plate is removed totally, makes the soil dirt for being attached to seam crossing as few as possible.

After more than structure, the invention has the advantages that：Under the conditions of rich water thick sand bed The attached building enclosure construction technology in subway station, i.e. ground-connecting-wall entirety grooving technology+borehole filling pile cage of reinforcement, and using fish mouth The construction technology for the connector slot section sealing that muscle and steel reinforcement cage and I-steel weld, make building enclosure under the conditions of rich water thick sand bed every Water effect is more preferable, reduces leak stopping cost, greatly facilitates site operation, shortens the building enclosure construction period, is in addition filled in drilling It notes in pile cages process, the vertical main reinforcement spacing in part is adjusted, along groove width direction, left and right sides spacing is adjusted to 10cm, upper and lower reinforcing bar tune is close, and since both sides reinforcing bar is main principal rod above and below wall steel bar cage, the left and right sides aids in stress, this Kind adjustment is favourable to building enclosure wall stress.

Description of the drawings

Fig. 1 is the steel that the present invention provides for the attached building enclosure construction technology in subway station under the conditions of rich water thick sand bed The vertical main reinforcement distributed architecture schematic diagram of muscle cage.

Fig. 2 is the slot that the present invention provides for the attached building enclosure construction technology in subway station under the conditions of rich water thick sand bed Section connector fish mouth muscle structure diagram.

As shown in the figure：1st, a phase slot, 2, I-shaped steel plate, 3, steel reinforcement cage, 301, the vertical main reinforcement at left and right sides of steel reinforcement cage, 302nd, the vertical main reinforcement of steel reinforcement cage upper and lower ends, 4, fish mouth muscle.

Specific embodiment

With reference to attached drawing 1,2, for the attached building enclosure construction technology in subway station under the conditions of rich water thick sand bed, it includes Following steps：

(1) surveying setting-out：It is taken multiple measurements according to the traverse point of construction requirement and elevation, after accurate, by four etc. Control point is encrypted in conducting wire code requirement, and measuring goes out the ground center line that wall is led in underground, while the center line setting-out of circuit Out, checking the correctness for the center line for leading wall.

(2) construction of guide wall：It according to the measurement result of step (1), is excavated along center line both sides, constructs and lead wall, using to drawing Screw rod is as the support construction for leading wall, using flitch as the support construction between leading wall.

(3) trenching construction：The technique that ground-connecting-wall entirety grooving is taken with chute forming machine or impact drill, a phase slot 1 of constructing, standard Combination is grabbed in the wide 5.5m of slot section, punching.

(4) fabrication of reinforcing cage：Borehole filling pile cage of reinforcement 3 is used in the phase slot 1 constructed in step (3)；

(5) reinforcing bar cage hoisting：With reference to attached drawing 1,2, in 1 section two of the intersegmental I-shaped steel plate 2 of increase of slot and (3) one phase slot of step Side borehole filling pile cage of reinforcement 3 welds, and welds fish mouth muscle 4 on the steel reinforcement cage 3 close to I-shaped steel plate 2, and by i shaped steel 2 connector of plate is welded with fish mouth muscle 4, forms slot section connector, and I-shaped 2 connector of steel plate is whole together with a phase slot section both sides steel reinforcement cage 3 Body is hung in groove inlet section.

(5) concreting：Using the method for underwater concreting, one-piece casting grooving.

As the present embodiment preferred embodiment, Screw arbor with nut at both-ends is arranged as 500mmX600mm in step (2), laterally Support uses 100X100, step pitch 1000mm using 48 steel pipes of Φ, spacing 500mm, flitch.

With reference to attached drawing 1, as the present embodiment preferred embodiment, step (3) is processed in borehole filling pile cage of reinforcement 3 In the process, 301 spacing of vertical main reinforcement at left and right sides of steel reinforcement cage is adjusted to 10cm along groove width direction, and reduces steel reinforcement cage upper and lower ends Vertical main reinforcement 302 between spacing.

With reference to attached drawing 2, as the present embodiment preferred embodiment, after the I-shaped steel plate 2 of step (5) welds, I-shaped 2 bottom of shape steel plate is 250mm above 3 bottom surface absolute altitude of steel reinforcement cage, is sphenocephaly, and I-shaped 2 top of steel plate is 3 top surface mark of steel reinforcement cage High top 500mm.

As the present embodiment preferred embodiment, led in step (2) and reinforcing bar or steel plate are embedded on wall, in steel reinforcement cage After the completion of 3 lifting decentralizations, steel reinforcement cage 3 with leading reinforcing bar pre-buried on wall or steel plate is welded using reinforcing bar, prevents steel reinforcement cage It floats.

As the present embodiment preferred embodiment, in step (6) during underwater concreting, when slot section connector have it is mixed When solidifying soil paste liquid stream goes out, during to adjacent slot section grooving, pile monkey must be rushed with Φ 780mm and is backwashed overflowed concrete, with special band Silt particle of the plane set-hammer of wire brush on the steel plate of end is removed totally, makes the soil dirt for being attached to seam crossing as few as possible.

As the present embodiment preferred embodiment, a 50t automobile can be used in step (5) the reinforcing bar cage hoisting stage It hangs and is lifted with a 25t truck crane, be not required to lift using large caterpillar.

The present invention and embodiments thereof are described above, this description is no restricted, attached shown in figure Simply one of embodiments of the present invention, actual structure are not limited thereto.All in all if the ordinary skill of this field Personnel are enlightened by it, without departing from the spirit of the invention, are not inventively designed and the technical solution phase As frame mode and embodiment, be within the scope of protection of the invention.

Claims (6)

1. for the attached building enclosure construction technology in subway station under the conditions of rich water thick sand bed, it is characterised in that：It include with Lower step：

(1) surveying setting-out：It is taken multiple measurements according to the traverse point of construction requirement and elevation, after accurate, by four grade conducting wires Control point is encrypted in code requirement, and measuring goes out the ground center line that wall is led in underground, while the center line setting-out of circuit is come out, To check the correctness for the center line for leading wall.

(2) construction of guide wall：According to the measurement result of step (1), excavated along center line both sides, construct and lead wall, using Screw arbor with nut at both-ends As the support construction for leading wall, using flitch as the support construction between leading wall.

(3) trenching construction：The technique that ground-connecting-wall entirety grooving is taken with chute forming machine or impact drill, a phase slot of constructing, standard cell section Combination is grabbed in wide 5.5m, punching.

(4) fabrication of reinforcing cage：Borehole filling pile cage of reinforcement is used in the phase slot constructed in step (3)；

(5) reinforcing bar cage hoisting：In the intersegmental I-shaped steel plate of increase of slot and step (3) one phase slot section both sides borehole filling pile cage of reinforcement Welding welds fish mouth muscle on the steel reinforcement cage close to I-shaped steel plate, and I-shaped plate joint and fish mouth muscle is welded, and is formed Slot section connector, I-shaped plate joint are integrally hung in groove inlet section together with a phase slot section both sides steel reinforcement cage.

(5) concreting：Using the method for underwater concreting, one-piece casting grooving.

2. the subway station attached building enclosure construction technology according to claim 1 under the conditions of rich water thick sand bed, It is characterized in that：Screw arbor with nut at both-ends is arranged as 500mmX600mm in step (2), and cross-brace uses 48 steel pipes of Φ, spacing 500mm, Flitch uses 100X100, step pitch 1000mm.

3. the subway station attached building enclosure construction technology according to claim 1 under the conditions of rich water thick sand bed, It is characterized in that：Step (3) is in borehole filling pile cage of reinforcement process, the vertical main reinforcement spacing edge at left and right sides of steel reinforcement cage Groove width direction is adjusted to 10cm, and reduces the spacing between the vertical main reinforcement of steel reinforcement cage upper and lower ends.

4. the subway station attached building enclosure construction technology according to claim 1 under the conditions of rich water thick sand bed, It is characterized in that：After the I-shaped steel plate welding of step (5), I-shaped steel plate bottom is 250mm above the absolute altitude of steel reinforcement cage bottom surface, is Sphenocephaly, I-shaped steel plate top is 500mm above steel reinforcement cage top surface absolute altitude.

5. the subway station attached building enclosure construction technology according to claim 1 under the conditions of rich water thick sand bed, It is characterized in that：It is led in step (2) and reinforcing bar or steel plate is embedded on wall, it, will using reinforcing bar after the completion of reinforcing bar cage hoisting decentralization Steel reinforcement cage is welded with leading reinforcing bar pre-buried on wall or steel plate, prevents rising of steel cage.

6. the subway station attached building enclosure construction technology according to claim 1 under the conditions of rich water thick sand bed, It is characterized in that：In step (6) during underwater concreting, when slot section connector has concrete slurry outflow, to adjacent slot section During grooving, pile monkey must be rushed with Φ 780mm and is backwashed overflowed concrete, with the plane set-hammer of special strip wire brush on the steel plate of end Silt particle is removed totally, makes the soil dirt for being attached to seam crossing as few as possible.