CN102400470B - Construction method for multi-platform deep foundation of hillside high-rise building - Google Patents

Abstract

The invention relates to a construction method for a multi-platform deep foundation of a hillside high-rise building. A plurality of construction platforms are formed through scaffolds which are erected along a slope, so that a plurality of platform pile holes can be simultaneously dug; and therefore, the coherence of construction steps is enhanced, the construction time is saved, and the construction efficiency is increased. The method is suitable for constructing the deep foundation of the high-rise building at hillside.

Description

The multi-platform deep foundation job practices of hillside fields high-rise building

Technical field

The present invention relates to a kind of foundation construction method, particularly a kind of foundation construction method of building the high-rise building of slope in.

Background technology

For the construction of the multi-platform deep foundation of hillside fields high-rise building, traditional elder generation high sequence of construction efficient in low back is low, can't satisfy construction period.Because when reality is excavated, if adopt sequence of excavation in the past, earlier low foundation construction, low foundation structure, lower waterproof, backfill, back eminence foundation construction, the eminence structure, procedure connection is poor, long construction period.

Summary of the invention

The purpose of this invention is to provide the multi-platform deep foundation job practices of a kind of hillside fields high-rise building, solve tradition and build long construction period in the Tall Building Foundation construction, the technical problem of procedure connection difference in the hillside fields.

For achieving the above object, the present invention adopts following technical scheme:

The multi-platform deep foundation job practices of a kind of hillside fields high-rise building, step is as follows:

Step 1, smooth flat field place;

Step 2 is carried out the part and is unloaded soil, repairs side slope, forms stable side slope by the side slope mesh plaster between adjacent two flat field places;

Step 3 is carried out the slope position of pile foundation construction and is cut soil in plan, form the shoveling operating platform;

Step 4 is set up scaffold according to the slope between two adjacent flat field places, the horizon bar of scaffold is overhanging and ride on the shoveling operating platform in the position concordant with the shoveling operating platform;

Step 5 enters the shoveling operating platform by scaffold, carries out hole excavation and a panelling construction at all shoveling operating platforms simultaneously;

Step 6, colligation hole digging pile reinforcing bar, supporting template and concreting in the stake hole;

Step 7, treat the pile foundation concrete setting after, backfill between pile foundation.

Described step 4, the step of setting up of scaffold is: (A) leveling compacting bottom flat field place; (B) the flat field place pad chock of tamping in leveling; (C) stand vertical rod according to design pitch at chock; (D) in the position of distance flat field place 0.2m, vertical posts arranges one and encloses the bar of sweeping the floor; (E) along the highly parallel bar of sweeping the floor of vertical rod horizon bar is set at interval, the bar of finally sweeping the floor, horizon bar and vertical rod form scaffold frame; (F) in scaffold frame vertical and horizontal side bridging is set all; (G) scaffold below operation layer is walked guidance tape is installed safe blanket net; (H) with the scaffold of shoveling operating platform flush position on completely spread operation layer and walk guidance tape; (I) foot guard plate is set continuously around the layer of corridor; (J) the operation layer altitude range outside completely hangs Dense mesh screen.

In the described step 5, carry out following operation before the excavation of stake hole: (a) carry out the test pile excavation, survey to checking the accuracy of report; (b) survey report, on-the-spot actual geological condition and the requirement of rigidity angle in combination, carry out that absolute altitude calculates at the bottom of the stake of hole; (c) in conjunction with test pile, survey report and carry out absolute altitude correction at the bottom of the stake of hole.

Compared with prior art the present invention has following characteristics and beneficial effect:

The present invention is by setting up scaffold according to the slope, for multi-platform excavation simultaneously provides the excavation scope of operation, can realize excavating the stake of hole, many places simultaneously, and in time the soil body be transported by the scaffold operation layer, guarantee working security, operability, can satisfy construction period simultaneously, raised the efficiency.

The present invention has excavated construction simultaneously by multi-platform, has avoided traditional hillside fields poor from construct the one by one procedure connection that causes of lower to eminence, and the defective of long construction period has improved efficiency of construction.

The present invention by test pile excavation, hole stake at the bottom of absolute altitude calculate, revise, carry out the stake of multi-platform hole and excavate simultaneously thereby excavate the condition created simultaneously for multi-platform stake hole, guaranteeing to raise the efficiency the reduction of erection time greatly under working security, the operability prerequisite.

The present invention can be widely used in hillside fields highrise building deep foundation construction.

Description of drawings

The present invention will be further described in detail below in conjunction with accompanying drawing.

Fig. 1 is the construction process figure of the method for the invention.

Fig. 2 is that work plane excavation and operating platform are set up schematic diagram.

Fig. 3 is scaffold embodiment.

Fig. 4 is Fig. 3 A-A sectional view.

Fig. 5 is Fig. 3 lateral view.

Reference numeral: sweep the floor bar, 2.3-horizon bar, 2.4-bridging, 2.5-of 1-flat field place, 2-scaffold, the vertical rod of 2.1-flat field, 2.2-links bar, the vertical rod of 2.6-side slope, 2.7-hound, 2.8-operation platform plate, 3-shoveling operating platform, 4-pile foundation, 5-slope soil.

The specific embodiment

Embodiment is referring to illustrated in figures 1 and 2, the multi-platform deep foundation job practices of a kind of hillside fields high-rise building, and step is as follows:

Step 1, smooth flat field place 1;

Step 2 is carried out the part and is unloaded soil, repairs side slope, forms stable side slope by the side slope mesh plaster between adjacent two flat field places;

Step 3 is carried out the slope position of pile foundation construction and is cut soil in plan, form shoveling operating platform 3;

Step 4 is set up scaffold 2 according to the slope between two adjacent flat field places, the horizon bar of scaffold is overhanging and ride on the shoveling operating platform 3 in the position concordant with shoveling operating platform 3; Wherein, the step of setting up of scaffold is: (A) leveling compacting bottom flat field place; The vertical rod bottom must flatten in cleaning, and compacting, forbids substrate for loosening the soil.Must dig out the plane during side slope position top vertical rod, carry out chock then and lay.Can build thickness if necessary and be not less than the thick C15 concrete of 60mm, side slope vertical rod position is not less than 600mm apart from the side slope top curve.(B) the flat field place pad chock of tamping in leveling; Chock can adopt the elongated setting of the long wooden springboard of the wide 4m of 300mm, or area is not less than the plank place mat that 0.15 ㎡, thickness are not less than 50mm.(C) stand vertical rod according to design pitch at chock; Vertical rod is set up must vertically should have the people to observe in the outside and adjustment during vertical rod.Vertical pole ' s span is as follows: the vertical rod array pitch is 0.8 ~ 1.0m, and vertical rod is flat, and the vertical joint of vertical rod adopts banjo fixing butt jointing apart from being 1.2m, and joint location staggers 50%, and step pitch is arranged according to 1.5m in principle.(D) in the position of distance flat field place 0.2m, vertical posts arranges one and encloses the bar of sweeping the floor; The side slope upper pright stanchion should carry out the part and strengthen in the time vertically can not satisfying this condition, the bar perforation setting of strengthening sweeping the floor should not be less than three and stride.(E) along the highly parallel bar of sweeping the floor of vertical rod horizon bar is set at interval, the bar of finally sweeping the floor, horizon bar and vertical rod form scaffold frame; Peripheral rod end exceeds platform absolute altitude 1.2m, and every 600mm arranges one horizon bar and firmly connects with vertical rod, and seals with wood plywood.(F) in scaffold frame vertical and horizontal side bridging is set all; 45 ° ~ 60 ° at bridging steel pipe angle of inclination, the joint lap length is 1m, joint location adopts 3 rotary buckles to connect.Bridging must be connected with the vertical rod of its process, and the tie point of brace and vertical rod lowest part overhead should not be greater than 500 ㎜.Facade must completely be established bridging outside scaffold, and interior the striding every 5 ~ 8 of support body arranges bridging, at support body bottom, middle part, tip position, horizontal cross brace is set respectively strengthens.(G) scaffold below operation layer is walked guidance tape is installed safe blanket net; (H) with the scaffold of shoveling operating platform flush position on completely spread operation layer and walk guidance tape; Accomplish tight, firmly, pave, spread steady, forbidden on the shelf to stay the monolithic scaffold floor, forbidden to have the probe plate, wooden springboard joint location is necessary for two cross bars, wooden springboard stretches out supporting steel pipe length must not be greater than 30mm, the gap must not be greater than 20mm between wooden springboard.The iron wire of colligation must not corrosion.(I) foot guard plate is set continuously around the layer of corridor; It is the plank of 180mm that foot guard plate adopts width, brushes paint red and white, and with iron nail and iron wire fixation.(J) the operation layer altitude range outside completely hangs Dense mesh screen.Dense mesh screen adopts the green Dense mesh screen of the 2m * 6m of color and luster unanimity, and the operation layer altitude range outside is full to hang, and is all firm with pricking the silk colligation with outrigger every fixing hole.Dense mesh screen hangs necessary stretching, extension, smooth, and the junction is seamless.Forbid to use breakage, contaminated and rotten Dense mesh screen.

Step 5 enters shoveling operating platform 3 by scaffold 2, carries out hole excavation and a panelling construction at all shoveling operating platforms 3 simultaneously; Carry out following operation before the excavation of stake hole: (a) carry out the test pile excavation, survey to checking the accuracy of report; (b) survey report, on-the-spot actual geological condition and the requirement of rigidity angle in combination, carry out that absolute altitude calculates at the bottom of the stake of hole; (c) in conjunction with test pile, survey report and carry out absolute altitude correction at the bottom of the stake of hole.

Step 6, colligation hole digging pile reinforcing bar, supporting template and concreting in the stake hole;

Step 7, treat the pile foundation concrete setting after, backfill between pile foundation.

The form of structure of described scaffold can be as described below, referring to Fig. 3～shown in Figure 5, set up according to slope soil 5 gradients between flat field place 1, comprise vertical rod, the bar 2.2 of sweeping the floor, the support body that horizon bar 2.3 and bridging 2.4 formed and be laid on operation platform plate 2.8 on the support body, described vertical rod arranges at interval, described bar 2.2 vertical posts of sweeping the floor are arranged on the vertical rod bottom, described horizon bar 2.3 vertical posts arrange at interval along the vertical rod short transverse, the interplanar that described horizon bar surrounds or the close operation platform plate 2.8 that is covered with, described vertical rod comprises flat field vertical rod 2.1 and side slope vertical rod 2.6, described flat field vertical rod 2.1 is isometric, be arranged on the smooth flat field place 1, described side slope vertical rod 2.6 arranges according to the slope soil gradient from the slope soil bottom, its length is along the slope soil slope change, described horizon bar 2.3 is near the slope soil sections support body of encorbelmenting, and inserts slope soil 5.

Described bridging 2.4 is arranged on the support body side elevation or/and positive facade.

Described support body deviates from the slope soil face and is supported with hound 2.7.

The plane that described horizon bar surrounds is provided with and links bar 2.5.

Claims (3)

1. multi-platform deep foundation job practices of hillside fields high-rise building, it is characterized in that: step is as follows:

Step 1, smooth flat field place (1);

Step 2 is carried out the part and is unloaded soil, forms stable side slope by the side slope mesh plaster between adjacent two flat field places;

Step 3 is carried out the slope position of pile foundation construction and is cut soil in plan, form shoveling operating platform (3);

Step 4 is set up scaffold (2) according to the slope between two adjacent flat field places, the horizon bar of scaffold is overhanging and ride on the shoveling operating platform (3) in the position concordant with shoveling operating platform (3);

Step 5 enters shoveling operating platform (3) by scaffold (2), carries out hole excavation and a panelling construction at all shoveling operating platforms (3) simultaneously;

Step 6, colligation hole digging pile reinforcing bar, supporting template and concreting in the stake hole;

Step 7, treat the pile foundation concrete setting after, backfill between pile foundation.

2. the multi-platform deep foundation job practices of hillside fields high-rise building according to claim 1 is characterized in that: described step 4, and the step of setting up of scaffold is: (A) leveling compacting bottom flat field place; (B) the flat field place pad chock of tamping in leveling; (C) stand vertical rod according to design pitch at chock; (D) in the position of distance bottom flat field place 0.2m, vertical posts arranges one and encloses the bar of sweeping the floor; (E) along the highly parallel bar of sweeping the floor of vertical rod horizon bar is set at interval, the bar of finally sweeping the floor, horizon bar and vertical rod form scaffold frame; (F) in scaffold frame vertical and horizontal side bridging is set all; (G) scaffold below operation layer is walked guidance tape is installed safe blanket net; (H) with the scaffold of shoveling operating platform flush position on completely spread operation layer and walk guidance tape; (I) foot guard plate is set continuously around the layer of corridor; (J) the operation layer altitude range outside completely hangs Dense mesh screen.

3. the multi-platform deep foundation job practices of hillside fields high-rise building according to claim 1 is characterized in that: in the described step 5, carry out following operation before the excavation of stake hole: (a) carry out the test pile excavation, survey to checking the accuracy of report; (b) survey report, on-the-spot actual geological condition and the requirement of rigidity angle in combination, carry out that absolute altitude calculates at the bottom of the stake of hole; (c) in conjunction with test pile, survey report and carry out absolute altitude correction at the bottom of the stake of hole.

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