CN204491320U - Existing railway station roadbed light supporting structure on filled ground - Google Patents

Abstract

The utility model discloses existing railway station roadbed light supporting structure on a kind of filled ground, comprise multilayer geo-grid, filler is provided with between multilayer geo-grid, be provided with filled ground below geo-grid, it is characterized in that: described geo-grid side is provided with reinforced earth bulkhead and this side geo-grid is provided with revers turn part; Described reinforced earth bulkhead comprises the body of wall and panel that are connected by multiple anchor pole, described body of wall comprises the multiple inclusion enclaves be successively filled in described revers turn part, described panel comprises concrete substrate and is crisscrossly arranged on vertical muscle in concrete substrate and perpendicular muscle, and is positioned at the cap stone that filled ground is built in the strip foundation below concrete foundation and is positioned at above concrete foundation; Described anchor pole one end connection lengthwise rib, the other end passes and stretches into filler in body of wall.The beneficial effects of the utility model are: adopt above measure, solve the problem of building up station roadbed reconstruction on filled ground, and technology is simple, practical, convenient, economical.

Description

Existing railway station roadbed light supporting structure on filled ground

Technical field

The utility model relates to railway building up station roadbed renovation technique field on geotechnical engineering field, particularly fill subgrade.

Background technology

Prior art is widened existing railway station reconstruction and is faced problems: first, and because multiply road in station walks abreast, construction space is limited; Secondly, newly-built roadbed and construction reference different not contour from former roadbed easily cause the secondary disease of existing line; In addition, because factory building outside station, house are intensive, roadbed is other to be needed to set up special retaining structure closing slope more, thus saving space; Also have a very important problem to be mostly be coated with artificial earth fill inside and outside station, but character of banketing is uneven, but banket compactness and Deformation control can affect again the engineering properties of newly-built roadbed, therefore therefore need to carry out specially treated to it.In sum, building up station transformation or newly-builtly need to overcome narrow space and earth's surface and banket and wait series of problems, and prior art means safety that existing roadbed and newly-built roadbed are transformed and steadily there is certain hidden danger.

Utility model content

For Problems existing in background technology, the purpose of this utility model is to provide existing railway station roadbed light supporting structure on a kind of filled ground solving the problems such as building up station roadbed reconstruction on filled ground is safe, steady, narrow space.

For achieving the above object, existing railway station roadbed light supporting structure on the filled ground of the utility model design, comprise multilayer geo-grid, filler is provided with between multilayer geo-grid, be provided with filled ground below geo-grid, it is characterized in that: described geo-grid side is provided with reinforced earth bulkhead and this side geo-grid is provided with revers turn part; Described reinforced earth bulkhead comprises the body of wall and panel that are connected by multiple anchor pole, described body of wall comprises the multiple inclusion enclaves be successively filled in described revers turn part, described panel comprises concrete substrate and is crisscrossly arranged on vertical muscle in concrete substrate and perpendicular muscle, and is positioned at the cap stone that filled ground is built in the strip foundation below concrete foundation and is positioned at above concrete foundation; Described anchor pole one end connection lengthwise rib, the other end passes and stretches into filler in body of wall.

Preferably, one end that described anchor pole stretches in filler is provided with bending.Like this, by bending increasing action face, thus make body of wall and metope reliability higher.

Preferably, described inclusion enclave is spread the plastic knitting bagged sand folder gravel mixing grass-seed.

Preferably, described revers turn part comprises on earthwork grid second of first of coated described inclusion enclave and back-pressure.

Further preferred, described second is sewed together by pitman and geo-grid are hole-specifically interspersed.

Preferred further, the length of described revers turn part is not less than 2 meters.

Preferably, in body of wall, stretch into multiple uniform tapping pipe from described panel, described tapping pipe is crisscross arranged up and down, adjacent tapping pipe be spaced apart 0.9 ~ 1 meter.

Preferably, the height of described reinforced earth bulkhead is not more than 10 meters.

Preferably, the ratio of slope of described reinforced earth bulkhead is 1:0.25.

Preferably, described panel is interval with the parallel shrinkage joint of multiple tracks, parallel vertical face, described shrinkage joint; At the concrete substrate back side and be arrange needle-punched geotextiles behind shrinkage joint.

Preferably, the degree of depth of described filled ground is not less than 2 meters.

The beneficial effects of the utility model are: lay geo-grid and successively banket, and geo-grid is formed revers turn part, fill inclusion enclave, and be sewed together in revers turn part end and geo-grid in revers turn part; Synchronously can carry out the laying of metope reinforcing bar while successively banketing, and anchor pole is set, then carry out cast in situs metope; So, solve the problem of construction space and closing slope.Before banketing in earth's surface, carry out changing filling out filled ground with rubble, thus reinforced earth bulkhead is placed on good ground.Adopt above measure in sum, not only solve the problem of building up station roadbed reconstruction on filled ground, technology is simple, practical, convenient, economical, and safely, steadily.

Accompanying drawing explanation

Fig. 1 is section structure schematic diagram of the present utility model

Fig. 2 is the A place enlarged diagram in Fig. 1

Fig. 3 is the schematic diagram of mating formation of the utility model individual layer geo-grid

Fig. 4 is the utility model expanded joint structure schematic diagram

In figure: geo-grid 1, filler 2, filled ground 3, reinforced earth bulkhead 4;

Wherein: revers turn part 1.1, first 1.2, second 1.3, pitman 1.4, anchor pole 4.1, body of wall 4.2, panel 4.3, inclusion enclave 4.4, concrete substrate 4.5, vertical muscle 4.6, perpendicular muscle 4.7, strip foundation 4.8, cap stone 4.9, tapping pipe 4.10, shrinkage joint 4.11, needle-punched geotextiles 4.12.

Detailed description of the invention

Below by Fig. 1 ~ Fig. 4 and the mode enumerating embodiment more of the present utility model; be described in further detail technical scheme of the present invention (comprising optimal technical scheme), any technical characteristic in the present embodiment and any technical scheme all do not limit protection domain of the present utility model.

As depicted in figs. 1 and 2, existing railway station roadbed light supporting structure on the filled ground of the utility model design, comprise multilayer geo-grid 1, be provided with filler 2 (being generally earth) between multilayer geo-grid 1, below geo-grid 1, be provided with filled ground 3; Described geo-grid 1 side is provided with reinforced earth bulkhead 4 and this side geo-grid 1 is provided with revers turn part 1.1; Described reinforced earth bulkhead 4 comprises the body of wall 4.2 and panel 4.3 that are connected by multiple anchor pole 4.1, described body of wall 4.2 comprises the multiple inclusion enclaves 4.4 be successively filled in described revers turn part 1.1---and preferred, described inclusion enclave 4.4 is for spreading the plastic knitting bagged sand folder gravel mixing grass-seed, described panel 4.3 comprises concrete substrate 4.5 and is crisscrossly arranged on vertical muscle 4.6 in concrete substrate 4.5 and perpendicular muscle 4.7, and is positioned at the cap stone 4.9 that filled ground 3 is built in the strip foundation 4.8 below concrete foundation 4.5 and is positioned at above concrete foundation 4.5; Described anchor pole 4.1 one end connection lengthwise rib 4.6, the other end passes and stretches into filler 2 in body of wall 4.2, and described anchor pole 4.1 is crisscross arranged every 0.9 ~ 1.0 meter of upper and lower, left and right.

Preferably, the height of described reinforced earth bulkhead 4 is not more than 10 meters, and ratio of slope is 1:0.25.

As shown in Figure 3, geo-grid 1 comprises revers turn part 1.1, described revers turn part 1.1 comprises on earthwork grid 1 second 1.3 of first 1.2 of coated described inclusion enclave 4.4 and back-pressure, described second 1.3 is sewed together by pitman 1.4 and geo-grid 1 are hole-specifically interspersed, and described pitman 1.4 is special plastic pitman; Preferably, length L >=2 meter of described revers turn part 1.1.

Again as depicted in figs. 1 and 2, from the tapping pipe 4.10 described panel 4.3 stretching in body of wall 4.2 multiple uniform length 1 meter, described tapping pipe 4.10 is crisscross arranged up and down, adjacent tapping pipe 4.10 be spaced apart 0.9 ~ 1 meter.

As shown in Figure 4, described panel 4.3 comprises concrete substrate 4.5, strip foundation 4.8 and cap stone 4.9, and they are all interval with the parallel shrinkage joint of multiple tracks 4.11, described shrinkage joint 4.11 parallel vertical plane; At concrete substrate 4.5 back side and be arrange needle-punched geotextiles 4.12 behind shrinkage joint 4.11; Shrinkage joint 4.11 is generally wide is 0.02 meter, 10 meters, interval, and needle-punched geotextiles 4.12 is wide is 0.4 meter.

Again as shown in Figure 1, filled ground 3 adopts to excavate to change and is filled into row basement process, reinforced earth bulkhead 4 is made to be placed on good ground, general employing rubble carries out changing filling out, changing and filling out shape is inverted trapezoidal shape, depth H >=2.0m, inverted trapezoidal top width is that reinforced earth bulkhead 4 bottom width both sides respectively add 1.5m, and trapezoidal hypotenuse ratio is 1:0.25.

Again as shown in Figure 1, inflection length L ' the > L at two layers, geo-grid 1 top, general L ' >=3.0 meter.

Claims (10)

1. existing railway station roadbed light supporting structure on a filled ground, comprise multilayer geo-grid (1), filler (2) is provided with between multilayer geo-grid (1), geo-grid (1) below is provided with filled ground (3), it is characterized in that: described geo-grid (1) side is provided with reinforced earth bulkhead (4) and this side geo-grid (1) is provided with revers turn part (1.1), described reinforced earth bulkhead (4) comprises the body of wall (4.2) and panel (4.3) that are connected by multiple anchor pole (4.1), described body of wall (4.2) comprises the multiple inclusion enclaves (4.4) be successively filled in described revers turn part (1.1), described panel (4.3) comprises concrete substrate (4.5) and is crisscrossly arranged on vertical muscle (4.6) in concrete substrate (4.5) and perpendicular muscle (4.7), and be positioned at the strip foundation (4.8) that filled ground (3) is built in concrete foundation (4.5) below and the cap stone (4.9) be positioned at above concrete foundation (4.5), described anchor pole (4.1) one end connection lengthwise rib (4.6), the other end passes and stretches into filler (2) in body of wall (4.2).

2. existing railway station roadbed light supporting structure on filled ground according to claim 1, is characterized in that: described inclusion enclave (4.4) is for spreading the plastic knitting bagged sand folder gravel mixing grass-seed.

3. existing railway station roadbed light supporting structure on filled ground according to claim 1, is characterized in that: described revers turn part (1.1) comprises first (1.2) and second (1.3) of the back-pressure on earthwork grid (1) of coated described inclusion enclave (4.4).

4. existing railway station roadbed light supporting structure on filled ground according to claim 3, is characterized in that: described second (1.3) are sewed together by pitman (1.4) and geo-grid (1) are hole-specifically interspersed.

5. existing railway station roadbed light supporting structure on the filled ground according to claim 1 or 3, is characterized in that: the length of described revers turn part (1.1) is not less than 2 meters.

6. existing railway station roadbed light supporting structure on filled ground according to claim 1, it is characterized in that: in body of wall (4.2), stretch into multiple uniform tapping pipe (4.10) from described panel (4.3), described tapping pipe (4.10) is crisscross arranged up and down, adjacent tapping pipe (4.10) be spaced apart 0.9 ~ 1 meter.

7. existing railway station roadbed light supporting structure on filled ground according to claim 1, is characterized in that: the height of described reinforced earth bulkhead (4) is not more than 10 meters.

8. existing railway station roadbed light supporting structure on the filled ground according to claim 1 or 7, is characterized in that: the ratio of slope of described reinforced earth bulkhead (4) is 1:0.25.

9. existing railway station roadbed light supporting structure on filled ground according to claim 1, it is characterized in that: described panel (4.3) is interval with the parallel shrinkage joint of multiple tracks (4.11), described shrinkage joint (4.11) parallel vertical face; At concrete substrate (4.5) back side and be arrange needle-punched geotextiles (4.12) behind shrinkage joint (4.11).

10. existing railway station roadbed light supporting structure on filled ground according to claim 1, is characterized in that: the degree of depth of described filled ground (3) is not less than 2 meters.