RU2495196C1 - Method to install underground vertical cylindrical reservoirs - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method to install underground vertical cylindrical reservoirs consisting in digging a pit for a reservoir, installation of a foundation, installation of the reservoir into the foundation and its fixation to the foundation, testing of the mounted reservoir and filling of the space between the reservoir and the pit. Travelling forms are installed on the bottom of the pit on top of the reservoir, and the forms are made in the form of a cylinder without a base with a diameter defined in accordance with the expression d=d + 0.4m, where d - diameter of forms, d - reservoir diameter, m, with elements for gripping and moving of the forms in the upper part. Filling is carried out by layerwise filling of the space between the forms and the reservoir with sand, and between the forms and the pit - with soil with subsequent ramming of each layer. Then repeated filling of the forms is carried out with sand, and the pit is filled with soil, after moving of the forms upwards along the reservoir until full filling of the pit and withdrawal of the forms.

EFFECT: higher cost-effectiveness of installation of underground vertical cylindrical reservoirs, reduced material intensity and labour intensiveness of construction.

3 cl, 1 tbl, 4 dwg

Description

The invention relates to methods for mounting vertical underground cylindrical tanks primarily for storing liquefied gases.

A known method of installation of underground pipelines (US patent No. 4633602, class E02F 5/12), including a fragment of the trench, excavation by storage on one side of the trench, laying pipes, creating a soil cushion and filling the pipes with soil material using a wheeled transport machine, consisting of intake head, feeding soil from the blade to the conveyor belt, followed by feeding into a vibrating separator allowing small parts of the soil to fall through a sieve into the trench into the pipeline.

The disadvantage of this method is that the vibration of the separator leads to the churning of large pieces of rock and lumps of soil from the conveyor belt into the trench, damage to the protective coating of pipelines, which contributes to subsequent corrosion of the pipes. This circumstance causes the use of sandy soil pipelines to create an earth cushion, and soil removed from trenches should be removed from the construction site. In addition, the cumbersome structure and complex belt drive of the separator block lead to frequent equipment breakdowns, which increases the cost of construction and installation works.

The closest is the installation method of underground cylindrical tanks, including digging a pit under a tank, installing a foundation, installing a tank in a pit and attaching it to a foundation, testing a mounted tank, filling the tank installed in the pit with sand to full depth, and removing soil removed from the pit from the territory of the construction site (Trushin VM The device and operation of liquefied petroleum gas installations. - L .: Nedra, 1991, p. 92).

The disadvantages of this method is the need for backfilling with sand to the full depth of the pit and the removal of soil removed from the pit from the construction site, which increases the cost of installation work.

The objective of the proposed invention is to reduce sand consumption, reduce the complexity of the work performed and increase the efficiency of the installation.

The technical result of the invention is to increase the efficiency of the installation of underground vertical cylindrical tanks and the exclusion of the removal of excavated soil from the pit from the construction site.

The problem is solved in that when implementing the method of digging a pit under a tank, installing a foundation, installing a tank in a pit and attaching it to a foundation, testing a mounted tank and filling the space between the tank and the pit, according to the claimed technical solution, to the bottom of the pit on top a movable formwork installed in the form of a cylinder without a base with a diameter determined by the expression d _op = d _p +0.4 m, where d _op is the diameter of the formwork, d _p is the diameter of the re the tank, m, with elements for capturing and moving the formwork in the upper part, and backfilling is carried out by layer-by-layer filling of the space between the formwork and the reservoir - sand, and between the formwork and the foundation pit - soil, followed by their tamping of each layer, then the formwork is re-filled with sand and the foundation pit soil after moving the formwork up along the tank until the foundation pit is completely filled and the formwork is removed. In addition, the formwork is performed with a height of not more than 0.7 m, and the space between the formwork and the tank is filled with coarse sand.

New is that for the implementation of the installation method, a movable formwork is used in the form of a cylinder without a base 0.7 m high and a diameter determined by the expression d _op = d _p +0.4 m with elements for gripping and moving in the upper part, mounted on the bottom of the pit on top of the mounted underground reservoir and providing the creation of a sand cushion of the required thickness, preventing damage to the protective coating of the underground vertical cylindrical reservoir and eliminating heaving ground phenomena around the reservoir and as well as allowing the use of the previously excavated soil from the trench backfill.

The invention is illustrated by drawings, which show a structural diagram with the main elements giving an idea of the method and principle of its operation.

1 shows a movable formwork.

Figure 2 presents in section a diagram of the initial stage of installation of an underground vertical cylindrical tank using a movable formwork.

Figure 3 presents a top view of the initial stage of installation of an underground vertical cylindrical tank using a movable formwork.

Figure 4 presents a sectional diagram of an intermediate stage of installation of an underground vertical cylindrical tank using a movable formwork.

In the drawings (FIG. 1, FIG. 2, FIG. 3, FIG. 4), the following notations are accepted:

1 - pit; 2 - foundation; 3 - underground vertical cylindrical tank; 4 - movable formwork; 5 - sand; 6 - soil; 7 - element for gripping and moving.

The method of installation of underground vertical cylindrical tanks is as follows.

In the dug pit 1, a foundation 2 is installed, on which an underground vertical cylindrical tank 3 is installed and fastened, followed by a hydraulic and pneumatic test.

Then fill the underground vertical cylindrical tank 3, for which purpose, the movable formwork 4 (Fig. 1), made in the form of a cylinder without a base with a diameter determined by the expression d _op = d _p +0.4 m, where d _op is the diameter of the formwork , d _p - the diameter of the tank, m, is installed on the bottom of the pit 1, on top of the vertical cylindrical tank 3 (figure 2), so that between the movable formwork 4 and the tank 3 a clearance of 0.2 meters is provided (figure 3). In the space between the cylindrical vertical tank 3 and the movable formwork 4, sand 5 is poured with a layer of 0.2 m thick. To prevent heaving and lowering of seasonally frozen soils after installation, filling is carried out with coarse sand. Each layer is carefully compacted, for example, with a manual electric rammer, pouring with water to prevent sand precipitation after completion of installation work. Soil 6 previously removed from the foundation pit is poured into the space between the movable formwork 4 and the pit wall and compacted, after which the operations of partially filling the sand 5 and soil 6 are repeated until the sand level in the formwork 4 of the upper cylinder generatrix is reached, after which the movable formwork 4 is shifted up along the reservoir directly behind the elements for gripping and moving 7. Next, the movable formwork 4 is installed on previously compacted soil and I repeat the intermediate steps for filling the formwork and foundation pit (Figure 4) to complete the excavation backfill 1 and extraction displaceable formwork 4. Thereafter, the previously excavated soil from the trench 6 is formed over the mound of earth surface planirovochnoj height of 0.3 m on the whole surrounding area.

Movable formwork 4 (figure 2) is made of hot-rolled steel sheet with a thickness of 5 mm, a density of 7900 kg / m ³ according to GOST 19903-90. The design of the movable formwork 4 guarantees the necessary protective layer around an underground vertical cylindrical tank with a thickness of 0.2 m. Performing formwork 4 with a height of not more than 0.7 m provides the possibility of tamping sand using special tools with manual control.

Elements for gripping and moving 7 of the formwork 4 are made in the form of four mounting loops and arranged in pairs, opposite each other in the upper part of the formwork to ensure uniform shear during installation and to exclude the displacement of the movable formwork 4 relative to the axis and made with a rod diameter of 6 mm and a loop eye height 60 mm, corresponding to the sizes of the pull hooks of the cargo slings, made of steel of class A 240.

To evaluate the comparative effectiveness of the installation method of the installation of underground vertical cylindrical tanks, two options were compared. An underground vertical reservoir with a volume of 2.3 m ^{3 was} accepted as a basic option for comparison with construction and installation work using traditional technology with full filling of the foundation pit with coarse sand and soil removal from the construction site. As an alternative, an underground vertical tank with a volume of 2.3 m ³ using the proposed method for mounting underground vertical cylindrical tanks (table).

Comparative efficiency of installation methods of underground vertical cylindrical tanks Specifications and Parameters Traditional way Movable formwork method geometric dimensions of the tank, m: - length 2.1 - diameter 1,2 geometric volume of the tank, m ³ 2,3 excavation excavation pit, m ³ 39.3 the volume of soil exported to the dump, m ³ 33.8 - coarse sand consumption for backfilling of the pit, m ³ 39.3 4.6

Specifications and Parameters Traditional way Movable formwork method sand consumption reduction,% - 88.3 capital investments in filling the foundation pit with sand, thousand rubles 51,196 5.99 decrease in capital investments in sand filling,% - 88.3 Note to table 1. Cost characteristics are given in prices as of 01.01.12.

Thus, the application of the proposed method of mounting vertical underground cylindrical tanks allows us to solve the main problem of the invention - to exclude the removal of soil removed from the foundation pit from the territory of the construction site and increase the efficiency of construction and installation works.

Claims (3)

1. The method of installation of underground vertical cylindrical tanks, which consists in digging a pit under the tank, installing the foundation, installing the tank in the pit and attaching it to the foundation, testing the mounted tank and filling the space between the tank and the foundation pit, characterized in that they are installed on the bottom of the pit on top of the tank movable formwork made in the form of a cylinder without a base with a diameter determined by the expression d _op = d _p +0.4 m, where d _op is the diameter of the formwork, d _p is the diameter of the tank, m, with ntami to capture and move the formwork in the upper part, and filling is carried out by layer-by-layer filling of the space between the formwork and the reservoir - sand, and between the formwork and the foundation pit - soil, followed by tamping of each layer, then the formwork is re-filled with sand and the foundation pit after moving the formwork up along the tank until the foundation pit is completely filled and the formwork is removed. 2. The method carried out using the movable formwork according to claim 1, characterized in that the formwork is performed with a height of not more than 0.7 m 3. The method carried out using the movable formwork according to claim 1, characterized in that the space between the formwork and the tank is filled with coarse sand.

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