RU2611750C1 - Method for recovery of exhausted open pits for construction of cemetry - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method involves separate excavation, removal and storage in separate tape piles of topsoil and overburden, development of career fields, filling of exhausted space to the boundary of the upper level of ground water with construction waste, similar by composition to natural minerals with various grain size fractions, layered with followed consolidation of each layer, laying of drainage layer of building waste, with the grain size fraction 150-200 mm. Above the drainage layer an intermediate layer is backfilled with construction waste with the grain size fractions less than 120 mm. Backfilling is performed until the moment when the upper boundary of the intermediate layer reaches 1/2 of the height of exhausted space of the pit. Then, above the intermediate layer the initial backfilling of exhausted space of the pit with the mix consisting of waste rock, clay and crushed building waste with the grain fraction sizes less than 100 mm mixed in equal proportions. Moreover backfill is performed layer by layer with the thickness of each successive layer no more than 1 meter with compaction of each layer. This operation is performed before complete filling of exhausted space of the pit. Along the surface graded by bulldozer the surface of exhausted space of the pit is backfilled with the mix of sand and gravel, fraction 5, mixed in equal proportions with the minimum layer thickness 100 mm.

EFFECT: decrease of labour cost of recovery works, as well as soil protection from wind and water erosion.

Description

The invention relates to the technical reclamation of quarries remaining after the extraction of building stone and other surface minerals.

A known method of restoring disturbed lands during open-pit mining of deposits (1), selected as a prototype, includes separate excavation, transfer and storage of soil layer and overburden into separate tape dumps, development of a quarry field, laying of worked out space to the boundary of the upper groundwater level with construction waste , similar in composition to natural minerals with different particle sizes, layer by layer, followed by compaction of each layer, laying a drainage layer builder waste, with a thickness of not more than 0.6 meters and a grain size of 150–200 mm fractions and dumping of a layer of fertile soil.

The disadvantage of this method is to extract large volumes of soil to create a fertile layer, which in turn leads to the formation of large areas of disturbed land, an increase in labor costs and a significant increase in the cost of restoration work.

The present invention reduces labor costs and the cost of restoration work, and also protects the soil from wind and water erosion. To do this, in the method of restoring quarries for the construction of a cemetery, including separate excavation, moving and storing the soil layer and overburden, quarrying, laying the mined space to the boundary of the upper groundwater level with construction waste that is close in composition to natural minerals with different sizes fractions, layer by layer, followed by compaction of each layer, laying a drainage layer with construction waste, with a grain size of 150-200 mm, according to the invention an intermediate layer is poured over the drainage layer with construction waste with a grain size of not more than 120 mm until its upper boundary reaches 1/2 the height of the quarry pit space, then the primary pit mined out is poured over the pit with a mixture consisting of equal the proportions of overburden, clay and crushed building waste with a grain size of not more than 100 mm, and backfill is done in layers with a thickness of each subsequent layer of not more than meter with compaction of each layer and until the quarry mined-out space is completely filled, while on the surface planned by the bulldozer, the entire surface of the mined-out quarry is poured with a mixture of sand and gravel fraction 5 mixed in equal proportions with a layer thickness of at least 100 mm, followed by leveling , and not less than a year later, roads are brought in, they protect the entire area of the planned surface of the quarry mined out space intended for the construction of a future cemetery hydraulic engineering and land reclamation facilities, and the entire enclosed area of the planned surface of the future cemetery is divided into sections for the burial of the deceased, with passages between them, and the sites for the burial of the deceased are positioned so that future graves and tombstones located in each of the sections are facing towards Mecca.

The implementation of this technical solution reduces the cost of restoration work through the use of construction waste resulting from the reconstruction, demolition and repair of buildings and structures, and there is no need to extract large volumes of soil to create a fertile layer. Considering that the generated construction waste is taken to landfills for household and industrial waste, the introduction of this invention will improve the environmental situation and reduce the existing land deficit in the Moscow region. This technical solution is applicable for the construction of Muslim cemeteries.

The method is as follows. Initially, a separate quarry is made, moving and storing into separate tape dumps of the soil layer and overburden. Initially, planning works are performed on the area of the disturbed site. Territory planning is carried out with the planned surface giving a slight slope towards a general lowering of the earth's surface. Then, the developed space is laid to the boundary of the upper groundwater level with construction waste that is close in composition to natural minerals with different particle sizes, layer by layer, followed by compaction of each layer. In this case, each laid layer is compacted by rolling using sealing machines and mechanisms. After that, the drainage layer is laid with construction waste, with a grain size of 150-200 mm. The drainage layer is sprinkled in layers and each layer is compacted. An intermediate layer is poured over the drainage layer with construction waste with a grain size of not more than 120 mm. Dumping is carried out until the upper boundary of the intermediate layer reaches 1/2 the height of the mined quarry space. On top of the intermediate layer, primary filling of the quarry mined-out space is made with a mixture consisting of overburden, clay and crushed building waste mixed in equal proportions, while the size of the crushed building waste fractions should not exceed 100 mm. Backfill is done in layers until the quarry mined-out space is completely filled. The thickness of each subsequent layer should be no more than one meter. Each layer is sealed with sealing machines and mechanisms. Then, they plan the bulldozer for the entire surface of the filled quarry space. The entire surface of the filled quarry is poured with a mixture of sand and gravel fraction 5 with a layer thickness of at least 100 mm, leveled and compacted. In order to prevent deformation of the carried out remediation work on laying the mined-out quarry space, the surface layout is carried out in two stages. After applying the last layer of sand and gravel, fractions 5 give a temporary exposure of at least one year. Temporary exposure can be up to two years depending on the deformation of the surface of the mined quarry space. After the end of the temporary exposure, the final layout is made and, if necessary, additional backfill. Then they conduct road construction, enclose the entire area of the planned surface of the restored quarry, intended for the construction of a future cemetery. Hydraulic and land reclamation facilities are being erected. The entire fenced area of the planned surface of the future cemetery is divided into sections for the burial of the deceased with the device of passages between them, and the sites for the burial of the deceased are located so that future graves and tombstones located on each of the sections are facing Mecca. This technical solution is applicable for the construction of Muslim cemeteries.

Information sources

1. Patent of Russia No. 2274749, cl. E21C 41/32, 2006

Claims (1)

A method for restoring mined quarries for building a cemetery, including separate excavation, movement and storage of soil layer and overburden, development of a quarry field, laying of mined space to the boundary of the upper groundwater level with construction waste that is similar in composition to natural minerals with different grain sizes, in layers followed by compaction of each layer, laying the drainage layer with construction waste with a grain size of 150-200 mm, characterized in that, on top of the drain the intermediate layer is sprinkled with an intermediate layer with construction waste with a grain size of not more than 120 mm until its upper boundary reaches 1/2 of the height of the open pit space, then the primary layer is poured over the intermediate layer with a mixture consisting of mixed in equal proportions overburden, clay and crushed construction waste with a grain size of not more than 100 mm, and backfill is done in layers with a thickness of each subsequent layer of not more than one meter with compaction of each layer and until the quarry mined-out space is completely filled, while on the surface planned by the bulldozer, the entire surface of the mined-out quarry is poured with a mixture of sand and gravel fraction 5 mixed in equal proportions with a layer thickness of at least 100 mm, followed by leveling, and not less than a year later, roads are let down, the entire area of the planned surface of the quarry mined-out surface intended for the construction of a future cemetery is protected, natural and reclamation structures, and the entire enclosed area of the planned surface of the future cemetery is divided into sections for the burial of the deceased, with passages between them, and the sites for the burial of the deceased are located so that future graves and tombstones located in each of the sections are turned into side of Mecca.