SU1040046A1 - Filtering device - Google Patents

Abstract

FILTERING DEVICE: LENI, which includes a tubular body with a lower perforated part in which the water intake chamber is placed, and between the walls of the chamber chambers and the body there is a f-line strut, characterized by the fact that Optic structures, the tubular body is provided with a rigidly fused to the lower end of the floor, tapering downwards with a shoe having a 1m horizontal diaphragm located in the level of the body adjoining the shoe, with an opening in the central er part. F .U About o 4 35

Description

The invention of ognosigs to construction sites and could have been used in the construction of lowering joints in watercoursed soils, for example, lowering wells, diving or crushing of supports of various workings. Filtering devices are known that are rigidly associated with the knife of the lowering structure and located along its perimeter. The filtering devices are interconnected by the collection collection. rum connected to the pump l. The disadvantages of the known technical solution are: .a) the presence of a significant number of filtering devices, since the area of operation of each of the filtering devices connected to the common suction collector is insignificant; b) due to the limitation of the length of the filtering devices (needle filters) of a nevo, it is possible to achieve a complete drainage of the soil, over the whole area of the well an insufficient decrease in the depression curve, especially for large areas; c) limiting the possibility of using descents in aquifers with a high filtration coefficient (m / day), for which use. Needle filtering is impractical; d) due to the transfer to the filtering: the adaptations of large loads when the well is immersed there are irreversible alternating deformations and they leave: D t is malfunctioning; e) the difficulty of removing filtering devices from the ground, made in the form of removable filters. The closest to the invention in its essence and the resultant tattoo is filtering devices, including a tubular body with a lower perforated part, in which a water intake chamber is placed, with filtering bed 2 located between the chamber walls and the body. The disadvantages of it are the necessity of using a large number of filtering devices located outside the subsidence structure outside the limits of the collapse prism; the greater length of these devices, since the decrease in water during the sinking of the subsidence structure is, as a rule, arranged with the ground level; neo & S1XBB of pre-drilling a large number of wells to place filtering devices in the USA to a depth of, but greater than, the depth of the well; high consumption of casing pipes, electricity, increase in labor costs and time, work mechanisms, and therefore, a significant increase in the cost of work; the need to create a significant pre-drainage of the soil and maintain it at the design level during the process of plumbing the construction and production, which is unavoidable to prevent the descent of the descending structure, and the associated additional power consumption and, consequently, the cost of the work; the need, as a rule, to use for water lowering when submerging the descending structures of submerged pumps in connection with the required large lowering of the groundwater level and the impossibility of using light igloo filter installations and pumps oi for indoor drainage for these purposes; the inability to control the pumping of groundwater from dissociated aquifers when submerging a structure of intermittent multilayer soils (aquifers and watertight). The purpose of the invention is to increase the efficiency of the filtering device when used in descending structures. The goal is achieved by the fact that in the filtering device, which includes a tubular body with a perforated part in which a water intake chamber is placed, and between the walls G of the chamber and the body there is a filtering backplate, having a horizontal diaphragm located in the level of the abutment of the shoe to the body, with a hole in the central part. Ia drawing shows the filter, fixture, incision. Filtering device 1 contains a water intake chamber 2, which is located in the tubular body 3, in its lower perforated part 4. The gap between the water receiving chamber 2 and the perforated part 4 of the body 3 is filled with filtering material 5, for example sand and gravel. A bottom 6 is attached to the lower mountaineer of hull 3, which is hollow, cone-shaped and expanding upward. There is an opening 7 in the central part of the base of the shoe. The filtering device 1 is attached to the knife part 8 of the lowering coopjjKsmffl 9 jc using temporary fasteners 10. The lifting device works in the same way. After performing the lowering structure 9 or in the course of its execution, a filter arm of fixture 1 is attached to its knife part 8, and the shoe 6 with the body 3 below the knife part 8 T of the lowering structure 9 is placed into a pre-drilled well or a previously designed notch at the head, providing advanced drainage of soils at the base of the structure when it is immersed. In the process of immersion of the subsidence structure in aquifer soils, groundwater is pumped out of the filtering devices either by conventional centrifugal pumps or submersible pumps, or by means of a pneumatic installation. When pumping groundwater, small particles of soil are transported inside the water intake chamber 2. A hollow 6 is used as a settling tank to collect these particles, into which particles fall through an opening 7 in the central part of the base of the shoe 6. When immersion is submerged in moving multi-layer soils ( water-bearing and water-resistant) is indicated, the design of the filtering device allows for alternate pumping of groundwater from the aquifers, and at the intersection of the water-resistant layers stop. This saMbnwt significantly reduces power consumption and wear of the pumping means. After immersing the diving equipment at the design mark and completing the production of all the work performed under the water-lowering coating, the dredging equipment and filtering devices are removed. After that, small particles of the soil brought into it in the process of water pumping are removed from the shoe 6 and the filtering device is used on another object .. Compared with the known device, namely filtering devices located in the pre-drilled water wells The proposed invention significantly reduces the volume and, accordingly, the cost and laboriousness of soil drainage, or ntirovochno 50-60%. In addition, it eliminates the need for drilling downhole water wells, reduces metal consumption for casing and for: installation of fi ltruding devices 3-4 times, energy consumption 2-3 times, and also improves drainage conditions and shortens the period of preliminary drainage due to maximum proximity of the filtering devices to the contours of the excavation and the need to drain the soils to a lesser depth compared to the known object.

Claims (2)

FILTERING APPARATUS-: LEAF including a tubular casing with a lower perforated part, in which a water inlet chamber is located, and between the walls of the chamber and the casing there is a filtering filling, according to (71) Moscow Research Institute, in order to design and survey institute! improving work efficiency when using—; Mosvodokanalniiproekt). / Evaniye in lowering structures, pipe (53) 624.152.612: 624.157.6 (088.8) * The body is equipped with rigidly attached (56) 1. USSR author's certificate I “Gorniy Dvortsom hollow. E 02 D 23/14, 1967. 2. Kosterin E. V. Foundations and funk £ cements. M "Higher school, 1978 p. 105. (21) 3436396 / 29-33 (22) 05/06/82 (46) 09/07/83. Bull. No. 33 (72) S. I. Sinitsky, D. D. Sokolin, A". L. Mikhlin, A.V. Zelentsov and. V.A. Pevzner ey with a shoe having a horizontal diaphragm located at the level when the shoe is pushed to the body, with an opening in its central part. (AND) 1 1040046 2