SU691570A1 - Tunneling shield - Google Patents

Description

(54) TUNNEL SHIELD SHIELD

. . I

The invention relates to construction, mainly in tunneling, and concerns shields for tunneling in water-saturated soils such as sandy loam, loam, clay.

The invention can be used for the construction of aboveground structures, tunnels for transport, municipal and industrial purposes.

A device for electrical drying is known, in which the power supply ensures the transmission of a constant electric current through water-saturated Rocks and causes electro-osmotic forces, under the action of which water moves from the anode to the cathode. The dried rock is compacted by changing its structure.

The disadvantage of this device is the relatively high cost of the additional work involved in the device anodes.

The closest technical solution to the proposed is shit for

tunnel tunnels, including the inner and outer annular hulls of the hull, interconnected, and shield jacks 2 j.

The disadvantage of this device is the high complexity of the work on the waterproofing of the tunnel carried out in water-saturated rocks.

The purpose of the invention is to reduce the complexity of the work on the waterproofing of the tunnel.

The goal is achieved by the fact that the inner shell is perforated and rigidly connected to the outer by means of a dielectric, with a negative pole attached to the outer shell and a positive pole of the DC source to the inner shell.

FIG. 1 shows a shield for driving tunnels, a longitudinal section; in fig. 2 - section A - A in FIG. one; in fig. 3 - section B - B in FIG. one.

The sheath has an inner shell of 1, ((the Auger part 2 of which is attached 3c to the IOLOJTGLT.IOM riO-IIrtny IG: T (ILPRJoin. In addition, it contains a sypben BtiotiiiicH RING OV.po (3, aioclockT) and a hardened set of anelectric syngene BH); 11) from the source to the negative pole of the source of electrical energy. It is sheathed with 4 jacks with a pipeline 5 to drain electrolyte. and, remaining there until the end of the work cycle, exposes with electrochemical processing. As a result of the small distance between shells 1 and 3, electro-treatment of the soil takes place sufficiently bistro.When the soil is treated with current, it is strengthened and the drainage of ground water from the positively charged knife part 2 of the inner shell 1 to the negatively charged Noah outer shell 3. To collect and remove water, shell 3 is made with a perforated surface. . The greatest strength and degree of drainage is achieved in the anodic zone (in a negatively charged outer shell and the best water resistance of the fixed. Soil is in the cathode zone (in the inner shell). At the end of the working cycle, the shield is pressed into the ground. The processed soil remains in place A new soil appears in the annular shells by the electrodes. In this case, around the tunnel lining, the formations of Pu.1704 per / 1from nnnurnu.iii are glued to the ground. Parallelism from type.h can be used for grunts and filtering methods: approx. (Pc1p.pichnyh ways to work on the ground: electrophoresis, electrolytic treatment, elocation, elictrosilication). Specific hydrogeological conditions. J o rumula of the invention of the Schit for tunneling, including the inner and outer annular shells of the hull, interconnected, and panel jacks, characterized in that, in order to reduce the labor intensity t on the waterproofing of the tunnel, the inner shell is made perforated and rigidly connected to the outer by means of a dielectric, with a negative pole attached to the outer shell, and a positive pole of the DC source to the B morning light. Expertise 1. Velichkin, EA, et al., Construction of Tunnels and Metro, Moscow, Transport, 1971, pp. 231-234. 2. USSR Author's Certificate No. 307160, cl. E 02 F 5/18, 1969 (prototype) .. Soil C and pineapple structure

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