SU250968A1 - HERMETIC SHEET FOR PASSAGE - Google Patents

Description

one

Hermetic shields for penetrating under hydrostatic pressure of tunnels in unstable aquiferous soil are known, comprising a housing with a hydraulic loading chamber, a device for hydraulic extraction and transportation of soil, and (pulpovod with a built-in valve included in the electrical circuit of the shield.

The purpose of the invention is to ensure the stability of the hydrostatic pressure in the hydraulic chamber of the shield while simultaneously removing the soil and hydrotransport of the pulp.

For this, a choke valve is installed on the slurry line, the rotary element of which is connected by means of a lever to the stem of the hydraulic cylinder.

The hydraulic cylinder is integrated into the hydraulic network of an electro-hydraulic amplifier, which, in turn, is connected to the electrical circuit of the switchboard and connected via an input potentiometer to an electric pressure sensor of the hydraulic chamber, and through an output potentiometer connected in feedback to the stem of the hydraulic cylinder.

FIG. 1 depicted described hermetic shield, longitudinal section; in fig. 2 is a throttle valve control circuit.

selection and transportation of soil and pulpwater 4.

A throttle valve 5 is installed on the slurry line between the hydraulic loading chamber and the mechanism for the extraction and transportation of soil. The rotary element 6 of the valve is made in the form of a cylinder with an orifice whose diameter is equal to the diameter of the longitudinal guide. The rotation of the element is carried out by the hydraulic cylinder 7, the rod 8 of which is connected by means of the lever 9 with the rotating element 6.

With sufficient power of the hydraulic cylinder, the edge of the rotary cylinder, when closed, will crush or throw stones into the strut that may be in the valve body during its closure.

The operation of the jack is controlled by an electro-hydraulic amplifier 10 (spool type, damper nozzle, etc.). Amplifier connected to

an electric pressure sensor 11 through an input Potentiometer .12 to feedback through an output potentiometer 13 with a jack rod.

Throttle valve principle

following.

The valve is automatically activated when the hydrostatic pressure in the submersible hydraulic loading bottomhole or receiving chamber of the shield changes relative to the pressure rating in the bottomhole or receiving shield chamber. As the pressure in the chamber increases, the throttle valve opens slightly.

The operation of the throttle valve leads to a change in the hydraulic resistance of the slurry line, and as a result, the pumping a-parameters are automatically entered into an operation mode that ensures the transportation of pulp flow equal to the total water and soil flow coming from the bottom. At the same time, the water pressure chamber of the shield continuously maintains water pressure equal to the hydrostatic pressure in the soil massif, thereby eliminating the possibility of uncontrolled deformations of the soil massif and providing a normal mode of penetration when combining soil from the bottom of the pulp and hydro transport.

In the event of a change in the hydrostatic pressure in the bottomhole, a corresponding adjustment of the pressure sensor is made.

Subject invention

A hermetic shield for driving under the hydrostatic pressure of tunnels in unstable aquiferous soil, comprising a housing with a hydraulic loading chamber placed in it, a device for hydraulic extraction and transportation of soil, a slurry line with a built-in valve in it

electrical circuit board, characterized in that, in order to ensure the stability of the hydrostatic pressure in the hydraulic chamber of the shield. in the simultaneous selection of soil and hydrotransport of slurry, in the slurry line

a throttle valve is installed, the rotary element of which is connected by means of a lever with a rod of a hydraulic cylinder, built into the hydraulic network of an electro-hydraulic amplifier, included in

in turn, into the electrical circuit of the switchboard and connected via an input potentiometer with an electric pressure sensor of the hydraulic chamber, and feedback through the output potentiometer connected to

hydraulic cylinder rod.