RU2017130587A - SCREW CONVEYOR, SHIELDING MACHINE MACHINE CONTAINING SUCH CONVEYOR AND METHOD FOR MANAGING IT - Google Patents

Claims (55)

1 Screw conveyor, characterized in that the said screw conveyor has an input end and an output end and contains: a screw shaft, while the inside of said screw shaft is hollow to form a central channel passing through it; helical blades, wherein said helical blades surround the outer wall of said screw shaft; and a drive element designed to bring the specified screw shaft into rotation.
2 Screw conveyor according to claim 1, characterized in that a filter is provided near the specified input end of said screw shaft.
3 Screw conveyor according to claim 2, characterized in that said filter is a perforated plate.
4 Screw conveyor according to claim 1, characterized in that said drive element comprises: hydraulic motor; a worm, wherein said worm is connected to an output shaft of said hydraulic motor; and the worm wheel, while the teeth outside the specified worm wheel mesh with said worm and said worm wheel is worn on said screw shaft to bring said screw shaft into rotation.
5 A screw conveyor according to claim 1, characterized in that said drive element comprises: hydraulic motor; a gearbox, wherein said gearbox is connected to an output shaft of said hydraulic motor; a rotating support, wherein said rotating support is connected to said gear; and a drive flange, wherein said drive flange is connected to said rotating support and said drive flange is connected by welding to a helical blade.
6 Machine for paneling, characterized in that it contains: cutting disc; a bottom-hole chamber, wherein said bottom-hole chamber is located on the rear side of said cutting disc; the inlet pipe for the solution, while the outlet for the solution of the specified inlet pipe for the solution is in communication with the specified bottomhole chamber and is made in the upper part of the specified bottomhole chamber; screw conveyor according to any one of paragraphs. 1-5, while the input end of the specified screw conveyor passes into the specified bottom-hole chamber to remove from the specified bottom-hole chamber the soil located in the specified bottom-hole chamber; said input end is located at the bottom of said bottomhole chamber; and the specified Central channel is in communication with the specified bottom-hole camera; an exhaust pipe, wherein the inlet of said solution outlet pipe is in communication with a central channel; the outlet of the outlet pipe for the solution, while one end of the specified outlet of the outlet pipe for the solution is in communication with the space between two adjacent screw blades, and its other end is in communication with the exhaust pipe; and a belt conveyor, wherein one end of said belt conveyor is located at a location of said output end of said screw conveyor.
7 Machine for panel driving according to claim 6, characterized in that it further comprises a fixed holder, wherein said fixed holder is connected to said screw conveyor and provided with a connecting channel, wherein one of the two ends of said connecting channel is in communication with said central channel, and the other is in communication with said exhaust pipe.
8 Machine for panel driving according to claim 7, characterized in that the said fixed holder is located near the specified output end.
9 The machine for shield driving according to claim 6, characterized in that one end of the specified outlet of the outlet pipe for the solution is located near the specified output end.
10 Machine for panel driving according to claim 6, characterized in that it further comprises: a first reverse circulation pipe, wherein one end of said first reverse circulation pipe is in communication with said inlet pipe for the solution, and its other end is in communication with said exhaust pipe; a second reverse circulation pipe, wherein one end of said second reverse circulation pipe is in communication with said solution inlet pipe, and one end of said second reverse circulation pipe is closer to said solution outlet than one end of said first reverse circulation pipe, and its other end is in communication with the specified exhaust pipe and the other end of the specified second reverse circulation pipe is located farther from the specified inlet for the solution than the carbon end of said first reverse circulation pipe; a first reverse circulation control valve, wherein said first reverse circulation control valve is mounted on said first reverse circulation pipe to control closing and opening of said first reverse circulation pipe; a second reverse circulation control valve, wherein said second reverse circulation control valve is mounted on said second reverse circulation pipe to control closing and opening of said second reverse circulation pipe; a first solution discharge control valve, wherein said first solution release control valve is installed between said one end of said first return pipe and said one end of said second return pipe; and a second solution outlet control valve, wherein said second solution outlet control valve is installed between said other end of said first reverse circulation pipe and said other end of said second reverse circulation pipe.
11 Machine for panel driving according to claim 10, characterized in that it further comprises a third solution discharge control valve, wherein said third solution release control valve is installed between said solution outlet and one end of said second return pipe.
12 Machine for panel driving according to claim 10, characterized in that it further comprises a fourth solution discharge control valve, wherein said fourth solution release control valve is installed between the other end of said first reverse circulation pipe and said solution inlet.
13 Machine for panel driving according to claim 11, characterized in that it further comprises a bypass pipe, while one end of the specified bypass pipe is in communication with the specified inlet pipe for the solution, and its other end is in communication with the specified exhaust pipe.
14 Shield driving machine according to claim 13, characterized in that one end of said bypass pipe is located between said third solution control valve and one end of said second return pipe, and the other end of said bypass pipe is located between the other end of said outlet pipe for the solution and the other end of said first reverse circulation pipe.
15 The machine for shield driving according to claim 6, characterized in that a tap control valve is provided on said branch of the outlet pipe for the solution.
16 A method of controlling a machine for panel driving, characterized in that the specified machine for panel driving is a machine for panel driving according to any one of paragraphs. 6-15, while the specified machine for switchboard driving provides for a ground load mode and hydroprotruction and the specified machine for switchboard driving additionally contains a bypass pipe, while one end of the specified bypass pipe is in communication with the specified inlet pipe for the solution, and its other end is in communication with the specified exhaust pipe; said shield driving machine further comprises a first reverse circulation pipe and a second reverse circulation pipe, wherein one end of said first reverse circulation pipe is in communication with said solution inlet pipe, and its other end is in communication with said discharge pipe; one end of said second return pipe is in communication with said solution inlet pipe, and one end of said second return pipe is closer to said solution outlet than one end of said first return pipe, and its other end is in communication with the outlet pipe and the other end of said second return pipe are located farther from said solution inlet than the other end of said first return pipe and; wherein when switching the specified machine for panel driving from the specified regime of the soil loader in the specified mode of hydraulic loading the specified control method includes the steps in which: S10 - stop driving the specified machine for panel driving and close the hole to remove debris at the output end of the specified screw conveyor with the formation of a dirt plug in the inner part of the specified screw conveyor; S20 - apply the bypass operation of the specified machine for shield penetration, while the clay solution after it is fed into the specified bypass pipe through the specified inlet pipe for the solution is removed through the specified outlet pipe for the solution and ensure its normal passage through the pipeline for the clay solution; S30 - in the pressure maintenance mode, a clay solution is supplied to said bottomhole chamber, wherein said bypass pipe is closed, and said clay solution flows from said solution inlet pipe to said bottomhole chamber; carry out pressure equalization in the specified bottom-hole chamber due to the operation of the air pressure maintenance system; S40 - switch to reverse circulation mode after filling said bottomhole chamber with clay mud, wherein said clay mud passes from said inlet pipe for solution into said first reverse circulation pipe, enters said outlet pipe for mud, and then passes into said bottomhole chamber; after filling said bottom-hole chamber with said clay solution, said clay solution passes through said inlet pipe for a solution and said second reverse circulation pipe and enters said outlet pipe for a solution with subsequent withdrawal; developed soil from the specified bottomhole chamber is washed out several times, while ensuring the operation of the specified cutting disk at low speeds to mix the specified developed soil and at the same time activate the automatic pressure relief valve to regulate the pressure in the specified bottomhole chamber; S50 - after a certain period of stable operation in reverse circulation mode, they switch back to sinking mode to perform normal sinking, while the specified clay solution from the specified inlet pipe for the solution passes into the specified bottomhole chamber and the specified clay solution is discharged through the specified outlet pipe for the solution; when switching the specified machine for panel driving from the specified mode of hydraulic loading in the specified mode of soil loading the specified control method includes the steps in which: T10 - reduce the rotation speed of the specified cutting disk to 0.5 rpm or lower, while the penetration rate is less than 15 mm / min; turn off the specified pump for the inlet of the solution installed on the specified inlet pipe for the solution, to stop supplying the clay solution with the implementation of its removal in the specified mode of reverse circulation, while during the removal of the solution by matching the flow rate of the solution discharged by the pump to discharge the solution installed on the specified outlet pipe for the solution, with a penetration rate equalize the pressure in the specified bottomhole chamber; T20 - if there is a clear increase in the torque of the indicated cutting disk in the presence of soil broken off by the operation of the specified cutting disk in the specified bottomhole chamber, its accumulation in its lower part and the gradual lifting of the specified soil, check whether the diaphragm valve is blocked, check its position from from the bottom to the top, and after ensuring that the specified gate valve is completely blocked in one position, it is checked again whether it is blocked in the next position until the said valve is completely blocked in topmost position; T30 - after the rotation of the indicated cutting disk is stopped, the advancement of the indicated machine for shield penetration is stopped, the solution is continued to be withdrawn in the reverse circulation mode, and at the same time, the automatic pressure maintenance system is activated to equalize the pressure in the specified bottomhole chamber while the indicated pump is for release the solution will not create a vacuum, the specified pump for the release of the solution is turned off and the valve of the diaphragm is closed; T40 - open the specified hole to remove the debris of the specified screw conveyor, while the degree of opening does not exceed 20%, include the specified cutting disk, the specified machine for the shield driving is again started to move forward, start operation in the specified mode of the soil loader and through the specified screw conveyor and the specified conveyor belts transport soil in the specified bottomhole chamber to the surface.