SU1421757A2 - Hydraulic cutter - Google Patents

Abstract

The invention relates to the equipment of delayed coking units, in particular, to devices for the hydraulic unloading of oil coke from chambers, and allows to increase the yield of coke electrode fractions during the period of expansion of the central well. The hydraulic cutter includes

Description

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4 1C

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a cylindrical body 1, inside of which a central 6 is located; lateral 7 boring nozzles (c), cutting C 8. A central C 6 is provided with a sleeve 13 with slots 14 on the lateral surface.

. Inside the sleeve 13 is installed spring-loaded valve 15, overlapping With the expansion of the central well. 1 il.

The invention relates to the equipment of delayed coking units, in particular, to devices for the hydraulic unloading of petroleum coke from the chambers, and is an improvement of the invention according to the author. No. 1312088.

The purpose of the invention is to increase the yield of coke electrode fractions due to the increase in water pressure in the lateral drilling nozzles during the expansion of the well.

The drawing shows a hydraulic cutter, cut.

The hydraulic cutter has a cylindrical body 1 with a lid 2 and an internal cavity 3 in which vertical shafts A are placed for supplying water to the central b and lateral 7 boring nozzles and cutting blades 8 installed in the drill head 5 and the outlets of the nozzles 7 and 8 are offset from the axis symmetry. Nozzles 6-8 are provided with protrusions 9 and sleeves mounted on a threaded connection in housing 1, while the threads of nozzles 7 and 8 are made running. In housing 1 at the junction with nozzles 7 and 8 there is an annular recess 10 in which spring P is installed, placed between the protrusion 9 of the nozzle 7 (8) and the flare nut 12 fixed in the housing I, the sleeve 13 with slots 14 on the lateral surface is mounted on the central drilling nozzle 6. A valve 15 is installed inside the sleeve 13. A spring 16 is placed between the valve and the drill nozzle 6. A switching device (not shown) is installed in the upper part of the cutter body. The cutter body is protected from mechanical damage by kerchiefs 17.

Hydraulic cutter works as follows.

A cutter mounted on the lower end of the drill rod and set to the drilling mode is lowered into the chamber to the upper level of coke and include

5 high pressure water pump. Water under a pressure of 12.0–12.5 MPa, sufficient for drilling a vertical well, through the neck of the pipe 2 of the housing 1 comes through

W vertical trunks 4 in the drill head 5 and simultaneously acts on the end face of the nozzles 7. At the same time, the water pressure is not enough to compress the springs 11 and 16, therefore the water coming in

15 into the nozzles 7 and through the slots 14 in the sleeve 13 into the nozzle 6. A jet of water flowing out of the nozzles 6 and 7 is drilled into the coke in the central well, whose diameter is equal to the diameter of the hydro20 popesack,

To expand the well, the vdd pressure is increased to 16.0 MPa. With increasing pressure in the drill head 5

25 a pressure difference appears, as a result, the springs 11 and 16 are compressed. In this case, the nozzles 7 move up to the stop with cap nuts 12, which due to the threaded connection and the body acquire a rotational motion, and the outlet openings of the nozzles 7 are rotated by a given angle, and valve 15 closes the inlet of the central drill nozzle 6, stopping the flow of water into it. Thus, water streams emanating from the drill nozzles 7 expand the well. After that, the cutter is switched from the cutting mode to the cutting mode. Water through the mouth of the core 2 of the housing 1 enters the cavity 3, and the cutting nozzles 8 cut the coke until the coking chamber is completely released.

The design of the cutter eliminates the useless outflow of water from the central drill nozzle 6 during the expansion of the well and thereby increase the water pressure in the drill head of the cutter and, following Tej Ho, in the side drill nozzles 7,

As shown by industrial tests of the hydraulic cutter, the additional pressure of water in the side drill nozzles due to the elimination of water flow through the central nozzle allows for the expansion of the central well by 15

1.5% yield of electrode coke at the reactor site.

Claims (1)

Invention Formula Hydraulic cutter, by auth. No. 1312088, characterized in that, in order to increase the output of coke electrode fractions, the central drill nozzle is provided with a sleeve with slots on a side surface mounted in the inlet part of the nozzle and a spring-loaded valve located inside the sleeve.