CN110608003A - Automatic rock debris cleaning device - Google Patents

Abstract

A rock debris automatic cleaning device is characterized in that rock debris obtained by solid control is connected with a feed inlet, and a valve controlled by a control system is installed on the feed inlet. When the valve is closed, the rock debris cannot enter the device through the feed port. When the valve is opened, the rock debris enters the hopper through the feed inlet. After the hopper is full of rock debris, the servo motor drives the screw rod to control the connecting rod structure to open the hopper baffle, so that the rock debris enters the cleaning device, and then the baffle is automatically closed until the next circulating baffle is opened again. When the rock debris on the baffle is led into the flushing bin, the water in the water tank is pumped by the water pump through the water pumping pipe, water flow is distributed to each pipeline through the distributor and sprayed out by the nozzle to clean the rock debris in the flushing bin, the cleaned rock debris enters the debris receiving port through the discharging flange, the square filter screen is mounted on the debris receiving port, the cleaned clean rock debris is obtained on the square filter screen, the cleaned water enters the water tank, and the rock debris is taken out from the square filter screen so as to be dried, tested and stored.

Description

Automatic rock debris cleaning device

Technical Field

The invention belongs to the field of elements of petroleum geology exploration logging, and particularly relates to an automatic rock debris cleaning device.

Background

Through the investigation of the drilling sites of various large oil fields at present, the petroleum industry in China always depends on manual rock debris fishing and cleaning. The manual cleaning method is to manually place the collected rock debris mixture in a basin or a barrel filled with water, stir and clean the mixture by a wood bar, and then fish the mixture out. The method has low efficiency, damages to human skin, has insufficient cleaning degree, directly reduces the detection precision of element logging, wastes a large amount of manpower and material resources and increases the cost. If the operation is not carried out according to the operation flow, the detection result can be influenced, hidden dangers are brought to subsequent drilling work, and larger and more direct economic losses can be caused under the out-of-control condition. With the continuous improvement of the drilling process, the drilling speed is continuously improved, and the difficulty and the strength of the rock debris logging are increasingly higher. The manual rock debris cleaning method is limited by time, quantity, standards and the like, and is large in workload, complicated and easy to lose. Particularly, in recent years, with the application of new drilling technologies such as underbalance and high-pressure injection, rock debris with certain purity can not be obtained, so that an automatic cleaning machine is urgently needed to replace the laggard manual operation mode, and a reliable basis is provided for petroleum exploration and development decisions.

Disclosure of Invention

The rock debris cleaning device aims at the problems that the manual labor intensity is high, the automation degree is low, the collection efficiency is low, the cleaning cleanliness is not enough, and the rock debris data recording is not accurate at present. A device for automatically cleaning rock debris is researched, so that the on-site rock debris is automatically fished and cleaned, human resources are liberated to the maximum extent, the accuracy of rock debris data recording is improved, and a reliable basis is provided for exploration and development of petroleum.

The technical scheme adopted by the invention is as follows:

as shown in figure 1, the rock debris obtained by solid control is connected with a feed inlet, and a valve controlled by a control system is arranged on the feed inlet. When the valve is closed, the rock debris cannot enter the device through the feed port. When the valve is opened, the rock debris enters the hopper through the feed inlet. After the hopper is full of rock debris, the servo motor drives the screw rod to control the connecting rod structure to open the hopper baffle, so that the rock debris enters the cleaning device, and then the baffle is automatically closed until the next circulating baffle is opened again.

As shown in fig. 2, the leading-in washing storehouse of detritus on the baffle, the suction pump normally works this moment, through the water in the drinking-water pipe extraction water tank, rivers shunt to each pipeline and by the nozzle blowout through the distributor, the nozzle of 360 degrees all-round installations can make in the washing storehouse wash detritus efficiency and reach the highest, detritus mud mixture is washed and is rolling motion under the efflux effect by openly, the water jet can ensure to wash the detritus evenly and remain the washing of detritus to the washing storehouse. The cleaned rock debris enters the debris receiving port through the discharging flange, the square filter screen is installed on the debris receiving port, cleaned clean rock debris is obtained on the square filter screen, cleaned water enters the water tank, water for spraying the rock debris flows into the water tank to be deposited, then the water is pumped by the water suction pump to clean the rock debris through water spraying, so that the cleaned sewage is recycled, the mud content in the deposited sewage is gradually increased, the water in the water tank is integrally replaced, and the water resource is saved and recycled. The cleaned rock debris falls into the square filter screen through the discharge flange, and the rock debris can be taken out from the square filter screen so as to be dried, tested and stored according to logging requirements such as drilling footage sampling or continuous sampling.

The invention has the beneficial effects that:

1. the device can effectively reduce the labor intensity of field mud workers in oil fields. Reduce the human interference, realize the detritus and fish for and wash integration. Finally, a new breakthrough of the rock debris fishing and cleaning industry is realized, the bottleneck of the original manual rock debris fishing and cleaning device is broken, and the manpower is liberated.

2. The rock debris output by the rock connecting port is continuous and is consistent with the change of the stratum. And (4) randomly setting a sampling interval and accurately sampling. Thereby fully meeting the requirements of rock debris sampling analysis under different operation conditions.

3. The device obtains control to the volume of fishing for of detritus to showing the clear degree that improves the collection efficiency and the logging of detritus, thereby promoting the accuracy of detritus data admission, improving logging efficiency. And a reliable basis is provided for the exploration and development of petroleum.

Drawings

FIG. 1 is a schematic structural diagram of a rock debris taking device;

FIG. 2 is a schematic structural diagram of a rock debris cleaning device;

FIG. 3 is a schematic view of the overall structure of the automatic rock debris cleaning device;

in the figure: 1. servo motor 2, lead screw 3, feed inlet 4, valve 5, hopper 6, baffle 7, connecting rod structure 8, flushing bin 9, nozzle 10, distributor 11, discharge flange 12, water pump 13, scrap receiving port 14, square filter screen 15, water pumping pipe 16, support frame 17 and water tank

Detailed Description

The technical scheme of the invention is further explained by combining the attached drawings.

As shown in figure 1, the rock debris obtained by solid control is connected with a feed inlet (3), and a valve (4) controlled by a control system is arranged on the feed inlet (3). When the valve (4) is closed, the rock debris cannot enter the device through the feed port (3). When the valve (4) is opened, the rock debris enters the hopper (5) through the feeding hole. After the hopper (5) is full of rock debris, the servo motor (1) drives the screw rod (2) to control the connecting rod structure (7) to open the hopper baffle (6), so that the rock debris enters the cleaning device, and then the baffle (6) is automatically closed until the next circulating baffle is opened again.

As shown in figure 2, when the rock debris on the baffle (6) is guided into the flushing bin (8), the water suction pump (12) normally works at the moment, water in the water tank (17) is extracted through the water suction pipe, water flow is distributed to each pipeline through the distributor (10) and is sprayed out through the nozzles (9), the rock debris flushing efficiency can reach the highest through the nozzles (10) which are arranged in the flushing bin in 360 degrees in an all-around mode, the rock debris slurry mixture is flushed in the front side and rolls under the action of jet flow, and the water jet can ensure that the rock debris is flushed uniformly and the residual rock debris in the flushing bin is flushed. The cleaned rock debris enters the debris receiving port (13) through the discharging flange (11), the square filter screen (14) is installed on the debris receiving port (13), cleaned rock debris is obtained on the square filter screen (14), the cleaned water enters the water tank (17), the water for spraying and cleaning the rock debris flows into the water tank (17) to be precipitated, and then the water is pumped by the water suction pump (12) to clean the rock debris through water spraying, so that the cleaned sewage is recycled, the mud content in the precipitated sewage is gradually increased, the water in the water tank is integrally replaced, and the water resource is saved and recycled. The cleaned rock debris falls into the square filter screen through the discharge flange, and the rock debris can be taken out from the square filter screen so as to be dried, tested and stored according to logging requirements such as drilling footage sampling or continuous sampling.

As shown in figure 3, the automatic rock debris cleaning device is composed of an upper part and a lower part, wherein the first part is a rock debris taking device as shown in figure 1. The second part is a rock debris cleaning device, as shown in fig. 2. The axial mounting of the two parts is shown in fig. 3, and the direction of movement of the debris from the first part to the second part is shown by the arrows in fig. 3. The device realizes that the detritus is dragged for and is washd the integration, has promoted the accuracy of detritus data admission, improves logging efficiency.

Claims (3)

1. An automatic rock debris cleaning device comprises a rock debris taking device and a rock debris cleaning device; the first part of the rock debris taking device is positioned below the feeding hole (3), the baffle (6) below the hopper (5) is driven to move up and down through the servo motor (1) and the lead screw (2), and the opening or closing time of the baffle (6) is manually set through a control system, so that the interval time for taking rock debris is adjusted; the rock debris flows to a hopper (5), and an automatic valve (4) is arranged on the feeding hole (3); when the rock debris is taken, the valve (4) is opened, the servo motor (1) drives the baffle (6) to perform opening and closing movement, after the baffle (6) is opened, the rock debris flows to the rock debris cleaning device from the hopper (5), and the valve (4) is closed, so that the rock debris taking can be stopped; the second part is a rock debris cleaning device, when rock debris on a baffle (6) is guided into a flushing bin (8), a water suction pump (12) works normally at the moment, water in a water tank (17) is pumped through a water suction pipe, water flow is distributed to each pipeline through a distributor (10) and is sprayed out through a nozzle (9), the efficiency of flushing the rock debris can reach the highest by the aid of the 360-degree all-dimensional nozzles (9) arranged in the flushing bin, a rock debris slurry mixture is flushed from the front side and rolls under the action of jet flow, and water jet can ensure uniform flushing of the rock debris and flushing of residual rock debris in the flushing bin; the cleaned rock debris enters the debris receiving port (13) through the discharging flange (11), the square filter screen (14) is installed on the debris receiving port (13), cleaned rock debris is obtained on the square filter screen (14), the cleaned water enters the water tank (17), the water for spraying and cleaning the rock debris flows into the water tank (17) to be precipitated, and then the water is pumped by the water suction pump (12) and is sprayed to clean the rock debris.

2. The automatic rock debris cleaning device according to claim 1, wherein the rock debris taking device is characterized in that a servo motor (1) drives a screw rod (2) to control a connecting rod structure (7) to drive a baffle plate (6) to move up and down in an opening and closing mode, rock debris enters from the feeding hole (3), and a controllable valve (4) is mounted on the feeding hole (3).

3. An automatic rock debris cleaning device according to claim 1, characterized in that a water pump (12) pumps water in a water tank (17) through a water pumping pipe (15) for being distributed to each nozzle (9) in the cleaning bin through a distributor (10), the rock debris is cleaned in the cleaning bin (8), the cleaned rock debris and residual water after cleaning flow to the debris receiving port (13) through a discharge flange (11), a square filter screen (14) on the debris receiving port (13) obtains the cleaned rock debris, and the cleaned water is introduced into the water tank (17) for recycling.