CN210293769U - Portable rock debris collection system - Google Patents

Abstract

The utility model relates to a portable detritus collection system belongs to detritus logging technical field. The utility model comprises a supporting frame, a separating vibrating screen and a coal-water mixture slideway; when the rock debris sample is not collected, the coal-water mixture finally flows out along the arc slideway without entering the separation vibrating screen; when collecting rock debris samples, coal-water mixtures enter the separation vibrating screen from the slide gap, and the rock debris samples are collected through separation and wastewater is discharged. The utility model has reasonable module layout with different properties, does not interfere with each other during working, and is small and portable; the utility model discloses the dismouting of being convenient for of device, convenient to use, folding back device space occupy-place diminishes, the underground transport of being convenient for.

Description

Portable rock debris collection system

Technical Field

The utility model relates to a detritus logging technical field especially relates to a portable detritus collection system.

Background

The well drilling cuttings are one of important data of geological logging, are important judgment basis for judging the position and the reserve of an oil and gas reservoir, and the continuous and complete well drilling cuttings are very important tasks for geological logging operation.

At present, the rock debris logging based on drilling rock debris is slow in development, backward in technology, imperfect in rock debris logging method, low in automation level and capable of meeting the requirements of excellent drilling and fast drilling due to the fact that all manual operation modes are adopted.

In the process of directional drilling into coal and rock, the working condition of the well bottom is very bad, and the drilling rock debris collection becomes difficult due to the flammable and explosive alkane gas and the narrow space in the well, so that the requirement on the rock debris collection device is more severe. How to conveniently, safely and efficiently obtain rock debris samples becomes an important subject.

The existing rock debris collecting devices are basically divided into two types: one is to collect drilling cuttings below the drilling fluid vibrating screen, and the other is to filter drilling fluid containing cuttings by the vibrating screen. Generally, both the methods adopt a mechanical vibration mode for separation, and a power source comes from a vibration exciter, but the structures are complex, the adaptability is poor, and the method cannot be popularized and used.

Disclosure of Invention

In view of this, the utility model provides a portable detritus collection system suitable for abominable operating mode in pit.

The utility model provides a portable rock debris collecting device, which comprises a supporting frame, a separating vibrating screen and a coal-water mixture slideway;

the support frame comprises a base support plate and a vertical support plate, the base support plate is horizontally arranged, the vertical support plate is perpendicular to the base support plate, and the separation vibrating screen and the coal-water mixture slide way are respectively arranged on the base support plate and the vertical support plate;

the separation vibrating screen comprises a screen mesh which is obliquely arranged, a vibrator is arranged below the separation vibrating screen, and the vibrator drives the screen mesh to vibrate so as to separate rock debris in the coal-water mixture; two ends of the separating vibrating screen are respectively connected with a spiral spring, the other end of the spiral spring is fixedly connected to the base supporting plate, and the spiral spring is used for elastically supporting the screen mesh; the rock debris discharge port at the lower end of the screen is a screening port, and a rock debris collecting container is arranged below the screening port in an aligned manner;

the coal-water mixture slideway is positioned on the slideway supporting plate, the slideway supporting plate is movably and fixedly connected to the top end of the vertical supporting plate, the coal-water mixture slideway is positioned above the separating vibrating screen, the top end of the vertical supporting plate and the corresponding position of the back surface of the slideway supporting plate are provided with adaptive pin holes, and an external pin is used for fixing the coal-water mixture slideway at a position where the coal-water mixture slideway is parallel to a screen mesh in the separating vibrating screen; the coal-water mixture slide way is divided into a first section, a second section and a third section of coal-water mixture slide way, the three sections of coal-water mixture slide ways are overlapped and connected to form a complete coal-water mixture slide way, the coal-water mixture flows in from the first section of coal-water mixture slide way, the second section of coal-water mixture slide way is positioned below the first section of coal-water mixture slide way, the third section of coal-water mixture slide way is positioned below the second section of coal-water mixture slide way, the second section of coal-water mixture slide way can transversely reciprocate along the direction of a slide way supporting plate, the third section of coal-water mixture slide way is an arc slide way, and the outlet of the third section of coal-water mixture; when rock debris samples need to be collected, the second section of coal-water mixture slide way is moved to enable the whole slide way to be provided with a notch, the coal-water mixture flows into the screen mesh in the separation vibrating screen from the notch, and the coal-water mixture is separated to collect the rock debris samples.

Furthermore, the bottom surface of braced frame's base backup pad is provided with the pulley, the one end that the screen cloth was kept away from to the slide backup pad sets up a pushing handle, promotes the pushing handle and drives portable detritus collection system and slide on ground.

Further, the vibrator arranged below the separation vibrating screen is a gas vibrator.

Furthermore, a push plate is arranged on the lower surface of the second section of coal-water mixture slide way, the push plate is connected with one end of a rod cylinder arranged on a slide way supporting plate, the other end of the rod cylinder is fixed on the slide way supporting plate, and the extension of the rod cylinder drives the second section of coal-water mixture slide way to move; the gas vibrator is connected to the rod cylinder through a gas pressure pipeline, the gas vibrator is further connected with a control switch hand-pull valve, the hand-pull valve is started to enable the gas vibrator to work, and the gas vibrator vibrates the screen mesh and simultaneously provides contracted power for the rod cylinder to drive the second section of coal-water mixture slide to move to form a notch.

Furthermore, the lower surface of screen cloth sets up a waste water collector, and waste water collector collects the uncovered size of waste water and the area looks adaptation of screen cloth, and the waste water of collecting flows from the drainage notch that sets up on the waste water collector.

Furthermore, the screening opening at the lower end of the screen is horn-shaped.

Compared with the prior art, the utility model discloses a beneficial effect that technical scheme has as follows: the utility model discloses the device is light small and exquisite, the dismouting of being convenient for. The coal-water mixture slide way of the device of the utility model can be folded, and the occupied space of the device becomes smaller after being folded, thereby being convenient for underground transportation; just the utility model discloses the coal-water mixture slide accessible of device changes the connected mode of slide and selects detritus sampling process or coal-water mixture water conservancy diversion process.

Drawings

The drawings are only for purposes of illustrating particular embodiments and are not to be construed as limiting the invention, wherein like reference numerals are used to designate like parts throughout the drawings.

Fig. 1 is a schematic structural diagram of a portable rock debris collecting device in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of another view angle of the portable rock debris collecting device in the embodiment of the present invention;

fig. 3 is a schematic structural diagram of a third coal-water mixture slide way in the embodiment of the present invention when the portable rock debris collecting device is detached;

fig. 4 is the embodiment of the utility model provides an in the portable detritus collection system dismantle the structure sketch under the folding form behind the third coal-water mixture slide.

Reference numerals:

1-a support frame; 11-a base support plate; 12-a vertical support plate; 13-a pulley; 2-separating the vibrating screen; 21-a screen mesh; 211-a screening port; 212-a debris collection container; 22-a waste water collector; 221-drainage notch; 23-a gas vibrator; 231-rod cylinder; 232-pneumatic pipeline; 233-hand-pulling valve; 24-a coil spring; 3-a coal water mixture slide; 31-a slideway support plate; 311-a handle for pushing hands; 32-a first section coal water mixture slide; 33-a second section of coal-water mixture slide way; 331-push plate; 34-third section coal water mixture slide way.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be further described below with reference to the accompanying drawings.

Referring to fig. 1 and 2, an embodiment of the present invention provides a portable rock debris collecting device, including a supporting frame 1, a separating vibrating screen 2, and a coal-water mixture slideway 3; specifically, the method comprises the following steps:

the supporting frame 1 comprises a base supporting plate 11 arranged horizontally and a vertical supporting plate 12 arranged perpendicular to the base supporting plate 11, and four pulleys 13 are arranged at four corners of the lower bottom surface of the base supporting plate 11; the separation vibrating screen 2 and the coal-water mixture slide way 3 are respectively arranged on a base support plate 11 and a vertical support plate 12.

The separating vibration screen 2 comprises a screen 21 which is obliquely arranged, the lower surface of the screen 21 is connected with a waste water collector 22 with an upper opening, the area of the opening of the waste water collector 22 is the same as that of the screen 21, and waste water collected by the waste water collector 22 flows out from a drainage notch 221 formed in the waste water collector 22. A gas vibrator 23 is connected and arranged in the middle of the lower end face of the wastewater collector 22, and the gas vibrator 23 drives the screen 22 to vibrate for separating rock debris in the coal-water mixture; two ends of the lower end face of the waste water collector 22 are respectively connected with two spiral springs 24, the other ends of the four spiral springs 24 are fixedly connected to the base supporting plate 11, and the spiral springs 24 are used for elastically supporting the separation vibrating screen 2; the rock debris discharging port at the lower end of the screen 21 is a screening port 211, the screening port 211 is horn-shaped, and a rock debris collecting container 212 is arranged below the screening port 211 in an aligned mode.

Coal water mixture slide 3 is located slide support plate 31, and the movable fixed connection of slide support plate 31 is on the top of vertical support plate 12, and the one end that slide support plate 31 kept away from screen cloth 21 sets up a pushing handle 311, promotes pushing handle 311 and drives portable detritus collection system and slide on ground.

The coal-water mixture slideway 3 is positioned above the separating vibrating screen 2, the top end of the vertical supporting plate 12 and the corresponding position of the back of the slideway supporting plate 31 are provided with matched pin holes, and an additional pin is used for fixing the coal-water mixture slideway 3 at the position where the coal-water mixture slideway 3 is parallel to the screen 22 in the separating vibrating screen 2; the removal of the pins allows the coal-water mixture chute 3 to be folded into a position approximately parallel to the vertical support plate 12, as shown in fig. 4.

The coal-water mixture slide way 3 is divided into a first section, a second section and a third section of coal-water mixture slide way, the three sections of coal-water mixture slide ways are overlapped and connected to form a complete coal-water mixture slide way 3, coal-water mixture flows in from the first section of coal-water mixture slide way 32, the second section of coal-water mixture slide way 33 is positioned below the first section of coal-water mixture slide way 32, the third section of coal-water mixture slide way 34 is positioned below the second section of coal-water mixture slide way 33, the second section of coal-water mixture slide way 33 can transversely reciprocate along the direction of the slide way support plate 31, the third section of coal-water mixture slide way 34 is an arc slide way, the outlet of the third section of coal-water mixture slide way guides the coal-water mixture into other treatment equipment without entering the screen 21, and the third section of coal-. When the rock debris sample needs to be collected, the second section of coal-water mixture slide way 33 is moved to enable the whole slide way to be provided with a notch, the coal-water mixture flows into the screen 21 from the notch, and the separation vibrating screen 2 separates the coal-water mixture to collect the rock debris sample.

It should be noted that the lower surface of the second section coal-water mixture slide way 33 is provided with a push plate 331, the push plate 331 is connected with one end of a rod cylinder 231 mounted on the slide way support plate 31, the other end of the rod cylinder 231 is fixed on the slide way support plate 31, and the extension and retraction of the rod cylinder 231 drives the second section coal-water mixture slide way 33 to move; the gas vibrator 23 is connected to the rod cylinder 231 through a gas pressure pipeline 232, the gas vibrator 23 is further connected with a control switch hand-pulling valve 233, the hand-pulling valve 233 is started to enable the gas vibrator 23 to work, and the gas vibrator 23 vibrates the screen 21 and simultaneously provides power for contraction of the rod cylinder 231 so as to drive the second section coal-water mixture slideway 33 to move and form a gap.

In this document, the terms front, back, upper and lower are used to define the components in the drawings and the positions of the components relative to each other, and are used for clarity and convenience of the technical solution. It is to be understood that the use of the directional terms should not be taken to limit the scope of the claims.

The features of the embodiments and embodiments described herein above may be combined with each other without conflict.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (6)

1. A portable rock debris collecting device comprises a supporting frame, a separating vibrating screen and a coal-water mixture slideway; the method is characterized in that:

the support frame comprises a base support plate and a vertical support plate, the base support plate is horizontally arranged, the vertical support plate is perpendicular to the base support plate, and the separation vibrating screen and the coal-water mixture slide way are respectively arranged on the base support plate and the vertical support plate;

the separation vibrating screen comprises a screen mesh which is obliquely arranged, a vibrator is arranged below the separation vibrating screen, and the vibrator drives the screen mesh to vibrate so as to separate rock debris in the coal-water mixture; two ends of the separating vibrating screen are respectively connected with a spiral spring, the other end of the spiral spring is fixedly connected to the base supporting plate, and the spiral spring is used for elastically supporting the screen mesh; the rock debris discharge port at the lower end of the screen is a screening port, and a rock debris collecting container is arranged below the screening port in an aligned manner;

the coal-water mixture slideway is positioned on the slideway supporting plate, the slideway supporting plate is movably and fixedly connected to the top end of the vertical supporting plate, the coal-water mixture slideway is positioned above the separating vibrating screen, the top end of the vertical supporting plate and the corresponding position of the back surface of the slideway supporting plate are provided with adaptive pin holes, and an external pin is used for fixing the coal-water mixture slideway at a position where the coal-water mixture slideway is parallel to a screen mesh in the separating vibrating screen; the coal-water mixture slide way is divided into a first section, a second section and a third section of coal-water mixture slide way, the three sections of coal-water mixture slide ways are overlapped and connected to form a complete coal-water mixture slide way, the coal-water mixture flows in from the first section of coal-water mixture slide way, the second section of coal-water mixture slide way is positioned below the first section of coal-water mixture slide way, the third section of coal-water mixture slide way is positioned below the second section of coal-water mixture slide way, the second section of coal-water mixture slide way can transversely reciprocate along the direction of a slide way supporting plate, the third section of coal-water mixture slide way is an arc slide way, and the outlet of the third section of coal-water mixture; when the rock debris sample needs to be collected, the second section of coal-water mixture slide way is moved to enable the whole slide way to be provided with a notch, the coal-water mixture flows into a screen in the separation vibrating screen from the notch, and the coal-water mixture is separated to collect the rock debris sample.

2. The portable rock debris collecting device as claimed in claim 1, wherein the bottom surface of the base supporting plate of the supporting frame is provided with pulleys, and one end of the slideway supporting plate, which is far away from the separating vibrating screen, is provided with a pushing handle, and the pushing handle drives the portable rock debris collecting device to slide on the ground.

3. The portable rock debris collection device of claim 1, wherein the vibrator disposed below the separation shaker is a gas vibrator.

4. The portable rock debris collecting device as claimed in claim 3, wherein a push plate is arranged on the lower surface of the second section of coal-water mixture slide way, the push plate is connected with one end of a rod-equipped cylinder mounted on a slide way supporting plate, the other end of the rod-equipped cylinder is fixed on the slide way supporting plate, and the extension of the rod-equipped cylinder drives the second section of coal-water mixture slide way to move; the gas vibrator is connected to the rod cylinder through a gas pressure pipeline, the gas vibrator is further connected with a control switch hand-pull valve, the hand-pull valve is started to enable the gas vibrator to work, and the gas vibrator vibrates the screen mesh and simultaneously provides contracted power for the rod cylinder to drive the second section of coal-water mixture slide to move to form a notch.

5. The portable rock debris collecting device as claimed in claim 1, wherein a waste water collector is provided on the lower surface of the screen, the size of an opening of the waste water collector for collecting waste water is adapted to the area of the screen, and the collected waste water flows out from a drainage notch formed in the waste water collector.

6. The portable rock debris collection device of claim 1, wherein the screening opening at the lower end of the screen is trumpet-shaped.

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