CN212580625U - Integrative storage jar of detritus that dry detritus storehouse and thick liquid storehouse combine - Google Patents

Abstract

The utility model discloses a rock debris integrated storage tank combining a dry rock debris bin and a thick slurry bin, which comprises a tank body, a clapboard and a screw conveyer mixer; the tank body comprises two rectangular rock debris tanks with the same size; a spin dryer and a centrifuge are respectively arranged on the top surface of a rectangular rock debris tank, and two groups of slots in the vertical direction are formed in the inner walls of the tank body along the length direction; a plurality of slag discharge ports are arranged at intervals on the bottom of the outer side wall of one rectangular rock debris tank along the length direction of the rectangular rock debris tank in the horizontal direction; the partition board is used for being inserted into any group of slots and dividing the tank body into a drying bin corresponding to the spin dryer and a thick slurry bin corresponding to the centrifuge; the auger conveying mixer is horizontally arranged outside the slag discharge ports, and the side walls of the auger conveying mixer are respectively communicated with the slag discharge ports. The utility model adopts the clapboard to divide the tank body into the dry material bin and the thick slurry bin, thereby improving the utilization efficiency of the volume of the whole integrated tank; the materials are directly stirred in the auger conveying mixing machine to form the required wet material output, and the process of independent stirring is saved.

Description

Integrative storage jar of detritus that dry detritus storehouse and thick liquid storehouse combine

Technical Field

The utility model relates to a drilling site oil base detritus gathers storage technical field, more specifically says so and relates to an integrative storage jar of detritus that dry detritus storehouse and thick liquid storehouse combine.

Background

Need save, stir and transport the detritus after the detritus exploitation is collected, present on-the-spot overall arrangement to the detritus storage divide into two kinds: the first layout is that the spin dryer uses a feeding screw conveyor and a discharging screw conveyor; the centrifuge is provided with a discharging conveyor, and the discharging conveyors respectively and jointly enter the rock debris storage tank. The layout II is improved on the basis of the layout I, namely a spin dryer and a centrifuge are arranged on the same liquid tank, and the liquid tank is divided into two parts which are respectively used as a liquid separation storage tank of the spin dryer and the centrifuge; and meanwhile, the outlets of the two devices are arranged on the same horizontal axis, so that the outlets of the spin dryer and the centrifuge can jointly use a longer conveyor to convey materials, but a conveyor is still needed to convey the materials to the rock debris tank in a relay mode.

However, the two layout forms can not realize the automatic mixing of the dry materials and the thick materials, and a special excavator is needed to perform the stirring operation in the rock debris tank until the dry materials are stirred into wet materials, namely wet dry materials, and then the dry materials are loaded by the excavator and transported to a special collection point.

In addition, the volume of the rock debris storage tank used on site is limited, and the maximum volume is 12m multiplied by 3m multiplied by 1.5 m-45 m³Because the rock debris tank is higher, the sight line of the excavator is influenced, and in order to deal with the special condition that no transport vehicle is pulled for transportation in spring festival and national celebration, the site must be at least 100m³The rock debris reserve volume of (2) should not have the volume to store the rock debris, cause the emergency of stopping production.

Therefore, how to provide an integrative storage jar of detritus that improves jar body utilization ratio and can realize dry material and thick material thoughtlessly to mix is the problem that the skilled person in the art needs to solve urgently.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an integrative storage jar of detritus that dry detritus storehouse and thick liquid storehouse combine aims at solving above-mentioned technical problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an integrative storage jar of detritus that dry detritus storehouse and thick liquid storehouse combine includes: the tank body, the partition plate and the auger conveying mixer;

the tank body comprises two rectangular rock debris tanks with the same size; one side surface of each rectangular rock debris tank in the length direction is provided with an opening, and the openings in the side surfaces of the two rectangular rock debris tanks are fastened and hermetically connected; a spin dryer and a centrifuge are respectively arranged on the top surfaces of two ends of one rectangular rock debris tank along the length direction of the rectangular rock debris tank, and discharge ports of the spin dryer and the centrifuge are communicated with the rectangular rock debris tank; two groups of slots in the vertical direction are arranged on the inner walls of the two sides of the tank body along the length direction of the tank body, and the linear distances between the planes of the two groups of slots and the side wall of the tank body at one side with the spin dryer are respectively one half and three quarters of the length of the tank body; a plurality of slag discharge ports are arranged at intervals on the bottom of the outer side wall of one rectangular rock debris tank along the length direction of the rectangular rock debris tank in the horizontal direction;

the partition plate is used for being inserted into any group of the slots, and divides the tank body into a drying bin corresponding to the spin dryer and a thick slurry bin corresponding to the centrifuge; the bottom edge of the partition plate is attached to the bottom wall of the tank body, and the top edge of the partition plate is lower than the top surface of the tank body;

the auger conveying mixing machine is horizontally arranged outside the slag discharge port, and the side wall of the auger conveying mixing machine is communicated with the slag discharge port respectively.

Through the technical scheme, the tank body provided by the utility model is formed by splicing two independent rectangular rock debris tanks, after a spin dryer, a centrifugal machine and the rectangular rock debris tanks are integrated into a whole, the tank body is divided into a dry material bin and a thick slurry bin by adopting a partition plate, the dry material and the thick material are stored at the same time, different slot positions are selected according to different collection amounts of the dry material and the thick material, the partition plate is inserted and arranged, when any one bin is filled in advance, the dry material and the thick material can overflow into the other bin, and the utilization efficiency of the volume of the whole integrated tank is improved; according to the mixing requirement, the rock debris can be discharged by opening the slag discharge ports with different quantities, and the rock debris is directly stirred in the auger conveying mixing machine to form the required wet material output, so that the process of independent stirring is saved.

It should be noted here that, due to the characteristics of clear underground geological conditions, fast footage and completion speed of the development well, more "dry materials" and less "thin materials" come out underground; the general geological conditions of exploration wells are not completely clear, the daily footage is less, the drilling speed is slow, the circulation is more, the dry materials discharged from a shaft are less, and the thin materials are more. Therefore, when a well is developed, the partition plate is inserted into three quarters of the well and is divided into a large dry stock bin and a small thick stock bin; when the mining well is in use, the partition plate is inserted into one half of the mining well, and materials separated by the spin dryer and the centrifuge are stored respectively.

Preferably, in the integrated rock debris storage tank combining the dry rock debris bin and the thick slurry bin, the size of the rectangular rock debris tank is 84m ═ 10m × 3m × 2.8m³. The frame upright posts of the rectangular rock debris tanks along the length direction are tightly connected by bolts, and the common connecting surface has no side plate, so that the two rectangular rock debris tanks are combined into one 168m³The tank body.

Preferably, in the integrated rock debris storage tank combining the dry rock debris bin and the thick slurry bin, the top edge of the partition plate is 80 mm lower than the top surface of the tank body. In order to prevent the dry material bin or the thick slurry bin from being filled with the explosion bin in advance, the height of the partition plate between the two bins is designed to be 80 mm away from the top surface, namely the partition plate is not sealed, so that the dry material bin or the thick slurry bin can overflow to another bin when the certain bin is filled in advance, and the utilization efficiency of the whole integral tank volume is improved.

Preferably, in the rock debris integrated storage tank combining the dry rock debris bin and the thick slurry bin, an inclined bottom plate is fixed at the bottom of the tank body in a sealing mode. The rock debris can be discharged downwards from the bottom plate to the feeding port of the auger conveying mixer arranged outside the tank body. Meanwhile, the reduced volume of the inclined plane of the bottom plate of the tank body is removed, and the effective volume is still 110m³The device can be used for solving the problem that the rock debris can not be contained in special conditions.

Preferably, in the integrated rock debris storage tank combining the dry rock debris bin and the thick slurry bin, an anti-seepage film with the thickness of 1.5 mm is laid on the inner side wall and the inner bottom wall of the tank body. In order to ensure that the dry materials and the thick materials do not leak, the leakage event is completely avoided.

Preferably, in the integrative storage jar of detritus that above-mentioned dry detritus storehouse and thick liquid storehouse combine, the diapire of bottom plate is close to the position of slag notch is fixed with a plurality ofly with the bulkhead vibrating motor of slag notch one-to-one. The smooth and easy degree of the ejection of compact is convenient for improve.

Preferably, in the integrated rock debris storage tank combining the dry rock debris bin and the thick slurry bin, the number of the slag outlets is 6; when the partition plate is inserted in a position which is half of the length of the tank body, the dry material bin and the thick slurry bin correspond to the 3 slag outlets respectively; when the partition plates are inserted into the positions of three-quarter of the length of the tank body, the dry material bin corresponds to 4 slag discharge ports, and the thick slurry bin corresponds to 2 slag discharge ports. Can effectively guarantee the cooperation ejection of compact, carry out the ratio according to the ejection of compact humidity demand of difference and open row cinder notch, it is more convenient to use.

Preferably, in the integrated rock debris storage tank combining the dry rock debris bin and the thick slurry bin, two suspension arms capable of rotating 360 degrees are mounted on a top end cross beam connected with the two rectangular rock debris tanks; the radiation ranges of the two suspension arms respectively cover the spin dryer and the centrifuge. The suspension arm is 3 meters in height, 3 meters in radius and 1 ton in load bearing, and the structural layout is specially used for maintaining the spin dryer and the centrifugal machine, so that the crane cost is saved, the time for waiting for the crane to be in place is greatly saved, and the quick repair time after equipment failure is ensured.

Preferably, in the integrative storage jar of detritus that above-mentioned dry detritus storehouse and thick liquid storehouse combine, the vertical dust removal exhaust pipe who is fixed with rather than inside intercommunication of top surface of rectangle detritus jar. Can effectively realize the functions of dust removal and air exhaust.

Preferably, in the integrative storage jar of detritus that above-mentioned dry detritus storehouse and thick liquid storehouse combine, the border is fixed with the rail around jar body top surface. The safety protection device can play a role in protecting the safety of operators.

It should be further explained that the spin dryer is provided with a special feeding conveyor, which is the conventional technology and will not be described herein. It is important to emphasize that the inlet of the feeding conveyor of the spin dryer should deviate from the inlet of the spin dryer, and the deviation distance is larger than the radius of the upper cover of the spin dryer, so that the feeding conveyor can block the spatial channel for opening the upper cover when the upper cover needs to be disassembled and opened during maintenance of the spin dryer.

Can know via foretell technical scheme, compare with prior art, the utility model discloses an integrative storage jar of detritus that dry detritus storehouse and thick liquid storehouse combine has following beneficial effect:

1. the utility model provides a jar body adopts two independent rectangle detritus jars concatenation to constitute, with drier, centrifuge and rectangle detritus jar integration back, adopts the baffle to divide into dry material storehouse and thick liquid storehouse with jar body, stores drier and thick liquid simultaneously, selects different slot positions according to the difference of the collection volume of drier and thick liquid and inserts the baffle, and when any storehouse was filled in advance, can overflow in another storehouse, improves the volumetric utilization efficiency of whole integrative jar; according to the mixing requirement, the rock debris can be discharged by opening the slag discharge ports with different quantities, and the rock debris is directly stirred in the auger conveying mixing machine to form the required wet material output, so that the process of independent stirring is saved.

2. The utility model provides a structural configuration of arm suspends in midair is used for maintaining drier and centrifuge specially, not only saves crane expense, has also practiced thrift the waiting for crane time in place greatly, has ensured the quick repair time after the equipment trouble.

3. The utility model discloses the integrative jar design of integrated multiple functions both guarantees that the ejection of compact of two equipment of drier, centrifuge can directly discharge, stores respectively in two jar storehouses, has saved the conveyer of present on-the-spot drier and centrifuge discharge gate, has just also saved the integrative jar of original drier and centrifuge of saying in the background art, has saved area.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a top view of a rock debris storage tank according to the present invention;

figure 2 the attached drawing is the utility model provides a structural side view of integrative storage jar of detritus.

Wherein:

1-tank body;

11-a rectangular debris pot; 12-a slot; 13-a slag discharge port; 14-a dry stock bin; 15-thick pulp bin; 16-a base plate;

2-a separator;

3-auger conveying mixer;

4-a drying machine;

5-a centrifuge;

6-a bin wall vibrating motor;

7-a suspension arm;

8-dust removal exhaust pipe;

9-fence.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to fig. 2, the embodiment of the utility model discloses an integrative storage jar of detritus that dry detritus storehouse and thick liquid storehouse combine, include: a tank body 1, a clapboard 2 and a packing auger conveying mixer 3;

the tank body 1 comprises two rectangular rock debris tanks 11 with the same size; one side surface of each rectangular rock debris tank 11 along the length direction is provided with an opening, and the openings on the side surfaces of the two rectangular rock debris tanks 11 are fastened and hermetically connected; the top surfaces of two ends of a rectangular rock debris tank 11 in the length direction are respectively provided with a spin dryer 4 and a centrifuge 5, and discharge ports of the spin dryer 4 and the centrifuge 5 are communicated with the rectangular rock debris tank 11; two groups of slots 12 in the vertical direction are arranged on the inner walls of the two sides of the tank body 1 along the length direction, and the linear distance between the plane where the two groups of slots 12 are arranged and the side wall of the tank body 1 at one side with the spin dryer 4 is one half and three quarters of the length of the tank body 1 respectively; a plurality of slag outlets 13 are arranged at intervals on the bottom of the outer side wall of one rectangular rock debris tank 11 along the length direction in the horizontal direction;

the partition plate 2 is used for being inserted into any group of slots 12 and dividing the tank body 1 into a drying bin 14 corresponding to the spin dryer 4 and a thick slurry bin 15 corresponding to the centrifuge 5; the bottom edge of the partition board 2 is attached to the bottom wall of the tank body 1, and the top edge is lower than the top surface of the tank body 1;

the auger conveying mixer 3 is horizontally arranged outside the slag discharge ports 13, and the side walls of the auger conveying mixer are respectively communicated with the slag discharge ports 13.

In order to further optimize the technical scheme, the size of the rectangular rock debris pot 11 is 84m which is 10m multiplied by 3m multiplied by 2.8m³。

In order to further optimize the technical scheme, the top edge of the partition plate 2 is 80 mm lower than the top surface of the tank body 1.

In order to further optimize the technical scheme, an inclined bottom plate 16 is hermetically fixed at the bottom of the tank body 1.

In order to further optimize the technical scheme, an anti-seepage film with the thickness of 1.5 mm is laid on the inner side wall and the inner bottom wall of the tank body 1.

In order to further optimize the technical scheme, a plurality of bin wall vibration motors 6 which are in one-to-one correspondence with the slag discharge openings 13 are fixed on the bottom wall of the bottom plate 16 close to the slag discharge openings 13.

In order to further optimize the technical scheme, the number of the slag discharge openings 13 is 6; when the partition board 2 is inserted in the position of one half of the length of the tank body 1, the dry material bin 14 and the thick slurry bin 15 respectively correspond to 3 slag outlets 13; when the partition plate 2 is inserted into the position of three-quarter of the tank body 1, the dry material bin 14 corresponds to 4 slag outlets 13, and the thick slurry bin 15 corresponds to 2 slag outlets 13.

In order to further optimize the technical scheme, two suspension arms 7 capable of rotating 360 degrees are mounted on a top end beam connected with two rectangular rock debris tanks 11; the radial extent of the two suspension arms 7 covers the spin dryer 4 and the centrifuge 5, respectively.

In order to further optimize the technical scheme, a dust removal exhaust pipe 8 communicated with the interior of the rectangular rock debris tank 11 is vertically fixed on the top surface of the rectangular rock debris tank.

In order to further optimize the technical scheme, the surrounding edges of the top surface of the tank body 1 are fixed with a fence 9.

Because the development well is generally characterized by clear underground geological conditions, fast footage and completion speed, more dry materials and less thin materials come out from the underground; the general geological conditions of exploration wells are not completely clear, the daily footage is less, the drilling speed is slow, the circulation is more, the dry materials discharged from a shaft are less, and the thin materials are more. Therefore, when a well is developed, the partition plate 2 is inserted into three quarters of the tank body 1 and is divided into a large dry stock bin 14 and a small thick stock bin 15; when the exploration well is in use, the partition plate 2 is inserted into one half of the tank body 1 to store materials separated by the spin dryer 4 and the centrifuge 5 respectively.

The utility model adopts the partition board 2 to divide the tank body 1 into the dry material bin 14 and the thick slurry bin 15, and stores the dry material and the thick slurry, and selects different slots 12 according to the different collection amounts of the dry material and the thick slurry to be inserted into the partition board 2, and when any one bin is filled in advance, the tank body can overflow into the other bin, thereby improving the utilization efficiency of the volume of the whole integrated tank; according to the mixing requirement, the slag discharge ports 13 with different quantities can be opened to discharge rock debris, and the rock debris is directly stirred in the auger conveying mixing machine 3 to form the required wet material output, so that the process of independent stirring is saved.

Because the rock debris directly falls into the tank body 1, a conveyor shared by a dryer and a centrifuge at present can be saved for conveying materials, the huge air quantity generated when the central shaft of the screen fence of the dryer 4 rotates and the bin wall vibrating motor 6 and the bottom inclined plane of the tank body 1 are installed, the dry rock debris is conveyed from the tank to the slag discharge port 13, the dry rock debris is continuously conveyed into the auger conveying mixer 3 outside the tank body 1 through the bin wall vibrating motor 6 at the slag discharge port 13, and similarly, the flowability of the thick slurry is better than that of the dry rock debris, and the dry rock debris is also conveyed into the auger conveying mixer 3 outside through the same structure and equipment.

The dry rock debris and thick slurry are automatically mixed and stirred into wet materials, namely wet dry materials, through opening of the six slag outlets 13 in different quantities and opening degrees of the slag outlets 13, the dry rock debris and thick slurry are controlled, the automatic mixing and stirring of the dry materials and the thick slurry are completed in the conveying process of the auger conveying mixing and stirring machine 3 and the loading spiral conveyor which fall into the slag outlets 13 until the wet dry materials are stirred, the loading is completed through the loading conveyor, and the dry materials leave a well site.

In addition, the rectangular debris pot 11 used on site has a limited volume, the maximum volume being 84m instead of 10m × 3m × 2.8m³The two rectangular rock debris tanks 11 are combined to form 168 square total volume, the conical volume of the inclined plane at the bottom is removed, the effective volume is still more than 110 square, the shaft with the diameter of 216 mm can be stored for more than 3000 m, the field storage capacity under the special condition that no transport vehicle is hauled can be completely met in spring festival and national celebration, and the field drilling production can not be influenced.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides an integrative storage jar of detritus that dry detritus storehouse and thick liquid storehouse combine which characterized in that includes: the tank body (1), the clapboard (2) and the auger conveying mixer (3);

the tank body (1) comprises two rectangular rock debris tanks (11) with the same size; one side surface of each rectangular rock debris tank (11) in the length direction is provided with an opening, and the openings in the side surfaces of the two rectangular rock debris tanks (11) are fastened and hermetically connected; a spin dryer (4) and a centrifugal machine (5) are respectively installed on the top surfaces of two ends of one rectangular rock debris tank (11) along the length direction of the rectangular rock debris tank, and discharge holes of the spin dryer (4) and the centrifugal machine (5) are communicated with the rectangular rock debris tank (11); two groups of slots (12) in the vertical direction are formed in the inner walls of the two sides of the tank body (1) along the length direction of the tank body, and the linear distances between the plane where the two groups of slots (12) are located and the side wall of one side of the tank body (1) with the spin dryer (4) are respectively one half and three quarters of the length of the tank body (1); a plurality of slag discharge ports (13) are arranged on one rectangular rock debris tank (11) at intervals along the horizontal direction of the bottom of the outer side wall of the length direction of the tank;

the partition plate (2) is used for being inserted into any group of the slots (12) and dividing the tank body (1) into a drying bin (14) corresponding to the spin dryer (4) and a thick pulp bin (15) corresponding to the centrifuge (5); the bottom edge of the partition plate (2) is attached to the bottom wall of the tank body (1), and the top edge of the partition plate is lower than the top surface of the tank body (1);

the auger conveying mixing machine (3) is horizontally arranged on the outer side of the slag discharging port (13), and the side wall of the auger conveying mixing machine is communicated with the slag discharging ports (13) respectively.

2. A storage tank for dry and thick cuttings as claimed in claim 1, wherein the rectangular cuttings tank (11) has dimensions of 10m x 3m x 2.8-84 m³。

3. The integrated storage tank for dry and thick rock fragments in accordance with claim 1, characterized in that the top edge of said partition (2) is lower than the top surface of said tank (1) by 80 mm.

4. A storage tank for dry and thick cuttings in combination according to any one of claims 1-3, characterized in that the bottom of the tank (1) is sealingly fixed with an inclined bottom plate (16).

5. The integrated storage tank for dry detritus and thick slurry combined detritus according to claim 4, wherein the tank body (1) is provided with anti-seepage films with thickness of 1.5 mm on the inner side wall and the inner bottom wall.

6. The integrated storage tank for the dry detritus bin and the thick slurry bin of claim 4, wherein a plurality of bin wall vibrating motors (6) corresponding to the slag discharge ports (13) one by one are fixed on the bottom wall of the bottom plate (16) close to the slag discharge ports (13).

7. The integrated storage tank for dry cuttings and thick slurry bins of claim 1, wherein the number of the slag discharge ports (13) is 6; when the partition plate (2) is inserted into a position which is half of the length of the tank body (1), the dry stock bin (14) and the thick slurry bin (15) respectively correspond to the 3 slag outlets (13); when the partition plates (2) are inserted into the three-quarter length position of the tank body (1), the dry material bin (14) corresponds to 4 slag discharge ports (13), and the thick slurry bin (15) corresponds to 2 slag discharge ports (13).

8. The integrated rock debris storage tank combining the dry rock debris bin and the thick slurry bin as claimed in claim 1, wherein two suspension arms (7) capable of rotating 360 degrees are mounted on a top end cross beam connected with the two rectangular rock debris tanks (11); the radiation ranges of the two suspension arms (7) respectively cover the spin dryer (4) and the centrifuge (5).

9. The integrated storage tank for the dry rock debris and the thick slurry bin is characterized in that a dust removal exhaust pipe (8) communicated with the inside of the rectangular rock debris tank (11) is vertically fixed on the top surface of the rectangular rock debris tank.

10. The integrated storage tank for dry cuttings and thick slurry bins of claim 1, wherein a fence (9) is fixed on the peripheral edge of the top surface of the tank body (1).

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