CN113751408B - Rock debris cleaning device and rock debris cleaning system - Google Patents

Abstract

The invention relates to a rock debris cleaning device and a rock debris cleaning system, wherein the rock debris cleaning device comprises a stirring pool, the stirring pool is provided with a rock debris inlet and a rock debris outlet, and the rock debris inlet is used for allowing a mixture of rock debris and slurry to enter; the stirring pool comprises a bottom surface, and the bottom surface is obliquely arranged to allow rock debris to slide out of the rock debris outlet; a stirring structure is arranged in the stirring tank and used for stirring the rock debris in the stirring tank; the rock debris cleaning device also comprises an aggregate container, wherein the aggregate container is connected to a rock debris outlet of the stirring pool so as to contain rock debris sliding out of the stirring pool; the collecting container is provided with a discharge port which is positioned above the liquid level when in use, the collecting container is rotatably provided with a material pushing plate, the material pushing plate is used for pushing the rock debris in the collecting container upwards to the discharge port, and the material pushing plate is provided with a water passing hole; the aggregate container is provided with a water inlet, and the stirring tank is provided with a water outlet, so that the water flow direction is opposite to the sliding direction of the rock debris.

Description

Rock debris cleaning device and rock debris cleaning system

Technical Field

The invention relates to a rock debris cleaning device and a rock debris cleaning system.

Background

In the process of petroleum drilling, in order to evaluate the stratum, rock debris needs to be observed and analyzed, the rock debris returning to the ground along with the slurry from the underground is adhered with the slurry, and the adhered slurry needs to be cleaned by clean water so as to restore the natural color of underground rock. Therefore, the detritus washs to become an important work, and the technical staff has carried out a lot of research, like the chinese utility model patent of the grant publication number CN206415330U discloses a geological logging sand washing device, including shale shaker, conveyer belt and the sand washing case that from top to bottom arranges in proper order, the sand washing case externally mounted has the sand washing device, and the sand washing device can drive the sand washing case and rock about. The sand washing device also comprises a water tank and a drainage pipeline, wherein the water tank can supply water to the sand washing box, and the drainage pipeline is connected to the sand washing box and can discharge sewage after the rock debris is washed. During the use, the mixture of mud and detritus falls on the shale shaker, and the shale shaker filters out partly detritus, and later in mud and the detritus of tiny granule are carried the sand washing case through the conveyer belt together, and in the water entering into the sand washing case of water tank, the sand washing device drove the sand washing case and rocks about, makes the mud on the detritus wash away, and the sewage of formation is discharged in the drainage pipe, and the abluent detritus remains in the sand washing case.

In the prior art, the sand washing box is used for washing the slurry attached to the rock debris, so that the amount of the slurry attached to the rock debris can be reduced. However, in the prior art, the rock debris is cleaned by adopting a left-right shaking mode, the slurry, the rock debris and the water are wholly shaken when the rock debris is shaken, and although the slurry and the rock debris can be separated to a certain degree, the whole shaking cleaning effect is poor, and the cleanliness of the rock debris cleaning is low. In addition, in the prior art, after the rock debris is cleaned, the rock debris still remains in the sand washing box, needs to be stopped to fish for, cannot realize continuous work, is inconvenient to operate, and has lower overall cleaning efficiency.

Disclosure of Invention

The invention aims to provide a rock debris cleaning device, which aims to solve the technical problems of poor cleaning effect and low cleaning efficiency of the rock debris cleaning device in the prior art, and also provides a rock debris cleaning system to solve the technical problems.

In order to realize the purpose, the technical scheme of the rock debris cleaning device is as follows: a rock debris cleaning device comprising:

the stirring pool is provided with a rock debris inlet and a rock debris outlet, and the rock debris inlet is used for allowing a mixture of rock debris and slurry to enter;

the stirring pool comprises a bottom surface, and the bottom surface is obliquely arranged to allow rock debris to slide out of the rock debris outlet;

a stirring structure is arranged in the stirring tank and used for stirring the rock debris in the stirring tank;

the rock debris cleaning device also comprises an aggregate container, wherein the aggregate container is connected to a rock debris outlet of the stirring pool so as to contain rock debris sliding out of the stirring pool;

the collecting container is provided with a discharge port which is positioned above the liquid level when in use, the collecting container is rotatably provided with a material pushing plate, the material pushing plate is used for pushing the rock debris in the collecting container upwards to the discharge port, and the material pushing plate is provided with a water passing hole;

the aggregate container is provided with a water inlet, and the stirring tank is provided with a water outlet, so that the water flow direction is opposite to the sliding direction of the rock debris.

The invention has the beneficial effects that: primarily cleaning the rock debris through the stirring structure of the stirring pool and the stirring structure of the stirring pool, layering muddy water and the rock debris generated by cleaning, and automatically dropping and piling the rock debris on the ground; realize gathering of rock debris through the container that gathers materials, realize the release of rock debris through the scraping wings, the bottom surface slope of stirring pond arranges moreover that the rock debris can slide automatically to the container that gathers materials. According to the invention, the water flow direction is opposite to the sliding direction of the rock debris, the rock debris can be finally cleaned by using relatively clear water, the rock debris is preliminarily cleaned by using relatively turbid water, the use is more reasonable, and the cleaning effect is better. The invention realizes automatic cleaning and rock debris pushing, can not be subsequently fished, and has better cleaning effect compared with the prior art.

As a further optimized scheme, the stirring pool comprises a conical section which is wide at the top and narrow at the bottom so as to gather rock debris.

The effect of this scheme lies in, through setting up the rock debris that gathers that the conic section can be better, supplies the rock debris to slide.

As a further optimized scheme, on the section perpendicular to the sliding direction of the rock debris, the bottom surface of the stirring pool is an arc-shaped bottom surface.

The effect of this scheme lies in, sets up the arc bottom surface and can prevent that the detritus pile up in tip department to the self-sliding to the detritus produces the influence.

As the further optimized scheme, the rock debris cleaning device comprises at least two stirring structures, and the stirring structures are sequentially arranged at intervals along the sliding direction of the rock debris.

The effect of this scheme lies in, arranges two at least stirring structures in proper order through the slip direction along the detritus, can carry out stirring washing many times to the detritus, improves the cleaning performance.

As the scheme of further optimization, the rock debris cleaning device further comprises a net bag, wherein the net bag is connected to the discharge port of the collecting container so as to collect rock debris discharged from the discharge port.

The effect of this scheme lies in, sets up behind the string bag, can collect the detritus for the air-dry of detritus.

As a further optimized scheme, the rotation axis of the material pushing plate extends horizontally along the water flow direction, so that the material pushing plate pushes the rock debris out of the aggregate container along the direction perpendicular to the horizontal direction.

The effect of this scheme lies in, the axis of rotation of scraping wings extends along the rivers direction for the direction of pushing away of scraping wings perpendicular to rivers direction, produces the influence to rivers when avoiding the scraping wings to push away the material along the rivers direction.

As a further optimized scheme, the aggregate container is a cylinder with two closed ends, the discharge port is arranged on the outer circumferential surface of the cylinder, and the rotation axis of the material pushing plate is arranged coaxially with the central axis of the cylinder;

the stirring pool is arranged on one end face of the cylinder.

The effect of this scheme lies in, and the container that gathers materials adopts closed drum, can prevent that the scraping wings from pushing away the outside of the rivers way container that carries after the material completion.

As a further optimized solution, the water inlet is arranged on the end surface of the opposite end of the cylinder.

The effect of this scheme lies in, and water inlet and stirring pond distribute on the relative both ends of drum, and the water inlet is arranged along the straight line with the stirring pond, prevents that the clear water from taking place to buckle and flow, and then reduces water velocity, and then influences the cleaning performance.

As a further optimized scheme, the rock debris cleaning device comprises a base, wherein the stirring pool and the material collecting container are arranged on the base;

the rock debris cleaning device comprises a stirring structure driving motor for driving the stirring structure to move and a pushing plate driving motor for driving the pushing plate to rotate;

stirring structure driving motor and scraping wings driving motor arrange along the slip direction of detritus in proper order, and stirring structure driving motor and scraping wings driving motor arrange in one side of stirring pond and collecting container.

The effect of this scheme lies in, arranges in stirring pond and the one side of collecting container in proper order through arranging stirring structure driving motor and scraping wings driving motor, conveniently arranges and centralized control two driving motor.

The technical scheme of the rock debris cleaning system is as follows: a debris cleaning system, comprising:

the rock debris cleaning device is used for cleaning rock debris;

the conveying belt is used for conveying the mixture of the slurry and the rock debris to the rock debris cleaning device;

rock debris belt cleaning device includes:

the stirring pool is provided with a rock debris inlet and a rock debris outlet, and the rock debris inlet is used for allowing a mixture of rock debris and slurry to enter;

the stirring pool comprises a bottom surface, and the bottom surface is obliquely arranged to allow rock debris to slide out of the rock debris outlet;

a stirring structure is arranged in the stirring tank and used for stirring the rock debris in the stirring tank;

the rock debris cleaning device also comprises an aggregate container, wherein the aggregate container is connected to a rock debris outlet of the stirring pool so as to contain rock debris sliding out of the stirring pool;

the collecting container is provided with a discharge port which is positioned above the liquid level when in use, the collecting container is rotatably provided with a material pushing plate, the material pushing plate is used for pushing the rock debris in the collecting container upwards to the discharge port, and the material pushing plate is provided with a water passing hole;

the aggregate container is provided with a water inlet, and the stirring tank is provided with a water outlet, so that the water flow direction is opposite to the sliding direction of the rock debris.

The invention has the beneficial effects that: primarily cleaning the rock debris through the stirring structure of the stirring pool and the stirring structure of the stirring pool, layering muddy water and the rock debris generated by cleaning, and automatically dropping and piling the rock debris on the ground; realize gathering of detritus through the container that gathers materials, realize the release of detritus through the scraping wings, the bottom surface slope of stirring pond is arranged moreover, and the detritus can slide automatically to the container that gathers materials. According to the invention, the water flow direction is opposite to the sliding direction of the rock debris, the rock debris can be finally cleaned by using relatively clear water, the rock debris is preliminarily cleaned by using relatively turbid water, the use is more reasonable, and the cleaning effect is better. The invention realizes automatic cleaning and rock debris pushing, can not be subsequently fished, and has better cleaning effect compared with the prior art.

As a further optimized scheme, the stirring pool comprises a conical section which is wide at the top and narrow at the bottom so as to gather rock debris.

The effect of this scheme lies in, through setting up the rock debris that gathers that the conic section can be better, supplies the rock debris to slide.

As a further optimized scheme, on a cross section perpendicular to the sliding direction of the rock debris, the bottom surface of the stirring tank is an arc-shaped bottom surface.

The effect of this scheme lies in, sets up the arc bottom surface and can prevent that the detritus pile up in tip department to the self-sliding to the detritus produces the influence.

As the further optimized scheme, the rock debris cleaning device comprises at least two stirring structures, and the stirring structures are sequentially arranged at intervals along the sliding direction of the rock debris.

The effect of this scheme lies in, arranges two at least stirring structures in proper order through the slip direction along the detritus, can carry out stirring washing many times to the detritus, improves the cleaning performance.

As the further optimized scheme, the rock debris cleaning device further comprises a net bag, wherein the net bag is connected to the discharge port of the collecting container so as to collect rock debris discharged from the discharge port.

The effect of this scheme lies in, sets up behind the string bag, can collect the detritus for the air-dry of detritus.

As a further optimized solution, the rotation axis of the material pushing plate extends horizontally along the water flow direction, so that the material pushing plate pushes the rock debris out of the aggregate container along the direction perpendicular to the horizontal direction.

The effect of this scheme lies in, the axis of rotation of scraping wings extends along the rivers direction for the direction of pushing away of scraping wings perpendicular to rivers direction, produces the influence to rivers when avoiding the scraping wings to push away the material along the rivers direction.

As a further optimized scheme, the aggregate container is a cylinder with two closed ends, the discharge port is arranged on the outer circumferential surface of the cylinder, and the rotation axis of the material pushing plate is arranged coaxially with the central axis of the cylinder;

the stirring pool is arranged on one end face of the cylinder.

The effect of this scheme lies in, and the container that gathers materials adopts closed drum, can prevent that the scraping wings from pushing away the outside of the rivers way container that carries after the material completion.

As a further optimized solution, the water inlet is arranged on the opposite end face of the cylinder.

The effect of this scheme lies in, and water inlet and stirring pond distribute on the relative both ends of drum, and the water inlet is arranged along the straight line with the stirring pond, prevents that the clear water from taking place to buckle and flow, and then reduces water velocity, and then influences the cleaning performance.

As a further optimized scheme, the rock debris cleaning device comprises a base, wherein the stirring pool and the material collecting container are arranged on the base;

the rock debris cleaning device comprises a stirring structure driving motor for driving the stirring structure to move and a pushing plate driving motor for driving the pushing plate to rotate;

stirring structure driving motor and scraping wings driving motor arrange along the slip direction of detritus in proper order, and stirring structure driving motor and scraping wings driving motor arrange in one side of stirring pond and collecting container.

The effect of this scheme lies in, through arranging stirring structure driving motor and scraping wings driving motor in proper order and place in stirring pond and the one side of collecting container, conveniently arranges and centralized control two driving motor.

Drawings

FIG. 1 is a schematic view of an embodiment 1 of the debris cleaning system of the present invention;

FIG. 2 is a schematic view showing a transmission part in embodiment 1 of the debris cleaning system according to the present invention;

FIG. 3 is a cross-sectional view of the mixing tank of FIG. 1;

FIG. 4 is a schematic view of the cylinder of FIG. 1;

FIG. 5 is a cutaway schematic view of the right side view of FIG. 4;

description of reference numerals: 100-a base; 200-a cabinet; 31-a stirring tank; 32-stirring shaft; 33-stirring blades; 34-a water outlet; 35-a drive shaft; 36-a first bevel gear; 37-a first motor output shaft; 38-a first motor; 39-arc bottom surface; 41-cylinder; 42-a discharge hole; 43-a net bag; 44-a water inlet; 45-pusher plate rotating shaft; 46-a stripper plate; 47-second bevel gear; 48-a second electric machine; 49-second motor output shaft; 410-water through holes; 500-conveyor belt.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

It is noted that relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

The features and properties of the present invention are described in further detail below with reference to examples.

Specific embodiment 1 of the debris cleaning system of the present invention:

as shown in fig. 1 to 5, the rock debris cleaning system includes a rock debris cleaning device and a conveyor belt 500 for conveying a mixture of slurry and rock debris to the rock debris cleaning device, and the rock debris cleaning device is a core improvement.

The structure of the rock debris cleaning device is shown in fig. 1-5, the rock debris cleaning device integrally comprises a base 100, a stirring tank 31 and a cylinder 41 are arranged on the base 100, the stirring tank 31 is used for stirring a mixture of slurry and rock debris entering the stirring tank and sending the cleaned rock debris to the cylinder 41, and the cylinder 41 is mainly used for gathering the rock debris and pushing the rock debris out. In this embodiment, it is defined that the cylinder 41 and the agitation tank 31 are arranged in the left-right direction, and as shown in fig. 1, the cylinder 41 is located on the left side of the agitation tank 31. And the conveyor belt 500 is located at the right side of the agitation tank 31 so that the debris flows from right to left during the cleaning process.

As shown in fig. 1 and 3, the stirring tank 31 is open at the upper part, the upper opening can be used for the mixture of mud and rock debris, and the upper opening forms a rock debris inlet of the stirring tank 31. The right end of the stirring tank 31 is closed, the left end of the stirring tank is open, and the opening at the left end can be used for discharging rock debris after stirring and cleaning into the cylinder 41, so that the opening at the left end forms a rock debris outlet of the stirring tank 31. As shown in FIG. 3, the bottom surface of the stirring tank 31 is an arc-shaped bottom surface 39, and the arc-shaped bottom surface 39 is wide at the top and narrow at the bottom and can collect rock debris. Furthermore, as can be seen from fig. 1, the stirring tank 31 is higher right and lower left as a whole, the arc-shaped bottom surface 39 is obliquely arranged, and the rock debris falling into the arc-shaped bottom surface 39 of the stirring tank 31 can automatically slide left. As shown in fig. 1, a water outlet 34 is provided at the right end of the stirring tank 31 for discharging the muddy water formed by stirring.

As shown in fig. 1 and 2, two stirring structures are arranged in the stirring tank 31, and the two stirring structures are arranged at intervals in the left-right direction. The stirring structure comprises a mounting bracket (not shown in the figure), the stirring bracket is fixed on the stirring pool 31, the stirring structure further comprises a stirring shaft 32 and stirring blades 33 arranged on the stirring shaft 32, wherein a plurality of groups of the stirring blades 33 are arranged along the vertical direction, and the length of the stirring blades 33 is gradually reduced from top to bottom so as to be matched with the arc-shaped bottom surface 39. The stirring shaft 32 is rotatably mounted on the mounting bracket. In this embodiment, two stirring shafts 32 are simultaneously driven to rotate by one first motor 38, specifically, as shown in fig. 1 and fig. 2, first bevel gears 36 are fixedly installed at the upper ends of the two stirring shafts 32, transmission shafts 35 are further rotatably installed on the mounting bracket, the transmission shafts 35 horizontally extend in the left-right direction, one transmission shaft 35 corresponds to each stirring shaft 32, first bevel gears 36 are installed at two ends of each transmission shaft 35, and the first bevel gear 36 at one end is meshed with the first bevel gear 36 on the stirring shaft 32, so as to implement reversing transmission. The first motor output shaft 37 of the first motor 38 is also provided with a first bevel gear 36, and the first bevel gear 36 on the first motor output shaft 37 is simultaneously meshed with the first bevel gears 36 on the two transmission shafts 35 to realize reversing transmission.

As shown in fig. 1, 4, and 5, the cylinder 41 has a structure in which both ends of the cylinder 41 are closed, and the axis of the cylinder 41 extends in the left-right direction. An opening (not shown) is provided on the right end face of the cylinder 41, and the agitation tank 31 is mounted at the opening through which the rock debris in the agitation tank 31 slides into the cylinder 41. The discharge port 42 is opened on the outer peripheral surface of the cylinder 41, the pusher plate rotating shaft 45 is rotatably mounted in the cylinder 41, and the axis of the pusher plate rotating shaft 45 is collinear with the axis of the cylinder 41. The material pushing plate 46 is fixedly installed on the material pushing plate rotating shaft 45, and the material pushing plate 46 can be driven to rotate by the rotation of the material pushing plate rotating shaft 45. The ejector plate 46 can push out the rock debris accumulated in the cylinder 41 through the discharge hole 42. To prevent water in the cylinder 41 from being pushed out, the pusher plate 46 has a plurality of water holes 410 through which water can pass. Install string bag 43 in the discharge gate 42 department of drum 41, the detritus that discharge gate 42 released can be collected to string bag 43, improves the dry speed in detritus later stage.

In the present embodiment, as shown in fig. 2, the material pushing plate rotating shaft 45 is driven to rotate by the second motor 48, and specifically, the extending direction of the second motor output shaft 49 of the second motor 48 is perpendicular to the extending direction of the material pushing plate rotating shaft 45. A second bevel gear 47 is fixedly installed at the end part of the output shaft 49 of the second motor, a second bevel gear 47 is also fixedly installed on the rotating shaft 45 of the material pushing plate in a fixing way, and the two second bevel gears 47 are meshed with each other to realize reversing transmission.

In the present embodiment, the extending directions of the first motor output shaft 37 and the second motor output shaft 49 are the same, and the purpose of this design is to facilitate the arrangement of the first motor 38 and the second motor 48 and to facilitate the centralized control of the two motors. As shown in fig. 2, a cabinet 200 is disposed at one side of the stirring tank 31 and the cylinder 41, the cabinet 200 is placed on the base 100, the first motor 38 and the second motor 48 are disposed on the cabinet 200, and the cabinet 200 further has a power switch, a speed governor, and the like.

As shown in fig. 1, the conveyor 500 is located at the right side of the agitation tank 31, and the mixture of mud and debris is conveyed from right to left and falls into the agitation tank 31.

As shown in FIG. 1, a water inlet 44 is arranged on the left end face of the cylinder 41, a water outlet 34 is arranged on the right end of the stirring tank 31, and in the process of cleaning the rock debris, water flows from left to right, while the rock debris flows from right to left in the opposite direction. The aim at of design like this carries out ultimate washing to the detritus with comparatively clear water, carries out preliminary washing to the detritus with comparatively muddy water, improves abluent effect. In the specific use process, the water inlet amount in the water inlet 44 and the water outlet amount in the water outlet 34 are basically consistent, so that excessive water overflow is avoided, and the liquid level is required to be ensured to be always positioned below the discharge hole 42, so that the water is prevented from directly flowing out of the discharge hole 42. Wherein, the water inlet 44 and the water outlet 34 are both provided with valves for controlling the use amount of clear water, thereby avoiding waste.

The using process of the invention is as follows: the mixture of mud and rock debris is sent into the stirring pool 31 through the conveyer belt 500, clear water is supplied from the water inlet 44, the stirring blades 33 rotate to separate the mud and the rock debris, the rock debris with larger mass falls onto the arc-shaped bottom surface 39, muddy water formed by mixing the mud and the water with lighter mass is positioned above, and the muddy water above is discharged from the water outlet 34 along with water flow. The rock debris at the bottom automatically slides to the left into the cylinder 41 under the action of the inclined arc-shaped bottom surface 39, and the rotating pushing plate rotating shaft 45 in the cylinder 41 pushes the rock debris accumulated in the cylinder 41 out of the discharge hole 42, so that the rock debris enters the net bag 43 for air drying. Because the rotating shaft 45 of the material pushing plate rotates along one direction, intermittent work can be realized, and rock debris can be gathered in an interval time period. The secondary cleaning of the rock debris is realized in the pushing process of the pushing plate 46, and the cleanness degree of the rock debris is further improved.

In this embodiment, the first motor 38 is used to drive the stirring structure to rotate, the first motor 38 forms a stirring structure driving motor, the second motor 48 is used to drive the material pushing plate to rotate, and the second motor 48 forms a material pushing plate driving motor.

In this embodiment, the cylinder 41 functions to collect and push out the debris, where the cylinder 41 functions as a collection container, and thus the cylinder 41 forms a collection container.

In this embodiment, the bottom of the stirring tank 31 is wide at the top and narrow at the bottom, so that a tapered section is formed.

It should be noted that the left-right direction in this embodiment is a relative concept, and is intended to explain the positional arrangement relationship between the agitation tank and the material collecting container.

The concrete embodiment 2 of the rock debris cleaning system of the invention:

in embodiment 1, the stirring structure driving motor and the material pushing plate driving motor are arranged along the left-right direction and are arranged on one side of the stirring pool and the aggregate container. For example, a top cover is installed at the top of the stirring pool, certainly, in order to allow a mixture of slurry and rock debris to enter, a rock debris inlet still needs to be formed in the top cover, and a driving motor of a stirring structure is directly installed on the top cover to directly drive a stirring shaft. The driving motor of the material pushing plate is directly installed on the material collecting container, so that the rotating shaft of the material pushing plate is directly driven.

Specific embodiment 3 of the debris cleaning system of the present invention:

in embodiment 1, the water inlet and the stirring tank are separately provided at both ends of the cylinder, and in this embodiment, the water inlet may be disposed on the outer circumferential surface of the cylinder.

Specific embodiment 4 of the debris cleaning system of the present invention:

in embodiment 1, the stirring pool is arranged at one axial end of the cylinder, in this embodiment, the stirring pool can be connected to the outer circumferential surface of the cylinder, and the stirring pool and the discharge port are respectively arranged at two sides of the axis of the rotating shaft of the material pushing plate.

Specific embodiment 5 of the debris cleaning system of the present invention:

in the embodiment 1, the pushing direction of the pushing plate is perpendicular to the water flow direction, and in the embodiment, when the aggregate container is of a spherical structure, the rotating shaft of the pushing plate may extend horizontally perpendicular to the water flow direction, and at this time, the pushing direction of the pushing plate is opposite to the water flow direction.

Specific example 6 of the debris cleaning system of the present invention:

in embodiment 1, the stirring structures are provided with two, and arranged at intervals along the sliding direction of the rock debris, and in this embodiment, the number of the stirring structures can be increased or decreased.

Embodiment 7 of the debris cleaning system of the present invention:

in example 1, the aggregate container is a cylinder, and in this example, the aggregate container may be spherical or groove-shaped.

Embodiment 8 of the debris cleaning system of the present invention:

in example 1, the bottom surface of the stirring tank is an arc-shaped bottom surface, in this example, a conical section is still remained in the stirring tank, and the contour line of the conical section is a straight line on the section perpendicular to the sliding of the rock debris. In other embodiments, the conical section can be eliminated, and the stirring tank is of a structure with the same width as the whole upper and lower parts.

Specific embodiment of the debris cleaning system of the present invention 9:

in example 1, the stirring tank as a whole was inclined so that the bottom surface of the stirring tank was arranged obliquely for the rock debris to automatically slide into the aggregate container. In this embodiment, the bottom surface of the inclined arrangement may be formed in such a manner that the bottom of the stirring tank has a structure with different thickness and one end near the collecting container is thinner. Or an inclined plate can be fixedly arranged at the bottom of the stirring tank to be used as an inclined bottom surface of the stirring tank.

The concrete embodiment of the rock debris cleaning device of the invention is as follows:

the structure of the rock debris cleaning device is consistent with that of the rock debris cleaning device in the embodiments of the rock debris cleaning system, and the details are not repeated herein.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention, the scope of the present invention is defined by the appended claims, and all structural changes that can be made by using the contents of the description and the drawings of the present invention are intended to be embraced therein.

Claims (10)

1. A rock debris belt cleaning device which characterized in that: the device comprises a stirring tank and a collecting container, wherein the stirring tank comprises a bottom surface, the stirring tank is provided with a rock debris outlet and a rock debris inlet for the mixture of rock debris and slurry to enter, and the rock debris outlet is formed by an opening which is arranged at one end of the stirring tank close to the collecting container; a stirring structure for stirring the rock debris is arranged in the stirring tank; the collecting container is connected with a rock debris outlet of the stirring pool to contain rock debris sliding out of the stirring pool; a discharge hole is formed in the aggregate container, the discharge hole is located above the liquid level when the aggregate container is used, a material pushing plate used for pushing rock debris in the aggregate container upwards to the discharge hole is rotatably mounted on the aggregate container, and a water passing hole is formed in the material pushing plate; the collecting container is also provided with a water inlet, the stirring tank is provided with a water outlet, so that the water flow direction is opposite to the sliding direction of the rock debris, and the bottom surface is downwards inclined from one end close to the water outlet of the stirring tank to one end close to the water inlet of the collecting container to supply the rock debris to slide out from the rock debris outlet.

2. A rock debris cleaning apparatus according to claim 1, wherein: the stirring tank comprises a conical section which is wide at the top and narrow at the bottom so as to gather rock debris.

3. The debris cleaning device according to claim 2, wherein: on the cross section perpendicular to the sliding direction of the rock debris, the bottom surface of the stirring pool is an arc-shaped bottom surface.

4. The debris cleaning device according to claim 1, wherein: the rock debris cleaning device comprises at least two stirring structures, and the stirring structures are sequentially arranged at intervals along the sliding direction of the rock debris.

5. A rock debris cleaning device according to any one of claims 1 to 4, characterized in that: the rock debris cleaning device further comprises a net bag, wherein the net bag is connected to the material collecting container and on the discharge port so as to collect rock debris discharged from the discharge port.

6. A rock debris cleaning device according to any one of claims 1 to 4, characterized in that: the rotation axis of the material pushing plate extends horizontally along the water flow direction, so that the material pushing plate pushes the rock debris out of the aggregate container along the direction perpendicular to the horizontal direction.

7. A rock debris cleaning device according to claim 6, wherein: the material collecting container is a cylinder with two closed ends, the discharge port is arranged on the peripheral surface of the cylinder, and the rotation axis of the material pushing plate is coaxially arranged with the central axis of the cylinder; the stirring pool is arranged on one end face of the cylinder.

8. A rock debris cleaning device according to claim 7, wherein: the water inlet is arranged on the end face of the other end of the cylinder.

9. A rock debris cleaning device according to any one of claims 1 to 4, characterized in that: the rock debris cleaning device comprises a base, and the stirring pool and the material collecting container are arranged on the base;

the rock debris cleaning device comprises a stirring structure driving motor for driving the stirring structure to move and a pushing plate driving motor for driving the pushing plate to rotate;

stirring structure driving motor and scraping wings driving motor arrange along the slip direction of detritus in proper order, and stirring structure driving motor and scraping wings driving motor arrange in one side of stirring pond and collecting container.

10. A debris cleaning system, comprising:

the rock debris cleaning device is used for cleaning rock debris;

the conveying belt is used for conveying the mixture of the slurry and the rock debris to the rock debris cleaning device;

the method is characterized in that: the rock debris cleaning device according to any one of claims 1 to 9.

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