CN112683627B

CN112683627B - Automatic processing and treating device for soil sediment sample

Info

Publication number: CN112683627B
Application number: CN202011645522.9A
Authority: CN
Inventors: 郭寿鹏; 张; 邓羡羡; 齐应欢; 张琪
Original assignee: Shandong Institute Of Metallurgical Science Co ltd
Current assignee: Shandong Institute Of Metallurgical Science Co ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2021-10-29
Anticipated expiration: 2040-12-30
Also published as: CN112683627A

Abstract

The invention discloses an automatic processing device for a soil bottom mud sample, which comprises a feeding mechanism, a drying mechanism, a crusher and a screening mechanism, wherein the drying mechanism comprises a drying box for drying soil and a conveying belt for conveying the dried soil to the crushing mechanism, the screening mechanism comprises a material receiving disc and a material distributing disc, the material receiving disc is matched with an output port of the crusher, a screen is arranged at the lower end of the material receiving disc, and the material distributing disc is positioned below the material receiving disc. In feed mechanism carried the stoving case with soil, dried soil, the soil after the stoving was carried to the rubbing crusher in through the conveyer belt and is smashed, and the soil sample after smashing falls into the take-up (stock) pan, falls into the branch charging tray after the screen cloth of take-up (stock) pan bottom filters, and later the sample falls into in the sample bag through blanking pipe. The automatic feeding, drying, crushing and screening of the soil sample are realized, the automation degree is high, the labor intensity is reduced, and the processing efficiency is improved.

Description

Automatic processing and treating device for soil sediment sample

Technical Field

The invention relates to the technical field of soil samples, in particular to an automatic processing device for a soil sediment sample.

Background

Samples of soil, sediment, sludge and the like are not processed products, and a representative analysis sample is obtained firstly when the components of the samples are analyzed. The state issues standards to regulate the sampling and sample processing procedures of such samples, but the human interference is uncertain. Some sludge samples contain malodorous and harmful substances, and cause physical health damage to processing personnel during processing.

Disclosure of Invention

The invention aims to solve the problems and provides an automatic processing device for a soil sediment sample, which can improve the processing efficiency, obtain a sample with representativeness meeting the standard requirements and reduce the physical damage to processing personnel.

The technical scheme adopted by the invention for solving the technical problems is as follows:

an automatic processing device for a soil bottom mud sample comprises a feeding mechanism, a drying mechanism, a crusher and a screening mechanism, wherein the feeding mechanism comprises a first material box and a feeding auger for conveying soil to the drying mechanism, the drying mechanism comprises a drying box for drying soil and a conveying belt for conveying dried soil to the crushing mechanism, a first partition plate is arranged in the drying box, a turning plate is arranged at the lower end of the first partition plate, one end of the turning plate is rotatably connected with the lower end of the first partition plate at the left side, the other end of the turning plate is tightly matched with the lower end of the first partition plate at the right side, a first driving mechanism for driving the turning plate to rotate is arranged in the drying box, the left end of the conveying belt extends into the drying box, the right end of the conveying belt is matched with the input end of the crusher, the screening mechanism comprises a material receiving plate and a material distributing plate, the material receiving plate is matched with the output port of the crusher, a screen is arranged at the lower end of the material receiving plate, sliding connection between screen cloth and the take-up (stock) pan, the take-up (stock) pan right-hand member is equipped with the second actuating mechanism of drive screen cloth pull, divides the charging tray to be located the take-up (stock) pan below, is equipped with the second baffle that equally divide the internal space of branch charging tray into a plurality of sample spaces in the branch charging tray, and sample space lower extreme is equipped with the blanking pipe, is equipped with the solenoid valve on the blanking pipe, and the sample bag is installed to the blanking pipe lower extreme, divides the charging tray to support subaerial through first shaking table.

Further, the upper end of the drying box is provided with a quantitative mechanism.

Furthermore, the quantitative mechanism comprises a second material box, a shifting rod and a collecting box, the second material box is supported on the drying box through a second vibrating table, the right end of the shifting rod is rotatably connected with the second material box, the collecting box is located at the rear end of the second material box, and the output end of the feeding auger is matched with the second material box.

Further, a motor is arranged at the lower end of the second material box, an output shaft of the motor is connected with the driving lever, a rubber layer is arranged at the lower end of the driving lever, and a baffle is arranged at the upper end of the second material box.

Furthermore, the first clapboard inclines downwards from outside to inside, and the lower side of the first clapboard is provided with a heat preservation layer.

Furthermore, the first driving mechanism comprises a first hydraulic cylinder, the cylinder body end of the first hydraulic cylinder is rotatably connected with the inner wall of the drying box, and the piston rod end of the first hydraulic cylinder is hinged with the turning plate.

Furthermore, the left end of the conveying belt is supported at the bottom end of the drying box, the right end of the drying box is provided with a first support frame, and the right end of the conveying belt is supported on the first support frame.

Furthermore, the lower end of the receiving disc is provided with a second support frame, and the receiving disc is installed on the second support frame.

Furthermore, the second driving mechanism comprises a second hydraulic cylinder, the cylinder body end of the second hydraulic cylinder is connected with the second supporting frame, the right end of the screen is provided with a connecting plate, and the piston rod end of the second hydraulic cylinder is connected with the connecting plate.

The invention has the beneficial effects that:

1. the soil screening and crushing device comprises a feeding mechanism, a drying mechanism, a crusher and a screening mechanism, wherein the drying mechanism comprises a drying box for drying soil and a conveying belt for conveying the dried soil to the crushing mechanism, the left end of the conveying belt extends into the drying box, the right end of the conveying belt is matched with the input end of the crusher, the screening mechanism comprises a material receiving disc and a material distributing disc, the material receiving disc is matched with the output port of the crusher, a screen is arranged at the lower end of the material receiving disc, the material distributing disc is positioned below the material receiving disc, and a second partition plate for equally dividing the inner space of the material distributing disc into a plurality of sample spaces is arranged in the material distributing disc. The feeding mechanism conveys soil into a drying box to dry the soil, the dried soil is conveyed into a crusher through a conveying belt to be crushed, a crushed soil sample falls into a receiving disc, the crushed soil sample is filtered by a screen at the bottom end of the receiving disc and then falls into a material distribution disc, and then the sample falls into a sample bag through a blanking pipe; after the filtered soil completely falls off, the sample bag is replaced, the second driving mechanism draws out the screen, and the remaining soil after screening on the screen falls into the material distribution disc to be packaged. The automatic feeding, drying, crushing and screening of the soil sample are realized, the automation degree is high, the labor intensity is reduced, the processing efficiency is improved, the representative sample meeting the standard requirement is obtained, and the harm to the bodies of processing personnel is reduced.

2. According to the invention, the blanking pipe is arranged at the lower end of the sample space, the sample bag is arranged at the lower end of the blanking pipe, and the automatic packaging of the soil sample can be realized through the material distribution disc, the blanking pipe and the sample bag.

3. The invention is provided with a quantitative mechanism at the upper end of the drying box. The quantitative mechanism comprises a second material box, a shifting rod and a collecting box, the second material box is supported on the drying box through a second vibrating table, the right end of the shifting rod is rotatably connected with the second material box, the collecting box is located at the rear end of the second material box, and the output end of the feeding auger is matched with the second material box. The lower end of the second material box is provided with a motor, an output shaft of the motor is connected with a deflector rod, the lower end of the deflector rod is provided with a rubber layer, the upper end of the second material box is provided with a baffle plate, the feeding auger conveys the soil in the first material box into the second material box, then the motor drives the deflector rod to rotate, the soil sample in the second material box is scraped, and the redundant soil is scraped into the collection box, so that the quantity of the second material box sample can be ensured to be fixed, and the subsequent sample split charging is facilitated; the baffle can prevent to scrape the outside with soil, conveniently retrieves.

Drawings

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

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of a drying box of the present invention;

FIG. 3 is a schematic view of the dosing mechanism of the present invention;

FIG. 4 is a schematic view of the screening mechanism of the present invention;

FIG. 5 is a schematic cross-sectional view of the present invention;

FIG. 6 is a top view in cross-section of the present invention.

In the figure: the device comprises a first material box 1, a feeding auger 2, a drying box 3, a first partition plate 4, a turning plate 5, a pulverizer 6, a material receiving plate 7, a material distributing plate 8, a screen 9, a second partition plate 10, a sample space 11, a blanking pipe 12, a sample bag 13, a first vibrating table 14, an electromagnetic valve 15, a second material box 16, a deflector rod 17, a collecting box 18, a second vibrating table 19, a motor 20, a rubber layer 21, a baffle plate 22, a heat insulation layer 23, a first hydraulic cylinder 24, a first support frame 25, a second support frame 26, a second hydraulic cylinder 27, a connecting plate 28 and a conveying belt 29.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the drawings in the embodiment of the present invention, and it is obvious that the described embodiment is only a part of the embodiment of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, 2 and 4 to 6, an automatic processing device for soil bottom sediment samples comprises a feeding mechanism, a drying mechanism, a crusher 6 and a screening mechanism, wherein the feeding mechanism comprises a first material box 1 and a feeding auger 2 for conveying soil to the drying mechanism, the first material box 1 is supported on the ground through a support frame, the drying mechanism comprises a drying box 3 for drying soil and a conveying belt for conveying dried soil to the crushing mechanism, a first partition plate 4 is arranged in the drying box 3, a turning plate 5 is arranged at the lower end of the first partition plate 4, one end of the turning plate 5 is rotatably connected with the lower end of the first partition plate 4 at the left side, the other end of the turning plate 5 is tightly matched with the lower end of the first partition plate 4 at the right side, a first driving mechanism for driving the turning plate 5 to rotate is arranged in the drying box 3, the left end of the conveying belt extends into the drying box 3, and the right end of the conveying belt is matched with the input end of the crusher 6, rubbing crusher 6 chooses the ball mill for use, smashes and adopts the agate ball with the ball, screening mechanism includes take-up (7) and branch charging tray 8, take-up (7) and the cooperation of 6 delivery outlets of rubbing crusher, both take-up (7) are located rubbing crusher 6 below, 7 lower extremes of take-up (7) are equipped with screen cloth 9, sliding connection between screen cloth 9 and the take-up (7), 7 right-hand members of take-up (7) are equipped with the second actuating mechanism of drive screen cloth 9 pull, and branch charging tray 8 is located take-up (7) below, is equipped with in the branch charging tray (8) and equally divides the second baffle 10 that divides the internal space of branch charging tray 8 into a plurality of sample spaces 11 equally, and in this embodiment, the second baffle equally divides the internal space of charging tray to be eight equal divisions, and sample space 11 lower extreme is equipped with blanking pipe 12, is equipped with solenoid valve 15 on blanking pipe 12, and sample bag 13 is installed to blanking pipe 12 lower extreme, and branch charging tray 8 supports subaerial through first shaking table 14. The feeding auger 2 conveys soil in the first material box 1 to the drying box 3 to dry the soil, then the first driving mechanism drives the turning plate 5 to turn over and open, the dried soil is conveyed to the crusher 6 through the conveying belt to be crushed, the crushed soil sample falls into the material receiving disc 7, the crushed soil sample is filtered by the screen at the bottom end of the material receiving disc 7 and then falls into the material distributing disc 8, the soil sample in the material distributing disc 8 is uniformly distributed in each sample space 11 after being vibrated by the first vibrating table 14, then the electromagnetic valve 15 on the blanking pipe 12 is opened, and the sample falls into the sample bag 13; when the filtered soil completely falls off, the sample bag is replaced, the second driving mechanism takes the screen 9 out, and the remaining soil after being screened on the screen falls into the material distribution disc 8 to be packaged. The automatic feeding, drying, crushing and screening of the soil sample are realized, the automation degree is high, the labor intensity is reduced, the processing efficiency is improved, the representative sample meeting the standard requirement is obtained, and the harm to the bodies of processing personnel is reduced. The crushed sample enters the receiving tray 7 and is screened by the screen 9 at the lower end of the receiving tray 7, and different particle size sections can be selected by replacing the screen 9. The automatic packaging of the soil sample can be realized by the distributing disc 8, the blanking pipe 12 and the sample bag 13.

As shown in fig. 3, a quantitative mechanism is arranged at the upper end of the drying box 3. The quantitative mechanism comprises a second material box 16, a shifting rod 17 and a collecting box 18, the second material box 16 is supported on the drying box 3 through a second vibrating table 19, the right end of the shifting rod 17 is rotatably connected with the second material box 16, the collecting box 18 is positioned at the rear end of the second material box 16, and the output end of the feeding auger 2 is matched with the second material box 16. The lower end of the second material box 16 is provided with a motor 20, the output shaft of the motor 20 is connected with a deflector rod 17, the lower end of the deflector rod 17 is provided with a rubber layer 21, the upper end of the second material box 16 is provided with a baffle 22, the feeding auger 2 conveys the soil in the first material box 1 into the second material box 16, then the motor 20 drives the deflector rod 17 to rotate, the soil sample in the second material box 16 is scraped, and the redundant soil is scraped into the collection box 18, so that the sample amount of the second material box 16 can be ensured to be fixed, and the subsequent sample split charging is facilitated; baffle 22 can prevent to scrape the outside with soil, conveniently retrieves.

As shown in fig. 2, the first partition plate 4 is inclined downward from the outside to the inside, and an insulating layer 23 is provided on the lower side of the first partition plate 4. The first driving mechanism comprises a first hydraulic cylinder 24, the cylinder end of the first hydraulic cylinder 24 is rotatably connected with the inner wall of the drying box 3, and the piston rod end of the first hydraulic cylinder 24 is hinged with the turning plate 5.

As shown in fig. 2, the left end of the conveyor belt 29 is supported at the bottom end of the drying box 3, the right end of the drying box 3 is provided with a first support frame 25, and the right end of the conveyor belt 29 is supported on the first support frame 25.

As shown in fig. 4 and 5, the lower end of the receiving tray 7 is provided with a second support frame 26, and the receiving tray 7 is mounted on the second support frame 26. The second driving mechanism comprises a second hydraulic cylinder 27, the cylinder body end of the second hydraulic cylinder 27 is connected with a second supporting frame 26, a connecting plate 28 is arranged at the right end of the screen cloth 9, the piston rod end of the second hydraulic cylinder 27 is connected with the connecting plate 28, and the drawing and pulling of the screen cloth 9 are achieved through the expansion and contraction of the piston rod of the second hydraulic cylinder 27.

In the description of the present invention, it should be noted that the terms "left", "right", "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be mechanically or electrically connected, directly or indirectly through intervening media, or may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Claims

1. The automatic processing device for the soil bottom sediment sample is characterized by comprising a feeding mechanism, a drying mechanism, a pulverizer (6) and a screening mechanism, wherein the feeding mechanism comprises a first material box (1) and a feeding auger (2) used for conveying soil to the drying mechanism, the drying mechanism comprises a drying box (3) used for drying soil and a conveying belt (29) used for conveying the dried soil to the pulverizing mechanism, a first partition plate (4) is arranged in the drying box (3), the first partition plate (4) inclines downwards from outside to inside, a heat insulation layer (23) is arranged on the lower side of the first partition plate (4), a turning plate (5) is arranged at the lower end of the first partition plate (4), one end of the turning plate (5) is rotatably connected with the lower end of the first partition plate (4) on the left side, the other end of the turning plate (5) is tightly matched with the lower end of the first partition plate (4) on the right side, a first driving mechanism for driving the turning plate (5) to rotate is arranged in the drying box (3), the left end of the conveying belt (29) extends into the drying box (3), the right end of the conveying belt (29) is matched with the input end of the pulverizer (6), the screening mechanism comprises a material receiving disc (7) and a material distributing disc (8), the material receiving disc (7) is matched with the output port of the pulverizer (6), the lower end of the material receiving disc (7) is provided with a screen (9), the screen (9) is in sliding connection with the material receiving disc (7), the right end of the material receiving disc (7) is provided with a second driving mechanism for driving the screen (9) to be pulled, the material distributing disc (8) is positioned below the material receiving disc (7), a second partition plate (10) for equally dividing the inner space of the material distributing disc (8) into a plurality of sample spaces (11) is arranged in the material distributing disc (8), a blanking pipe (12) is arranged at the lower end of the sample spaces (11), an electromagnetic valve (15) is arranged on the blanking pipe (12), and a sample bag (13) is arranged at the lower end of the blanking pipe (12), the material distribution disc (8) is supported on the ground through a first vibrating table (14);

stoving case (3) upper end is equipped with quantitative mechanism, quantitative mechanism includes second workbin (16), driving lever (17) and collecting box (18), second workbin (16) support on stoving case (3) through second shaking table (19), it is connected to rotate between driving lever (17) right-hand member and second workbin (16), collecting box (18) are located second workbin (16) rear end, material loading auger (2) output and second workbin (16) cooperation, second workbin (16) lower extreme is equipped with motor (20), motor (20) output shaft is connected with driving lever (17), driving lever (17) lower extreme is equipped with rubber layer (21), second workbin (16) upper end is equipped with baffle (22).

2. The automatic processing device for the soil sediment samples as claimed in claim 1, wherein the first driving mechanism comprises a first hydraulic cylinder (24), the cylinder end of the first hydraulic cylinder (24) is rotatably connected with the inner wall of the drying box (3), and the piston rod end of the first hydraulic cylinder (24) is hinged with the turning plate (5).

3. The automatic processing and treating device for the soil sediment samples as claimed in claim 1, wherein the left end of the conveyer belt (29) is supported at the bottom end of the drying box (3), the right end of the drying box (3) is provided with a first supporting frame (25), and the right end of the conveyer belt (29) is supported on the first supporting frame (25).

4. The automatic processing device for the soil bottom mud samples as claimed in claim 1, wherein the lower end of the receiving tray (7) is provided with a second support frame (26), and the receiving tray (7) is arranged on the second support frame (26).

5. The automatic processing device for soil sediment samples as claimed in claim 4, wherein the second driving mechanism comprises a second hydraulic cylinder (27), the cylinder end of the second hydraulic cylinder (27) is connected with the second supporting frame (26), the right end of the screen (9) is provided with a connecting plate (28), and the piston rod end of the second hydraulic cylinder (27) is connected with the connecting plate (28).