CN216747023U - Air drying device for detecting polluted soil - Google Patents

Abstract

The utility model discloses an air drying device for soil to be detected, which comprises a bracket, wherein an air drying disc is horizontally arranged on the bracket, and the air drying disc horizontally rotates under the driving of a first motor; a transverse rotating shaft is arranged on one side of the support and is driven to rotate by a second motor, and a plurality of soil turning blades are arranged on the transverse rotating shaft; the soil turning blade is correspondingly positioned above the air drying plate. The utility model can accelerate the drying speed of the soil and improve the working efficiency.

Description

Air drying device for detecting polluted soil

Technical Field

The utility model relates to the technical field of soil detection, in particular to an air drying device for soil to be detected.

Background

With the development of society, the range of industrial production and human activities is increased, and soil in some areas is polluted. In order to protect soil and treat soil pollution, a pollution source and soil in a polluted area need to be sampled and detected. Collected soil samples need to be dried before detection. Drying the soil may kill microorganisms in the soil, affecting the soil detection mechanism. The drying time of standing and air-drying the soil is long, and the soil detection efficiency is influenced. There is therefore a need for an air drying device that can accelerate the drying of soil.

Disclosure of Invention

The purpose of the utility model is as follows: in order to overcome the defects in the prior art, the utility model provides the air drying device for the soil to be detected, which can accelerate the drying speed of the soil and improve the working efficiency.

The technical scheme is as follows: in order to achieve the purpose, the air drying device for the polluted soil to be detected comprises a support, wherein an air drying disc is horizontally arranged on the support and is driven by a first motor to horizontally rotate; a transverse rotating shaft is arranged on one side of the support and is driven to rotate by a second motor, and a plurality of soil turning blades are arranged on the transverse rotating shaft; the soil turning blade is correspondingly positioned above the air drying plate.

Further, the soil turning blade is a fan-shaped blade which is obliquely arranged; the plurality of soil turning blades are divided into a plurality of left inclined blade rows and a plurality of right inclined blade rows; the left oblique blade row with the blade of digging of right oblique blade row is followed respectively the axial equidistance of transverse rotating shaft is arranged, and a plurality of left oblique blade rows and a plurality of right oblique blade rows are followed the hoop staggered arrangement of transverse rotating shaft.

Furthermore, the soil turning blades on the adjacent left oblique blade row and right oblique blade row are mutually staggered in the axial direction of the transverse rotating shaft; the projections of the turning blades on the adjacent left oblique blade row and the right oblique blade row along the axial direction of the transverse rotating shaft are provided with overlapping parts.

Furthermore, the support comprises a bottom plate, two vertical plates are oppositely arranged on the bottom plate, and a transverse plate is arranged between the two vertical plates; an annular groove is formed in the upper surface of the transverse plate, and an annular block which is in rotating fit with the annular groove is arranged at the bottom of the air drying disc; a connecting column is arranged at the center of the air drying disc, and a vertically through connecting shaft hole is formed in the connecting column; the first motor is arranged on the bottom plate, an output shaft of the first motor is arranged upwards, a coupling block is arranged on the output shaft of the first motor, and a coupling groove is arranged above the coupling block; the connecting shaft hole and the connecting shaft groove are in inserting fit with a connecting shaft rod, and the second motor drives the air drying disc to rotate through the connecting shaft rod; and a vertical through hole for accommodating the air drying disc is formed in the center of the annular groove.

Furthermore, the shaft connecting hole, the shaft connecting groove and the shaft connecting rod are square.

Furtherly, two the upper end of riser is connected through the roof, the center department of roof is provided with first screw, first screw internal thread connection has the rotation piece, the below of rotation piece is provided with the circular recess, the upper end of connecting the axostylus axostyle is provided with circular block, circular block with circular recess level normal running fit.

Furthermore, a vertical sliding clamping rail is arranged on one side of the vertical plate, a side plate is arranged in the sliding clamping rail in a sliding mode, and the first motor is fixed on the side plate; the lower end of the side plate is provided with an adjusting block; a transverse clamping block is arranged below the sliding clamping rail, and a rotatable vertical screw rod is clamped in the transverse clamping block; the vertical screw rod is in threaded fit with the second screw hole in the adjusting block, and the vertical screw rod drives the side plate to vertically lift when rotating.

Furthermore, the vertical plate is provided with a long hole for accommodating the transverse rotating shaft.

Furthermore, a plurality of air drying plates are vertically arranged on the support, and a plurality of transverse plates for placing the air drying plates are arranged between the two vertical plates.

Has the advantages that: the air drying device for the soil to be detected has the following beneficial effects:

1) the soil sample to be air-dried is placed in an air-drying disc, the air-drying disc horizontally rotates under the drive of a first motor, a soil turning blade is arranged above the air-drying disc, and the soil turning blade rotates under the drive of a second motor, so that the soil sample in the air-drying disc can be turned, and the air-drying speed of the soil is accelerated;

2) the soil turning blade is obliquely arranged in a fan shape and is divided into a left oblique blade row and a right oblique blade row which are opposite in oblique direction, and the left oblique blade row and the right oblique blade row are arranged in a staggered mode, so that the soil turning effect is better, and the air drying speed of the soil is accelerated;

3) first motor drives the air-dry dish through connecting the axostylus axostyle and rotates, and the air-dry dish can be followed the support and taken off, makes things convenient for getting of soil sample to put, also conveniently washs the air-dry dish.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is an exploded view of the components of the present invention;

FIG. 3 is a schematic view of the structure and arrangement of the turning blades;

FIG. 4 is a schematic structural diagram of a turning block;

FIG. 5 is a schematic diagram of the vertical screw and the horizontal fixture block;

fig. 6 is a schematic structural view of an annular block at the bottom of the air-drying disk.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

The air drying device for the contaminated soil to be detected, as shown in the attached fig. 1 to 6, comprises a support 1, wherein an air drying disc 2 is horizontally arranged on the support 1, and the air drying disc 2 is driven by a first motor 3 to horizontally rotate. One side of support 1 is provided with transverse rotating shaft 4, transverse rotating shaft 4 is rotated by the drive of second motor 5, be provided with a plurality of blades 6 that turn over soil on transverse rotating shaft 4. The soil turning blade 6 is correspondingly positioned above the air drying plate 2. When putting soil in the air-dry dish 2, the blade of digging 6 can turn soil, because the air-dry dish 2 self also can be along with first motor 3 horizontal rotation, consequently the blade of digging 6 can evenly turn the soil in the air-dry dish 2 to improve the air-dry speed of soil. In addition, the rotation speed of the soil turning blade 6 needs to be controlled within a small range, and soil splashing caused by the fact that the soil turning blade 6 brings up soil under the action of inertia is avoided.

As shown in fig. 3, the turning blade 6 is a fan-shaped blade that is obliquely arranged. The plurality of the soil turning blades 6 are divided into a plurality of left inclined blade rows 7 and a plurality of right inclined blade rows 8. The inclination directions of the turning blades 6 in the left inclined blade row 7 and the right inclined blade row 8 are opposite. Left oblique blade row 7 with the blade 6 that turns over of right oblique blade row 8 is followed respectively the axial equidistance of transverse rotating shaft 4 is arranged, and a plurality of left oblique blade rows 7 and a plurality of right oblique blade rows 8 are followed the hoop staggered arrangement of transverse rotating shaft 4 for left oblique blade row 7 and right oblique blade row 8 are turned over the soil in air-drying dish 2 in turn, compare in setting up the blade 6 that turns over into single slope direction, and the effect of turning over to soil is better, can reduce the dead angle that soil turned over.

The soil turning blades 6 on the adjacent left oblique blade row 7 and the right oblique blade row 8 are mutually staggered in the axial direction of the transverse rotating shaft 4, so that the soil turning range of the soil turning blades 6 is expanded, and the soil turning dead angle is further reduced. The projections of the turning blades 6 on the adjacent left oblique blade row 7 and the adjacent right oblique blade row 8 in the axial direction of the transverse rotating shaft 4 are overlapped, so that the turning blades 6 are always positioned in soil in the rotating process of the turning blades 6, and the working efficiency of the turning blades 6 is improved.

As shown in fig. 1 and 2, the bracket 1 includes a bottom plate 9, two vertical plates 10 are oppositely disposed on the bottom plate 9, and a transverse plate 11 is disposed between the two vertical plates 10. The upper surface of the transverse plate 11 is provided with an annular groove 12, and the bottom of the air drying disc 2 is provided with an annular block 13 which is in running fit with the annular groove 12. A connecting column 14 is arranged at the center of the air drying disc 2, and a vertically through connecting shaft hole 15 is formed in the connecting column 14. The first motor 3 is fixedly arranged on the bottom plate 9, an output shaft of the first motor 3 is arranged upwards, a stabilizing support 34 for fixing the first motor 3 is arranged on the bottom plate 9, and the output shaft of the first motor 3 is in running fit with a rotating hole in the stabilizing support 34. A coupling block 16 is arranged on an output shaft of the first motor 3, and a coupling groove 17 is arranged above the coupling block 16. The shaft connecting hole 15 and the shaft connecting groove 17 are matched with a shaft connecting rod 18 in an inserting mode, and the second motor 5 drives the air drying disc 2 to rotate through the shaft connecting rod 18. A vertical through hole 31 for accommodating the air drying disc 2 is arranged at the center of the annular groove 12.

Because second motor 5 drives through even shaft hole 15, even axle groove 17 and even axostylus axostyle 18 and air-dries the dish 2 and rotates, consequently can extract even axostylus axostyle 18 from even axle groove 17, then take off air-dried dish 2, make things convenient for getting of soil sample to put, also convenient to air-dried dish 2 washs.

The shaft connecting hole 15, the shaft connecting groove 17 and the shaft connecting rod 18 are square, so that the shaft connecting rod 18 has a transmission function, and the second motor 5 can drive the air drying disc 2 to rotate through the shaft connecting rod 18.

As shown in fig. 4, the upper ends of two vertical plates 10 are connected through a top plate 19, a first screw hole 20 is formed in the center of the top plate 19, a rotating block 21 is connected in the first screw hole 20 in an internal thread manner, and a thread structure in threaded fit with the first screw hole 20 is formed in the lateral direction of the rotating block 21. A circular groove 22 is formed below the rotating block 21, a circular block 23 is arranged at the upper end of the connecting shaft rod 18, and the circular block 23 is horizontally matched with the circular groove 22 in a rotating mode. The rotating block 21 can abut against the upper end of the connecting shaft rod 18, so that the connecting shaft rod 18 is prevented from jumping in the rotating process of the second motor 5, and the connecting rod 18 can be stably driven. After the turning block 21 has been screwed off, the connecting shaft 17 can also be pulled out of the connecting shaft groove 17 in a simple manner, so that the air drying disk 2 can be removed.

Vertical slip card rail 24 is provided with to one side of riser 10, it is provided with curb plate 25 to slide in the slip card rail 24, first motor 3 fixes keep away from on the curb plate 25 one side of riser 10. As shown in fig. 5, the lower end of the side plate 25 is provided with an adjusting block 26; a transverse fixture block 27 is arranged below the sliding fixture rail 24. The horizontal fixture block 27 is internally provided with a rotatable vertical screw 28. A rotating clamping hole 33 is formed in the transverse clamping block 27, and a rotating clamping ring 32 is correspondingly arranged on the vertical screw 28, so that the vertical screw 28 and the transverse clamping block 27 are in rotating fit in the horizontal direction and are relatively limited in the vertical direction. The vertical screw 28 is in threaded fit with a second screw hole 29 on the adjusting block 26, and the vertical screw 28 drives the side plate 25 to vertically lift when rotating, so that the distance between the soil turning blade 6 and the air drying disc 2 is adjusted. When the air-dry plate 2 needs to be taken down, the turning blade 6 moves upwards, the air-dry plate 2 is conveniently taken down, when the soil needs to be turned, the turning blade 6 moves downwards, the distance between the turning blade 6 and the upper surface of the air-dry plate 2 is as small as possible, and the turning effect on the soil is improved.

The vertical plate 10 is provided with a strip hole 30 for accommodating the transverse rotating shaft 4, so that the structure is reasonable.

Vertical range is provided with a plurality of air-drying plates 2 on the support 1, is provided with a plurality of diaphragms 11 of placing air-drying plates 2 between two risers 10, and the top of every air-drying plate 2 all sets and has set blade 6 that digs. When facing to large batch of soil to be air-dried, the utility model has stronger processing capability.

The working mode of the utility model is as follows: soil is put into the air-drying disc 2, the first motor 3 drives the air-drying disc 2 to rotate, and the second motor 5 drives the soil turning blade 6 to rotate, so that the soil turning blade 6 turns the soil in the air-drying disc 2.

The above description is only of the preferred embodiments of the present invention, and it should be noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the utility model and these are intended to be within the scope of the utility model.

Claims (9)

1. A air-dry device for waiting to detect contaminated soil, its characterized in that: the air drying device comprises a bracket (1), wherein an air drying disc (2) is horizontally arranged on the bracket (1), and the air drying disc (2) horizontally rotates under the driving of a first motor (3); a transverse rotating shaft (4) is arranged on one side of the support (1), the transverse rotating shaft (4) is driven by a second motor (5) to rotate, and a plurality of soil turning blades (6) are arranged on the transverse rotating shaft (4); the soil turning blade (6) is correspondingly positioned above the air drying disc (2).

2. The air drying device for contaminated soil to be detected according to claim 1, characterized in that: the soil turning blade (6) is a fan-shaped blade which is obliquely arranged; the plurality of the soil turning blades (6) are divided into a plurality of left inclined blade rows (7) and a plurality of right inclined blade rows (8); left side oblique blade row (7) with blade (6) of digging of right side oblique blade row (8) are followed respectively the axial equidistance of transverse rotating shaft (4) is arranged, and a plurality of left side oblique blade rows (7) and a plurality of right side oblique blade rows (8) are followed the hoop staggered arrangement of transverse rotating shaft (4).

3. The air drying device for the soil to be detected for pollution according to claim 2, characterized in that: the soil turning blades (6) on the adjacent left oblique blade row (7) and right oblique blade row (8) are staggered with each other in the axial direction of the transverse rotating shaft (4); the projections of the soil turning blades (6) on the adjacent left oblique blade row (7) and the right oblique blade row (8) along the axial direction of the transverse rotating shaft (4) are provided with overlapping parts.

4. The air drying device for contaminated soil to be detected according to claim 1, characterized in that: the support (1) comprises a bottom plate (9), two vertical plates (10) are oppositely arranged on the bottom plate (9), and a transverse plate (11) is arranged between the two vertical plates (10); an annular groove (12) is formed in the upper surface of the transverse plate (11), and an annular block (13) which is in rotating fit with the annular groove (12) is arranged at the bottom of the air drying disc (2); a connecting column (14) is arranged at the center of the air drying disc (2), and a vertically through connecting shaft hole (15) is formed in the connecting column (14);

the first motor (3) is arranged on the bottom plate (9), an output shaft of the first motor (3) is arranged upwards, a coupling block (16) is arranged on the output shaft of the first motor (3), and a coupling groove (17) is arranged above the coupling block (16); the connecting shaft hole (15) and the connecting shaft groove (17) are in inserting fit with a connecting shaft rod (18), and the second motor (5) drives the air drying disc (2) to rotate through the connecting shaft rod (18); and a vertical through hole (31) for accommodating the air drying disc (2) is formed in the center of the annular groove (12).

5. The air drying device for the soil to be detected for pollution according to claim 4, characterized in that: the shaft connecting hole (15), the shaft connecting groove (17) and the shaft connecting rod (18) are square.

6. The air drying device for the soil to be detected for pollution according to claim 4, characterized in that: two the upper end of riser (10) is connected through roof (19), the center department of roof (19) is provided with first screw (20), first screw (20) internal thread connection has spinning piece (21), the below of spinning piece (21) is provided with circular recess (22), the upper end of connecting axle pole (18) is provided with circular block (23), circular block (23) with circular recess (22) horizontal normal running fit.

7. The air drying device for the soil to be detected for pollution according to claim 6, characterized in that: a vertical sliding clamping rail (24) is arranged on one side of the vertical plate (10), a side plate (25) is arranged in the sliding clamping rail (24) in a sliding mode, and the first motor (3) is fixed on the side plate (25); the lower end of the side plate (25) is provided with an adjusting block (26); a transverse clamping block (27) is arranged below the sliding clamping rail (24), and a rotatable vertical screw rod (28) is clamped in the transverse clamping block (27); the vertical screw rod (28) is in threaded fit with a second screw hole (29) in the adjusting block (26), and the vertical screw rod (28) drives the side plate (25) to vertically lift when rotating.

8. The air drying device for contaminated soil to be detected according to claim 7, wherein: the vertical plate (10) is provided with a long hole (30) for accommodating the transverse rotating shaft (4).

9. The air drying device for the soil to be detected for pollution according to claim 7, characterized in that: a plurality of air drying plates (2) are vertically arranged on the support (1), and a plurality of transverse plates (11) for placing the air drying plates (2) are arranged between the two vertical plates (10).

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