CN113042362B

CN113042362B - Soil remediation equipment

Info

Publication number: CN113042362B
Application number: CN202110512130.3A
Authority: CN
Inventors: 张波; 王建刚; 杜伟标
Original assignee: Shaoxing Guanwei Environmental Technology Co ltd
Current assignee: Shaoxing Guanwei Environmental Technology Co ltd
Priority date: 2021-05-11
Filing date: 2021-05-11
Publication date: 2022-06-17
Anticipated expiration: 2041-05-11
Also published as: CN113042362A

Abstract

The invention discloses a soil remediation device, and belongs to the field of soil remediation. The utility model provides a soil remediation equipment, including vibrator, vibrator bilateral symmetry, all be equipped with the fixed block in the vibrator of both sides, be equipped with the vibrating motor that can drive the vibrations of both sides fixed block in the vibrator of both sides, be equipped with the sieve between the fixed block of both sides, be equipped with the slip chamber in the sieve, the slip intracavity slides and is equipped with the sliding plate, be equipped with the removal screening chamber that link up in the sliding plate, removal screening chamber rectangular array is equipped with a plurality ofly, be equipped with the flexible chamber that link up in the sliding plate, flexible chamber rectangular array is equipped with a plurality ofly, one side in every removal screening chamber all is equipped with a flexible chamber, the slip of flexible intracavity is equipped with the ejector pad, the ejector pad bilateral symmetry.

Description

Soil remediation equipment

Technical Field

The invention belongs to the field related to soil remediation, and particularly relates to soil remediation equipment.

Background

Soil remediation mostly adopts the method of mechanical screening filtration and chemical change composition to get rid of, the pollutant in the conversion soil, make soil composition reach acceptable level, or turn some poisonous and harmful pollutants into harmless material, and current mechanical screening means generally adopts the sieve to sieve soil, and soil has certain humidity, also can have various big rubbish of granule etc. in the soil, these all can lead to the sieve jam, and be difficult to shake the plug down through the vibrations, and carry out artifical mediation again very trouble to every sieve mesh, and consume more time easily, delay soil remediation's progress very, some current soil remediation equipment are difficult to do comparatively thorough mediation to the sieve, mediation effect is generally not ideal enough, be difficult to satisfy the demand.

Disclosure of Invention

1. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

The utility model provides a soil remediation equipment, including

vibrator

11, 11 bilateral symmetry of vibrator, all be equipped with fixed block 12 in the vibrator 11 of both sides, be equipped with the shock dynamo that can drive the vibrations of both sides fixed block 12 in the vibrator 11 of both sides, be equipped with sieve 13 between the fixed block 12 of both sides, be equipped with sliding chamber 22 in the sieve 13, it is equipped with sliding plate 15 to slide in sliding chamber 22, be equipped with the removal screening chamber 14 that link up in

sliding plate

15, 14 rectangular array in removal screening chamber is equipped with a plurality ofly, be equipped with the flexible chamber 24 that link up in

sliding plate

15, 24 rectangular array in flexible chamber is equipped with a plurality ofly, one side in every removal screening chamber 14 all is equipped with a flexible chamber 24, it is equipped with ejector pad 23 to slide in flexible chamber 24, ejector pad 23 bilateral symmetry.

Further, motor shafts 17 are fixedly arranged on the end surfaces of the two sides of the sieve plate 13, the motor shafts 17 on the two sides are rotatably connected with the fixing blocks 12 on the two sides, a rotating motor 16 is fixedly arranged in the fixing block 12 on one side, one end surface of the rotating motor 16 is fixedly connected with one end of the motor shaft 17 on one side, and the rotating motor 16 can drive the motor shaft 17 to rotate so as to drive the sieve plate 13 to rotate.

Furthermore, an electromagnet 18 is fixedly arranged on one side wall of the sliding cavity 22, a magnetic block 19 is fixedly arranged on one side end face of the sliding plate 15, the electromagnet 18 can adsorb the magnetic block 19, and a thrust spring 20 is fixedly arranged between one side end face of the sliding plate 15 and one side wall of the sliding cavity 22.

Further, the fixed screw shaft 30 that is equipped with in flexible chamber 24, disc threaded connection has connecting block 31 outside the screw shaft 30, connecting block 31 and the both sides wall sliding connection in flexible chamber 24, connecting block 31's both sides terminal surface articulates there is the connecting rod 32, a side terminal surface that both sides connecting rod 32 in the flexible chamber 24 kept away from each other is articulated with a side terminal surface that both sides ejector pad 23 are close to each other, all be equipped with in every ejector pad 23 and place chamber 28, it stretches out spring 25 to fix between a side terminal surface of connecting block 31 and a lateral wall in flexible chamber 24, it can promote connecting block 31 and move on screw shaft 30 to stretch out spring 25, thereby it rotates to drive screw shaft 30 with the threaded connection of connecting block 31 through screw shaft 30.

Furthermore, one side end face of each placing cavity 28 is communicated with a sliding guide cavity 29 inclined towards two sides, a side push block 26 capable of extending to the outer side of the push block 23 is arranged in the sliding guide cavity 29 in a sliding mode, a pull rope 27 is fixedly arranged on one side end face of each side push block 26 close to the placing cavity 28, and each pull rope 27 extends into the telescopic cavity 24 towards one side of the screw shaft 30.

Furthermore, a winding wheel 33 is fixedly arranged on the outer circular surface of the screw shaft 30, one side of each pulling rope 27 extending into the telescopic cavity 24 is wound and accommodated by the outer circular surface of the winding wheel 33 on the same side, the winding directions of the pulling ropes 27 on the two sides are opposite, and a connecting spring 34 is fixedly arranged between each side pushing block 26 and one side wall of the placing cavity 28 on the same side.

Further, the screw shaft 30 can drive the winding wheel 33 to rotate when rotating, so that the pulling ropes 27 on the two sides can be wound and stored, and the side push block 26 can be pulled to the side of the placing cavity 28 on the same side.

Further, be equipped with the fixed screening chamber 21 that link up in the sieve 13, fixed screening chamber 21 rectangular array is equipped with a plurality ofly, and fixed screening chamber 21 can communicate with removal screening chamber 14, and the width that removes screening chamber 14 is greater than the width in fixed screening chamber 21.

2. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) thereby this scheme can be quick remove the sliding plate and seal the sieve, can stretch out the ejector pad when removing and promote the plug in with the sieve mesh to directly release the sieve mesh with the plug or push away to not hard up, the inside side of ejector pad pushes away simultaneously when the ejector pad is stretched out, can be further promote the plug, thereby improve the clearance effect of plug.

(2) This scheme is after clearing up the sieve mesh, drives the sieve through the motor and rotates one hundred eighty degrees to drive the plug and drop naturally, cleaning efficiency is higher.

Drawings

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

FIG. 2 is an enlarged view of the portion A of FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the portion B of FIG. 1 according to the present invention;

FIG. 4 is an enlarged view of the structure of the portion C of FIG. 3 according to the present invention;

fig. 5 is a schematic perspective view of the present invention.

The reference numbers in the figures illustrate:

11. a vibration device; 12. a fixed block; 13. a sieve plate; 14. moving the screening chamber; 15. a sliding plate; 16. rotating the motor; 17. a motor shaft; 18. an electromagnet; 19. a magnetic block; 20. a thrust spring; 21. fixing the screening chamber; 22. a sliding cavity; 23. pushing a block; 24. a telescoping chamber; 25. extending the spring; 26. a side push block; 27. pulling a rope; 28. a placement chamber; 29. a slide guide cavity; 30. a screw shaft; 31. connecting blocks; 32. a connecting rod; 33. a winding wheel; 34. a spring is connected.

Detailed Description

The first embodiment is as follows: referring to fig. 1-5, a soil remediation device comprises a vibration device 11, the vibration device 11 is bilaterally symmetrical, fixed blocks 12 are arranged in the vibration device 11, vibration motors capable of driving the fixed blocks 12 to vibrate are arranged in the vibration device 11, a sieve plate 13 is arranged between the fixed blocks 12, a sliding cavity 22 is arranged in the sieve plate 13, a sliding plate 15 is arranged in the sliding cavity 22 in a sliding manner, a through movable screening cavity 14 is arranged in the sliding plate 15, a plurality of rectangular arrays of the movable screening cavity 14 are arranged, a through telescopic cavity 24 is arranged in the sliding plate 15, a plurality of rectangular arrays of the telescopic cavities 24 are arranged, one side of each movable screening cavity 14 is provided with a telescopic cavity 24, a push block 23 is arranged in the telescopic cavity 24 in a sliding manner, and the push blocks 23 are bilaterally symmetrical. An electromagnet 18 is fixedly arranged on one side wall of the sliding cavity 22, a magnetic block 19 is fixedly arranged on one side end face of the sliding plate 15, the electromagnet 18 can adsorb the magnetic block 19, and a thrust spring 20 is fixedly arranged between one side end face of the sliding plate 15 and one side wall of the sliding cavity 22.

Soil is placed at the top end of a sieve plate 13, when soil is sieved, vibration motors in vibration devices 11 on two sides are started to vibrate fixed blocks 12 on two sides, at the moment, a fixed sieving cavity 21 is aligned with a movable sieving cavity 14, particles in the soil can penetrate through the fixed sieving cavity 21 and the movable sieving cavity 14 through vibration to fall downwards to the lower side of the sieve plate 13, larger particles, garbage and the like in the soil can be left on the upper end surface of the sieve plate 13, when sieving is finished or in the sieving process, the fixed sieving cavity 21 can be blocked by the soil and the garbage, so that the sieving effect is influenced, in addition, as the width of the movable sieving cavity 14 is larger than that of the fixed sieving cavity 21, the blocking phenomenon is difficult to occur in the movable sieving cavity 14, at the moment, an electromagnet 18 is started to overcome the thrust of a thrust spring 20 to adsorb a magnetic block 19, so that the movable sieving cavity 14 and the fixed sieving cavity 21 are driven to be staggered, and drives the telescopic cavity 24 and the fixed sieving cavity 21 to be in the same vertical direction.

The second embodiment is as follows: on the basis of the first specific embodiment, further, motor shafts 17 are fixedly arranged on end surfaces on two sides of the sieve plate 13, the motor shafts 17 on the two sides are rotatably connected with the fixed blocks 12 on the two sides, a rotating motor 16 is fixedly arranged in the fixed block 12 on one side, an end surface on one side of the rotating motor 16 is fixedly connected with one end of the motor shaft 17 on one side, and the rotating motor 16 can drive the motor shafts 17 to rotate so as to drive the sieve plate 13 to rotate. Flexible chamber 24 internal fixation is equipped with screw shaft 30, the outer disc threaded connection of screw shaft 30 has connecting block 31, connecting block 31 and the both sides wall sliding connection of flexible chamber 24, connecting block 31's both sides terminal surface articulates there is the connecting rod 32, a side end face that both sides connecting rod 32 in the flexible chamber 24 kept away from each other is articulated with a side end face that both sides ejector pad 23 is close to each other, all be equipped with in every ejector pad 23 and place chamber 28, it stretches out spring 25 to fix between a side end face of connecting block 31 and a lateral wall of flexible chamber 24 to be equipped with, it can promote connecting block 31 and move on screw shaft 30 to stretch out spring 25, thereby it drives screw shaft 30 and rotates with connecting block 31's threaded connection through screw shaft 30. Each side end face of placing chamber 28 all communicates and is equipped with to the both sides slope lead smooth chamber 29, lead smooth chamber 29 and slide and be equipped with the side ejector pad 26 that can stretch out to the ejector pad 23 outside, and each side ejector pad 26 is close to the fixed stay cord 27 that is equipped with of a side end face of placing chamber 28, and every stay cord 27 all extends to flexible chamber 24 to screw shaft 30 one side. The outer circular surface of the screw shaft 30 is fixedly provided with a winding wheel 33, one side of each pulling rope 27 extending into the telescopic cavity 24 is wound and accommodated by the outer circular surface of the winding wheel 33 on the same side, the winding directions of the pulling ropes 27 on the two sides are opposite, and a connecting spring 34 is fixedly arranged between each side push block 26 and one side wall of the placing cavity 28 on the same side. When the screw shaft 30 rotates, the winding wheel 33 can be driven to rotate, so that the pull ropes 27 on the two sides can be wound and stored, and the side push block 26 can be pulled to the side of the placing cavity 28 on the same side. Be equipped with the fixed screening chamber 21 that link up in the sieve 13, fixed screening chamber 21 rectangular array is equipped with a plurality ofly, and fixed screening chamber 21 can communicate with removal screening chamber 14, and the width in removal screening chamber 14 is greater than the width in fixed screening chamber 21.

When the telescopic cavity 24 and the fixed sieving cavity 21 are in the same vertical direction, the push blocks 23 on both sides lose the limit position, so that the connecting block 31 is pushed to slide by the thrust of the extension spring 25, at the moment, the connecting rod 32 is connected to drive the push blocks 23 on both sides to slide towards the outer side of the telescopic cavity 24 and extend into the fixed sieving cavity 21, the connecting block 31 slides and is connected with the screw shaft 30 through the thread of the connecting block 31 to drive the screw shaft 30 to rotate, so as to drive the winding wheel 33 to rotate and release the pull rope 27, when the pull rope 27 is released, the connecting spring 34 can push the side push block 26 to extend outwards, at the moment, the plug in the fixed sieving cavity 21 can be pushed out by the movement of the push blocks 23 and the side push block 26, at the moment, the rotating motor 16 is started to drive the motor shaft 17 to rotate, the sieve plate 13 is driven to turn over by the rotation of the motor shaft 17, at the moment, the pushed plug can naturally fall to the lower side of the sieve plate 13, when resetting, the electromagnet 18 and the magnetic block 19 are in a disconnected adsorption state, the thrust spring 20 pushes the sliding plate 15 to move, at the moment, the pushing block 23 can automatically slide into the telescopic cavity 24 when contacting with the side wall of the fixed screening cavity 21 due to the appearance of the pushing block 23, the connecting block 31 is driven by the pushing block 23 through the connecting rod 32 to overcome the thrust of the extension spring 25 to slide on the screw shaft 30, the screw shaft 30 is driven to rotate reversely through the threaded connection of the screw shaft 30 and the connecting block 31, the winding wheel 33 is driven to rotate, the pull rope 27 is wound, and the side pushing block 26 is pulled to be close to one side of the placing cavity 28.

Claims

1. A soil remediation device, characterized by: the vibrating screen comprises vibrating devices (11), wherein the two sides of each vibrating device (11) are symmetrical, a screen plate (13) is arranged between the vibrating devices (11) on the two sides, a sliding cavity (22) is arranged in the screen plate (13), a sliding plate (15) is arranged in the sliding cavity (22) in a sliding mode, a through movable screening cavity (14) is arranged in the sliding plate (15), a through telescopic cavity (24) is arranged in the sliding plate (15), and a push block (23) is arranged in the telescopic cavity (24) in a sliding mode;

a placing cavity (28) is arranged in each pushing block (23), one side end face of each placing cavity (28) is communicated with a sliding guide cavity (29) which inclines towards two sides, a side pushing block (26) which can extend out of the pushing block (23) is arranged in the sliding guide cavity (29) in a sliding mode, and a pull rope (27) is fixedly arranged on one side end face, close to the placing cavity (28), of each side pushing block (26);

an electromagnet (18) is fixedly arranged on one side wall of the sliding cavity (22), and a magnetic block (19) is fixedly arranged on one side end face of the sliding plate (15);

a screw shaft (30) is fixedly arranged in the telescopic cavity (24), the outer circular surface of the screw shaft (30) is in threaded connection with a connecting block (31), the connecting block (31) is in sliding connection with two side walls of the telescopic cavity (24), two side end surfaces of the connecting block (31) are hinged with connecting rods (32), one side end surface, far away from each other, of each connecting rod (32) in one telescopic cavity (24) is hinged with one side end surface, close to each other, of each push block (23) in two sides, and an extension spring (25) is fixedly arranged between one side end surface of the connecting block (31) and one side wall of the telescopic cavity (24);

a winding wheel (33) is fixedly arranged on the outer circular surface of the screw shaft (30), one side of each pulling rope (27) extending into the telescopic cavity (24) is wound and stored by the outer circular surface of the winding wheel (33) on the same side, and a connecting spring (34) is fixedly arranged between each side push block (26) and one side wall of the placing cavity (28) on the same side;

when the screw shaft (30) rotates, the winding wheel (33) can be driven to rotate, so that the pull ropes (27) on the two sides can be wound and stored.

2. A soil remediation device according to claim 1, wherein: the motor shafts (17) are fixedly arranged on the end surfaces of the two sides of the sieve plate (13), the motor shafts (17) of the two sides are rotatably connected with the fixing blocks (12) of the two sides, the rotating motor (16) is fixedly arranged in the fixing block (12) of one side, and the end surface of one side of the rotating motor (16) is fixedly connected with one end of the motor shaft (17) of one side.

3. A soil remediation device according to claim 1, wherein: a through fixed screening cavity (21) is arranged in the screen plate (13).