CN114367525B - Environment-friendly soil harmful substance treatment device - Google Patents

Abstract

The invention relates to a treatment device, in particular to an environment-friendly soil harmful substance treatment device. It is desirable to design an environment-friendly soil harmful substance treatment device which is convenient for people to treat soil, has high working efficiency and can fully crush the soil. An environment-friendly soil harmful substance treatment device comprises: the shell is provided with supporting legs at intervals; a discharging hopper which is arranged on the shell; the guide hopper is arranged on the shell; and the driving device is arranged on the shell and is used for providing power. According to the invention, the motor drives the first rotating blade and the second rotating blade to rotate, then a proper amount of soil is poured into the hopper by people, the first rotating blade and the second rotating blade rotate to break up the soil, the soil falls into the filter gauze, and the soil is treated after contacting with the extracting solution for a period of time, so that the soil can be conveniently treated by people, and the working efficiency is high.

Description

Environment-friendly soil harmful substance treatment device

Technical Field

The invention relates to a treatment device, in particular to an environment-friendly soil harmful substance treatment device.

Background

After the harmful organic substances enter the soil, people generally treat the soil. At present, most of the soil is manually treated, firstly, an operator smashes a proper amount of soil by using a hammer, then a proper amount of extracting solution is added for soaking treatment, so that the operation is troublesome, the working efficiency is low, the strength of people is limited, and the soil cannot be smashed sufficiently, so that the treatment is insufficient.

How to design a make things convenient for people to handle soil, work efficiency is high, and can fully smash soil with soil harmful substance processing apparatus for environmental protection to solve prior art problem.

Disclosure of Invention

In order to overcome the defects that the soil is smashed by a hammer and then is treated by adding the extracting solution, the operation is troublesome, the working efficiency is low, and the soil cannot be smashed sufficiently, so that the treatment is insufficient, the technical problem of the invention is that: the environment-friendly soil harmful substance treatment device is convenient for people to treat soil, has high working efficiency and can fully crush the soil.

The technical implementation scheme of the invention is as follows: an environment-friendly soil harmful substance treatment device comprises: the shell is provided with supporting legs at intervals; a discharging hopper which is arranged on the shell; the guide hopper is arranged on the shell; a driving device mounted on the housing for providing power; the crushing device is arranged on the driving device and used for crushing soil; and the soaking device is arranged on the shell and used for treating soil.

More preferably, the driving device includes: the mounting plate is mounted on the shell; the motor is arranged on the mounting plate; the protective shell is arranged on the mounting plate, and the motor is positioned in the protective shell; the mounting column is mounted on the shell; the first bevel gear is arranged on the output shaft of the motor.

More preferably, the crushing device comprises: the first rotating shaft is rotatably arranged on the mounting column; the second bevel gear is arranged on the first rotating shaft and meshed with the first bevel gear; the first rotating blade is arranged on the first rotating shaft; the rotating cylinder is rotatably arranged on the first rotating shaft; the third bevel gear is arranged on the rotating cylinder and meshed with the first bevel gear; and the second rotating vane is arranged on the rotating cylinder.

More preferably, the dipping device comprises: the first sliding rod is symmetrically arranged on the shell; the sliding block is arranged between the two first sliding rods in a sliding manner; the material soaking frame is arranged on the sliding block; the fixed blocks are symmetrically arranged on the material soaking frame; the rotating rod is rotatably arranged between the two fixed blocks; a support plate mounted on the housing; the second sliding rods are arranged on the soaking frame at intervals; the sliding mounting ring is arranged between the second sliding rods in a sliding manner; and the filter gauze is arranged on the sliding mounting ring.

More preferably, the device also comprises a material blocking device, and the material blocking device comprises: the third slide bar is arranged on the shell; the rack is arranged on the third sliding rod in a sliding manner; the first return spring is arranged between the rack and the third sliding rod; the top block is arranged on the rack; the mounting block is mounted on the shell; the second rotating shaft is rotatably arranged on the mounting block; the first column gear is arranged on the second rotating shaft and meshed with the rack; the third rotating shaft is rotatably arranged on the mounting block; the third rotating shaft and the second rotating shaft are respectively provided with a fourth bevel gear, and the two fourth bevel gears are meshed; the fourth rotating shaft is rotatably arranged on the mounting block; the second column gear is arranged on the third rotating shaft and the fourth rotating shaft, and the two second column gears are meshed; and the rotating baffle plates are arranged on the third rotating shaft and the fourth rotating shaft.

More preferably, still include material lifting device, material lifting device is including: the sliding ejector rods are arranged on the sliding mounting ring at intervals in a sliding manner; the second reset spring is arranged between the sliding ejector rod and the material soaking frame; the connecting block is arranged on the sliding ejector rod; the connecting plates are arranged between the outer sides of the two connecting blocks; the convex rod is arranged on the connecting plate; the guide sleeve is rotatably arranged on the convex rod; the groove plate is symmetrically arranged on the shell, the guide sleeve is positioned in the groove plate, and the guide sleeve is in sliding fit with the groove plate.

More preferably, the device further comprises a locking device, and the locking device comprises: the rotating limiting blocks are symmetrically arranged on the rotating rod; the torsion spring is arranged between the fixed block and the rotation limiting block and is wound on the rotating rod; the groove blocks are symmetrically embedded in the supporting plate.

More preferably, the device further comprises a guiding device, and the guiding device comprises: the connecting rods are arranged on the discharging hopper at intervals; the guide table is arranged between the connecting rods.

The beneficial effects of the invention are as follows:

1. according to the invention, the motor drives the first rotating blade and the second rotating blade to rotate, then a proper amount of soil is poured into the hopper by people, the first rotating blade and the second rotating blade rotate to break up the soil, the soil falls into the filter gauze, and the soil is treated after contacting with the extracting solution for a period of time, so that the soil can be conveniently treated by people, and the working efficiency is high.

2. According to the invention, under the action of the material blocking device, the material soaking frame moves rightwards to separate from the jacking block, and the front side and the rear side of the material soaking frame are in swinging fit with the rotating baffles to limit the material guiding hopper, so that redundant soil can be prevented from falling.

3. According to the invention, under the action of the locking device, the rotary limiting block is clamped on the groove block, and the rotary rod is limited by the rotary limiting block, so that the material dipping frame is limited, and the movement of the material dipping frame when the device is not needed can be avoided.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic cross-sectional structure of the present invention.

Fig. 3 is a schematic cross-sectional view of the driving device of the present invention.

Fig. 4 is a schematic cross-sectional view of the crushing apparatus of the present invention.

FIG. 5 is an enlarged schematic view of section A of the present invention.

FIG. 6 is a schematic cross-sectional view of a dipping device according to the invention.

FIG. 7 is a schematic view of a first partial cross-sectional structure of the leaching device of the present invention.

FIG. 8 is a schematic view of a second partial cross-sectional structure of the leaching apparatus of the present invention.

Fig. 9 is a schematic perspective view of a dam device of the present invention.

FIG. 10 is a schematic view of a portion of a dam assembly of the present invention.

FIG. 11 is a schematic view of a partial cross-sectional structure of a dam device of the present invention.

Fig. 12 is a schematic perspective view of a first part of a material lifting device according to the present invention.

Fig. 13 is a schematic perspective view of a second part of the material lifting device of the present invention.

Fig. 14 is a schematic cross-sectional view of the locking device of the present invention.

Fig. 15 is a schematic perspective view of a guide device according to the present invention.

Meaning of reference numerals in the drawings: 1. the support legs, 2, the shell, 3, the blanking hopper, 4, the guide hopper, 5, the device, 51, the mounting plate, 52, the motor, 53, the protective shell, 54, the mounting column, 55, the first bevel gear, 6, the crushing device, 61, the first rotating shaft, 62, the second bevel gear, 63, the first rotating blade, 64, the rotating cylinder, 65, the third bevel gear, 66, the second rotating blade, 7, the dipping device, 71, the first sliding rod, 72, the sliding block, 73, the dipping frame, 74, the fixed block, 75, the rotating rod, 76, the supporting plate, 77, the second sliding rod, 78, the sliding mounting ring, 79, the filtering gauze, 8, the blocking device, 81 and the third sliding rod, 82, racks, 83, first return springs, 84, top blocks, 85, mounting blocks, 86, second rotating shafts, 87, first column gears, 88, third rotating shafts, 89, fourth bevel gears, 810, fourth rotating shafts, 811, second column gears, 812, rotating baffles, 9, lifting devices, 91, sliding top rods, 92, second return springs, 93, connecting blocks, 94, connecting plates, 95, protruding rods, 96, guide sleeves, 97, groove plates, 10, locking devices, 101, rotating limiting blocks, 102, torsion springs, 103, groove blocks, 11, guide devices, 111, connecting rods, 112 and guide tables.

Detailed Description

The following description of the technical solutions in the embodiments of the present invention will be clear and complete, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The utility model provides an environmental protection soil harmful substance processing apparatus, as shown in fig. 1-8, including landing leg 1, shell 2, lower hopper 3, guide hopper 4, drive arrangement 5, crushed aggregates device 6 and soaking device 7, shell 2 bottom interval is equipped with landing leg 1, and shell 2 upper portion is equipped with down hopper 3, and shell 2 upper portion is equipped with guide hopper 4, is equipped with drive arrangement 5 on the shell 2, is equipped with crushed aggregates device 6 on the drive arrangement 5, is equipped with soaking device 7 on the shell 2.

The driving device 5 comprises a mounting plate 51, a motor 52, a protective shell 53, a mounting column 54 and a first bevel gear 55, wherein the mounting plate 51 is fixedly connected to the upper portion of the outer left side face of the housing 2, the motor 52 is fixedly connected to the top of the mounting plate 51, the protective shell 53 is fixedly connected to the top of the mounting plate 51, the motor 52 is located in the protective shell 53, the mounting column 54 is fixedly connected to the upper portion of the inner left side face of the housing 2, and the first bevel gear 55 is connected to an output shaft of the motor 52.

The crushing device 6 comprises a first rotating shaft 61, a second bevel gear 62, a first rotating blade 63, a rotating cylinder 64, a third bevel gear 65 and a second rotating blade 66, wherein the right part of the mounting column 54 is rotatably provided with the first rotating shaft 61, the second bevel gear 62 is fixedly connected to the upper part of the first rotating shaft 61 in the circumferential direction, the second bevel gear 62 is meshed with the first bevel gear 55, the first rotating blade 63 is fixedly connected to the upper part of the first rotating shaft 61 in the circumferential direction, the rotating cylinder 64 is rotatably arranged at the lower part of the first rotating shaft 61 in the circumferential direction, the third bevel gear 65 is fixedly connected to the upper part of the rotating cylinder 64 in the circumferential direction, the third bevel gear 65 is meshed with the first bevel gear 55, and the second rotating blade 66 is fixedly connected to the lower part of the rotating cylinder 64 in the circumferential direction.

The dipping device 7 comprises a first slide bar 71, a slide block 72, a dipping frame 73, a fixed block 74, a rotating rod 75, a supporting plate 76, a second slide bar 77, a sliding mounting ring 78 and filtering gauze 79, wherein the first slide bar 71 is fixedly connected to the lower portion of the shell 2 in a front-back symmetrical manner, the slide block 72 is arranged between the first slide bars 71 on the front side and the back side in a sliding manner, the dipping frame 73 is fixedly connected to the top of the slide block 72, the fixed block 74 is fixedly connected to the right side of the dipping frame 73 in a front-back symmetrical manner, the rotating rod 75 is arranged between the right portions of the fixed blocks 74 on the front side and the back side in a rotating manner, the supporting plate 76 is arranged on the lower right side of the shell 2, the second slide bar 77 is arranged at intervals on the left portion of the dipping frame 73, the sliding mounting ring 78 is arranged between the second slide bars 77 in a sliding manner, and the filtering gauze 79 is fixedly connected to the inner side circumference of the sliding mounting ring 78.

At the beginning, a proper amount of extracting solution is filled in the soaking frame 73, firstly, a user starts the motor 52, the motor 52 drives the first bevel gear 55 to rotate, the first bevel gear 55 rotates to drive the second bevel gear 62 to rotate, the second bevel gear 62 rotates to drive the first rotating shaft 61 to rotate, the first rotating shaft 61 rotates to drive the first rotating blade 63 to rotate, meanwhile, the first bevel gear 55 rotates to drive the third bevel gear 65 to rotate, the third bevel gear 65 rotates to drive the rotating drum 64 to rotate, the rotating drum 64 rotates to drive the second rotating blade 66 to rotate, then, a proper amount of soil is poured into the soil through the discharging hopper 3, the soil is scattered by the rotation of the first rotating blade 63 and the second rotating blade 66, and then falls into the filter gauze 79, after the soil contacts with the extracting solution for a period of time, pulling the rotating rod 75 to move rightwards, the rotating rod 75 to move rightwards drives the fixed block 74 to move rightwards, the fixed block 74 to move rightwards drives the dipping frame 73 to move rightwards, the dipping frame 73 moves rightwards to enable the sliding mounting ring 78 to move rightwards, then the sliding mounting ring 78 is taken up to carry out subsequent treatment on the extracted soil, then the mounting ring 78 is put back into the dipping frame 73, the rotating rod 75 is pulled to drive the fixed block 74 to move leftwards for resetting, the dipping frame 73 also moves leftwards for resetting, after all soil treatment is completed, the motor 52 is turned off, the first bevel gear 55 stops driving the first rotating shaft 61 to rotate through the second bevel gear 62, the first rotating blade 63 stops rotating, and the second rotating blade 66 also stops rotating.

Example 2

On the basis of the embodiment 1, as shown in fig. 2, 9, 10, 11, 12 and 13, the device further comprises a material blocking device 8, wherein the material blocking device 8 comprises a third sliding rod 81, a rack 82, a first return spring 83, a top block 84, a mounting block 85, a second rotating shaft 86, a first column gear 87, a third rotating shaft 88, a fourth bevel gear 89, a fourth rotating shaft 810, a second column gear 811 and a rotating baffle 812, the lower left front side of the shell 2 is provided with the third sliding rod 81, the third sliding rod 81 is provided with the rack 82 in a sliding manner, a first return spring 83 is connected between the left side surface of the rack 82 and the left part of the third sliding rod 81 in a winding manner, the left side of the bottom of the rack 82 is fixedly connected with the top block 84, the middle side of the left part in the shell 2 is provided with the mounting block 85, the lower side of the front part of the mounting block 85 is provided with the second rotating shaft 86 in a rotating manner, the first column gear 87 of second pivot 86 front portion circumference, first column gear 87 meshes with rack 82, the rotatory third pivot 88 that is equipped with in installation piece 85 rear portion circumference, third pivot 88 lower part circumference and second pivot 86 rear portion circumference all rigid coupling have fourth bevel gear 89, two fourth bevel gears 89 mesh, installation piece 85 rear portion rotation is equipped with fourth pivot 810, fourth pivot 810 is located the third pivot 88 rear, fourth pivot 810 lower part circumference and third pivot 88 middle part circumference all rigid coupling have second column gear 811, two second column gears 811 mesh, fourth pivot 810 upper portion circumference and third pivot 88 upper portion circumference all rigid coupling have rotation baffle 812, rotation baffle 812 is located guide hopper 4 below.

Still including material lifting device 9, material lifting device 9 is including sliding ejector pin 91, second reset spring 92, connecting block 93, connecting plate 94, protruding pole 95, guide sleeve 96 and frid 97, sliding collar 78 bottom interval is equipped with four sliding ejector pin 91, be equipped with second reset spring 92 between sliding ejector pin 91 bottom and the inside of material soaking frame 73, sliding ejector pin 91 lower part circumference rigid coupling has connecting block 93, all the rigid coupling has connecting plate 94 between the left and right sides connecting block 93 lateral surface of front and back both sides, connecting plate 94 lateral surface middle part rigid coupling has protruding pole 95, protruding pole 95 outside circumference rotation is equipped with guide sleeve 96, both sides all rigid couplings have frid 97 around the shell 2 lower part, guide sleeve 96 is located frid 97, frid 97 is left straight slot right chute setting, guide sleeve 96 and frid 97 sliding fit.

Initially, the first return spring 83 is in a compressed state, when the user pulls the rotating rod 75 to move rightwards, the material soaking frame 73 moves rightwards and is separated from the top block 84, the rack 82 moves rightwards to drive the first column gear 87 to rotate reversely due to the action of the first return spring 83, the first column gear 87 rotates reversely to drive the second rotating shaft 86 to rotate reversely, the second rotating shaft 86 rotates reversely to drive the third rotating shaft 88 to rotate reversely through the fourth bevel gear 89, the third rotating shaft 88 rotates reversely to drive the front rotating baffle 812 to swing backwards, the third rotating shaft 88 rotates reversely to drive the fourth rotating shaft 810 to swing forwards through the second column gear 811, the fourth rotating shaft 810 rotates positively to drive the rear rotating baffle 812 to swing forwards, the front side rotating baffle 812 and the rear side rotating baffle 812 swing to cooperate to limit the material guiding hopper 4, the material soaking frame 73 moves leftwards to be in contact with the top block 84, the material soaking frame 73 drives the top block 84 to move leftwards to drive the top block 84 to move leftwards, the top block 84 drives the rack 82 to move leftwards, the first return spring 83 is compressed, the rotating baffle 812 swings outwards to reset, and redundant soil is prevented from falling.

Initially, the second return spring 92 is in a compressed state, when the user pulls the rotating rod 75 to move rightwards, the sliding mounting ring 78 moves rightwards to drive the sliding ejector rod 91 to move rightwards, the sliding ejector rod 91 moves rightwards to drive the connecting block 93 to move rightwards, the connecting block 93 moves rightwards to drive the connecting plate 94 to move rightwards, the connecting plate 94 moves rightwards to drive the protruding rod 95 to move rightwards, the protruding rod 95 moves rightwards to drive the guide sleeve 96 to move rightwards to the right part of the groove plate 97, and when the guide sleeve 96 moves rightwards to the right part of the groove plate 97, due to the action of the second return spring 92, the sliding ejector rod 91 drives the sliding mounting ring 78 to move upwards for a certain distance, the user can take down the sliding mounting ring 78 to carry out subsequent treatment on the extracted soil, then the sliding mounting ring 78 is put back into the dipping frame 73, the rotating rod 75 is pulled to enable the dipping frame 73 to move leftwards to reset, the groove plate 97 also enables the sliding ejector rod 91 to move downwards to reset, and the second return spring 92 is compressed, so that the user can take up the sliding mounting ring 78.

Example 3

On the basis of embodiment 1, as shown in fig. 1, 14 and 15, the locking device 10 further comprises a locking device 10, wherein the locking device 10 comprises a rotation limiting block 101, a torsion spring 102 and a groove block 103, the rotation limiting block 101 is fixedly connected on the periphery of the rotating rod 75 in a front-back symmetrical manner, the torsion spring 102 is arranged between the outside of the fixed block 74 and the lower part of the rotation limiting block 101, the torsion spring 102 is wound on the rotating rod 75, and the groove block 103 is embedded on the inner bottom of the supporting plate 76 in a front-back symmetrical manner.

The guide device 11 is further included, the guide device 11 comprises a connecting rod 111 and a guide table 112, the connecting rod 111 is arranged at the lower part of the inner side surface of the discharging hopper 3 at intervals, and the guide table 112 is fixedly connected between the inner ends of the connecting rod 111.

When need not to use this device, accessible rotation stopper 101 card is on the groove block 103, and torsion spring 102 plays the cushioning effect, rotates stopper 101 and spacing to bull stick 75, and material soaking frame 73 is just also spacing, so, the material soaking frame 73 takes place to remove when can avoiding not needing to use this device.

When using this device, the guide table 112 protects first pivot 61, and guide table 112 makes soil better drop to first swivel vane 63 simultaneously, so, can make soil better drop.

While the present disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present disclosure as defined by the appended claims and their equivalents. The scope of the disclosure should, therefore, not be limited to the above-described embodiments, but should be determined not only by the following claims, but also by the equivalents of the following claims.

Claims (4)

1. The utility model provides a soil harmful substance processing apparatus for environmental protection which characterized in that includes:

the shell (2), the interval is equipped with the landing leg (1) on the shell (2);

a discharging hopper (3), wherein the discharging hopper (3) is arranged on the shell (2);

the guide hopper (4), the guide hopper (4) is installed on the shell (2);

a driving device (5) which is arranged on the shell (2) and is used for providing power;

the crushing device (6) is arranged on the driving device (5) and is used for crushing soil;

the dipping device (7) is arranged on the shell (2) and is used for treating soil;

the driving device (5) comprises:

a mounting plate (51), the mounting plate (51) being mounted on the housing (2);

a motor (52), the motor (52) being mounted on the mounting plate (51);

the protection shell (53), the protection shell (53) is installed on the mounting plate (51), and the motor (52) is located in the protection shell (53);

a mounting post (54), the mounting post (54) being mounted on the housing (2);

a first bevel gear (55), the first bevel gear (55) being mounted on the output shaft of the motor (52);

the crushing device (6) comprises:

a first rotating shaft (61), the first rotating shaft (61) being rotatably mounted on the mounting column (54);

a second bevel gear (62), the second bevel gear (62) being mounted on the first shaft (61), the second bevel gear (62) being meshed with the first bevel gear (55);

a first rotating blade (63), the first rotating blade (63) being mounted on the first rotating shaft (61);

a rotating cylinder (64), the rotating cylinder (64) being rotatably mounted on the first rotating shaft (61);

a third bevel gear (65), the third bevel gear (65) is mounted on the rotary cylinder (64), and the third bevel gear (65) is meshed with the first bevel gear (55);

a second rotating vane (66), the second rotating vane (66) being mounted on the rotating cylinder (64);

the dipping device (7) comprises:

the first sliding rod (71), the first sliding rod (71) is symmetrically arranged on the shell (2);

the sliding block (72), the sliding block (72) is installed between two first sliding bars (71) in a sliding way;

a dipping frame (73), wherein the dipping frame (73) is arranged on the sliding block (72);

the fixed blocks (74), the fixed blocks (74) are symmetrically arranged on the material soaking frame (73);

the rotating rod (75), the rotating rod (75) is rotatably arranged between the two fixed blocks (74);

a support plate (76), the support plate (76) being mounted on the housing (2);

the second sliding rods (77) are arranged on the soaking frame (73) at intervals;

a sliding mounting ring (78), the sliding mounting ring (78) being slidably mounted between the second slide bars (77);

a filter gauze (79), the filter gauze (79) being mounted on a sliding mounting ring (78);

the device also comprises a material blocking device (8), wherein the material blocking device (8) comprises:

a third sliding bar (81), the third sliding bar (81) being mounted on the housing (2);

a rack (82), the rack (82) being slidably mounted on the third slide bar (81);

a first return spring (83), the first return spring (83) being mounted between the rack (82) and the third slide bar (81);

a top block (84), the top block (84) being mounted on the rack (82);

the mounting block (85), the mounting block (85) is installed on the outer casing (2);

the second rotating shaft (86), the second rotating shaft (86) is rotatably installed on the installation block (85);

a first column gear (87), the first column gear (87) is mounted on the second rotating shaft (86), and the first column gear (87) is meshed with the rack (82);

a third rotating shaft (88), the third rotating shaft (88) being rotatably mounted on the mounting block (85);

a fourth bevel gear (89), wherein the fourth bevel gear (89) is arranged on the third rotating shaft (88) and the second rotating shaft (86), and the two fourth bevel gears (89) are meshed;

a fourth rotating shaft (810), the fourth rotating shaft (810) being rotatably mounted on the mounting block (85);

a second column gear (811), wherein the third rotating shaft (88) and the fourth rotating shaft (810) are respectively provided with a second column gear (811), and the two second column gears (811) are meshed;

and the rotating baffle (812) is arranged on the third rotating shaft (88) and the fourth rotating shaft (810).

2. An environmentally friendly soil pest treatment device according to claim 1, further comprising a lifting device (9), wherein the lifting device (9) comprises:

the sliding ejector rods (91), the sliding ejector rods (91) are arranged on the sliding mounting ring (78) at intervals in a sliding manner;

the second return spring (92), the second return spring (92) is installed between slide ejector rod (91) and dip frame (73);

the connecting block (93), the connecting block (93) is installed on the sliding ejector rod (91);

the connecting plate (94), the connecting plate (94) is installed between one outer side of the two connecting blocks (93);

a protruding rod (95), wherein the protruding rod (95) is arranged on the connecting plate (94);

the guide sleeve (96), the guide sleeve (96) is installed on the protruding rod (95) in a rotary mode;

the groove plate (97), the groove plate (97) is installed on the shell (2) symmetrically, the guide sleeve (96) is located in the groove plate (97), and the guide sleeve (96) is in sliding fit with the groove plate (97).

3. An environmentally friendly soil pest treatment device according to claim 2, further comprising a locking device (10), the locking device (10) comprising:

the rotating limiting block (101) is symmetrically arranged on the rotating rod (75);

the torsion spring (102), the torsion spring (102) is installed between the fixed block (74) and the rotation limiting block (101), and the torsion spring (102) is wound on the rotating rod (75);

and the groove blocks (103) are symmetrically and embedded on the supporting plate (76).

4. An environmentally friendly soil pest treatment apparatus as claimed in claim 3, further comprising a guide means (11), the guide means (11) comprising:

the connecting rods (111), the connecting rods (111) are arranged on the discharging hopper (3) at intervals;

and a guide table (112), wherein the guide table (112) is installed between the connecting rods (111).

Images