CN114515748B - Soil restoration agent sprinkler for soil restoration - Google Patents

Abstract

The invention relates to the field of soil remediation, in particular to a soil remediation agent spraying device for soil remediation, which can enable a soil remediation agent to uniformly contact with soil to improve a remediation effect and is characterized in that: including rotating turret, restoration bucket, shower hole, turn over native point and fixed part, the rotating turret is connected on the fixed part, restores the bucket and rotates to be connected on the rotating turret, is provided with a plurality of soil points and a plurality of shower holes on the restoration bucket, is provided with two screw holes on the fixed part, still includes the connecting block, connecting block sliding connection is on the fixed part, and the rotating turret is connected on the connecting block.

Description

Soil restoration agent sprinkler for soil restoration

Technical Field

The invention relates to the field of soil remediation, in particular to a soil remediation agent spraying device for soil remediation.

Background

Soil remediation is a technical measure for restoring normal functions of contaminated soil, and in the soil remediation industry, the existing soil remediation technology reaches more than one hundred, and the common technology is also more than ten and can be roughly divided into three methods of physics, chemistry and biology;

the method comprises the steps of using a soil restoration agent to restore damaged soil, spraying or showering the soil restoration agent in the soil, further supplementing various required elements for the damaged soil, assisting the soil to self-clean, and reducing the soil pollution degree, so that the aim of protecting ecological environment is achieved, but the existing soil restoration agent spraying device cannot enable the soil restoration agent to uniformly contact with the soil, and the restoration effect is poor.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a method for uniformly contacting the soil restoration agent with soil to improve the restoration effect.

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

soil restoration agent sprinkler for soil restoration: including rotating turret, restoration bucket, shower hole, turn over native point and fixed part, the rotating turret is connected on the fixed part, restores the bucket and rotates to connect on the rotating turret, is provided with a plurality of soil point and a plurality of shower hole on the restoration bucket, is provided with two screw holes on the fixed part.

Soil restoration agent sprinkler for soil restoration: still include the connecting block, connecting block sliding connection is on the fixed part, and the rotating turret is connected on the connecting block.

Soil restoration agent sprinkler for soil restoration: still include the connecting rod, the connecting rod is connected on the connecting block, rotating turret sliding connection is on the connecting rod.

Drawings

The disclosure may be more clearly understood from the following detailed description taken in conjunction with the accompanying drawings in which:

FIGS. 1 and 2 are schematic structural views of a repair tub;

FIG. 3 is a schematic view of the structure of a rapping bar;

FIGS. 4 and 5 are schematic views of the structure of the skateboard;

FIG. 6 is a schematic view of the structure of the auxiliary arc plate;

FIG. 7 is a schematic view of the structure of the connection block;

FIG. 8 is a schematic view of a turret;

fig. 9 and 10 are schematic views showing the overall structure of a soil restoration agent spraying device for soil restoration.

Detailed Description

As an example, as shown in fig. 1, 2 and 7, this example solves the problem of improving the restoration effect by uniformly contacting the soil restoration agent with the soil,

this device is including repairing bucket 201, shower hole 202, rotating turret 101, fixed part 602 and turning over the soil point 203, be connected with rotating turret 101 on the fixed part 602, rotate on the rotating turret 101 and be connected with repairing bucket 201, a plurality of turning over the soil point 203 and a plurality of shower hole 202 all set up on repairing bucket 201, be provided with two screw holes on the fixed part 602, rotating turret 101 is provided with first motor, the output shaft and the repairing bucket 201 fixed connection of first motor, repairing bucket 201 both sides are provided with the opening, each one of the left and right sides in repairing bucket 201 all is provided with the space that is used for storing the repairing agent to use the baffle to separate.

When using this device, fix this device wholly on a movable carrier through two screw holes that set up on the fixed part 602, inside the repair bucket 201 when the staff adds soil remediation agent powder through the opening that repair bucket 201 both sides set up afterwards, then seal the opening of repair bucket 201 both sides, then operate first motor start and then make the output shaft of first motor rotate thereby drive repair bucket 201 and rotate, can make when a plurality of shower holes 202 on repair bucket 201 rotate to towards ground along with the continuation of repair bucket 201, the remediation agent powder in the repair bucket 201 can naturally be followed a plurality of shower holes 202 and spill, then follow the continuation rotation of repair bucket 201, can make a plurality of soil tips 203 that turn over on the repair bucket 201 follow the synchronous rotation of repair bucket 201, and then make a plurality of soil tips 203 turn over the soil after the shower remediation agent, and then accomplish and turn over the processing to the soil, thereby make the soil remediation agent that this device drenched can the even contact of soil, and then improve the remediation agent repair effect.

As an example, as shown in fig. 2, 7, and 8, this example solves the problem of expanding the shower range,

the device further comprises a connecting block 601, the connecting block 601 is connected to the fixing portion 602 in a sliding mode, the rotating frame 101 is connected to the connecting block 601, a first air cylinder is arranged on the fixing portion 602, and the connecting block 601 is fixedly connected to a telescopic rod of the first air cylinder.

The operation is started as the first motor and then the output shaft of the first motor rotates to drive the restoration bucket 201 to rotate, so that the expansion link of the first cylinder can continuously stretch out and draw back when the restoration agent is sprayed out, the connection block 601 can continuously slide on the fixed part 602, the connection block 601 can further drive the rotating frame 101 to continuously move, and then the position of the restoration bucket 201 on the rotating frame 101 can be changed, and therefore the restoration agent spraying range can be enlarged after the carrier moves to a position, and the soil restoration agent spraying efficiency can be accelerated.

In addition, as an example, as shown in fig. 7 and 8, this example solves the problem of enabling the restorative agent to be mixed with soil of different depths,

the device further comprises a connecting rod 603, the connecting rod 603 is connected to the connecting block 601, the connecting rod 603 is connected to the rotating frame 101 in a sliding mode, a second air cylinder is arranged on the connecting rod 603, and the rotating frame 101 is fixedly connected to a telescopic rod of the second air cylinder.

When the effect of the shower of repairing agent and stirring soil is accomplished to the non-stop rotation of using repairing bucket 201, the telescopic link of second cylinder can regularly stretch out, and then makes the vertical height of repairing bucket 201 change to obtain the degree of depth extension on the basis of original stirring degree of depth at a plurality of soil tips 203, and then make this device stir the soil of degree of depth great, thereby further improve the soil repair effect of this device.

In addition, as an example, as shown in FIGS. 1-2, this example solves the problem of preventing powder sticking from spilling out,

the device further comprises a knocking block 204 and an electromagnetic ring 102, the electromagnetic ring 102 is connected to the rotating frame 101 in a sliding mode, the knocking block 204 is connected to the repairing barrel 201 in a sliding mode, the knocking block 204 can be adsorbed by magnetic force of the electromagnetic ring 102, a third air cylinder is arranged on the rotating frame 101, and the electromagnetic ring 102 is fixedly connected to a telescopic rod of the third air cylinder.

When the repairing barrel 201 rotates continuously to finish the sprinkling of the repairing agent powder and the stirring effect on the soil, as the repairing agent powder possibly has the conditions of being damped, extruded and the like before being added into the repairing barrel 201, the mutually adhered repairing agent powder possibly has the conditions of being adhered to each other, the adhered repairing agent powder cannot be naturally sprinkled out through the plurality of sprinkling holes 202, or the plurality of sprinkling holes 202 are blocked by partial larger powder when the sprinkling is continued, so that the subsequent powder cannot be sprinkled out, the sprinkling effect of the repairing agent can be influenced, so when the repairing barrel 201 is used for sprinkling the repairing agent in the device, after the repairing agent is sprinkled for a period of time, the plurality of sprinkling holes 202 can be rotated to be oriented to the position right above and stopped to rotate, then the electromagnetic ring 102 is started, then the telescopic rod of the third cylinder is operated to stretch out and draw back, and then the electromagnetic ring 102 is made to slide, and accordingly, the space partition plates for storing the repairing agent at the left end and the right ends of the inside of the repairing barrel 201 are blocked up by the electromagnetic ring 102, and the repairing agent is further vibrated, the inside of the repairing barrel 201 is convenient to vibrate and the repairing agent is further vibrated continuously, and the repairing agent is sprinkled in the holes are further, the vibration blocks are further caused to be blocked, and the inside the repairing barrel is convenient to vibrate.

In addition, as an example, as shown in FIGS. 4 to 7, this example solves the problem of further improving the soil restoration effect,

the device still includes supplementary arc board 501, slide 401, gear 604 and compaction piece 502, rotate on the connecting block 601 and be connected with connecting rod 603, fixedly connected with gear 604 on the connecting rod 603, sliding connection has slide 401 on the connecting block 601, fixedly connected with supplementary arc board 501 on the slide 401, two compaction piece 502 downside is provided with supplementary arc board 501, repair barrel 201 can place on supplementary arc board 501, be provided with second motor and mating gear on the connecting block 601, mating gear fixed connection is on the output shaft of second motor, mating gear and gear 604 meshing.

When operation restoration bucket 201 carries out soil stirring and the restoration agent drenches and spills, restoration bucket 201 places on supplementary arc board 501, the positional relationship between supplementary arc board 501 and the restoration bucket 201 is in the figure 4 gesture, afterwards, after the shower carries out a period, operation restoration bucket 201 upwards moves a section distance, and then make supplementary arc board 501 and restoration bucket 201 separation, afterwards operation restoration bucket 201 rotates to a plurality of shower holes 202 orientation ground, then start the second motor and then make the second motor drive the cooperation gear rotation, thereby cooperation gear rotation drives gear 604 rotation, gear 604 rotates thereby drives connecting rod 603 and rotates on connecting block 601, operate restoration bucket 201 downstream and then make restoration bucket 201 and supplementary arc board 501 laminating after 90 degrees of rotation, at this moment, positional relationship between supplementary arc board 501 and the restoration bucket 201 is in the figure 5 gesture, at this moment, because a plurality of tip 203 of turning over are upwards, thereby make the minimum of this device be two compaction blocks 502, at this moment, operation connection block 601 slides on fixed part 602, can make two compaction blocks 502 of supplementary arc board downside carry out hanging soil to coordinate the second compaction block 502, thereby can make two tip compaction effect of soil more than tip cylinder 203 is pressed, thereby can improve the effect of the soil of more compaction by the cooperation, thereby more tip soil is more can be tightly pressed to the soil, and more soil is more tightly restored by the operation is achieved.

In addition, as an example, as shown in FIG. 6, this example solves the problem of enabling the slide plate 401 to return automatically after the soil compacting work is completed

The device also comprises a spring I403, and the spring I403 is fixedly connected between the connecting block 601 and the sliding plate 401.

The spring I403 stretches when the restoration bucket 201 moves downwards and then the pressing slide plate 401 slides downwards on the connecting block 601, and then when the restoration bucket 201 moves upwards, the slide plate 401 can be automatically pulled to slide upwards due to the tensile force of the spring I403, so that the slide plate 401 can be automatically returned, and the auxiliary arc plate 501 on the slide plate 401 can perform soil compacting operation for a plurality of times.

In addition, as an example, as shown in FIGS. 4 to 5, this example solves the problem of further preventing clogging of the plurality of shower holes 202

The device also comprises rubber balls 503, wherein a plurality of rubber balls 503 are arranged on the auxiliary arc plate 501, and the size of each rubber ball 503 is equal to that of each shower hole 202.

When the operation repair barrel 201 moves to the position relationship between the auxiliary arc plate 501 and the repair barrel 201 is in the gesture of fig. 5, the plurality of shower holes 202 on the repair barrel 201 can be attached to the plurality of rubber balls 503, so that when the powder repairing agent blocked in the plurality of shower holes 202 can not fall off only by knocking of the knocking block 204, the dredging task can be completed by means of the plurality of rubber balls 503, and simultaneously after the plurality of shower holes 202 can be attached to the plurality of rubber balls 503, the operation repair barrel 201 can rotate on the rotating frame 101 at a small angle, and further the plurality of shower holes 202 are rubbed with the plurality of rubber balls 503, so that the dredging task is further facilitated.

In addition, as an example, as shown in FIG. 6, this example solves the problem of preventing the powder of the healing agent from remaining on the auxiliary arc plate 501

The device also comprises an auxiliary groove 505, and a plurality of auxiliary grooves 505 are arranged on the auxiliary arc plate 501.

The setting of a plurality of auxiliary tank 505 can make after a plurality of rubber balls 503 carry out the mediation task, because the mediation of a plurality of shower holes 202 and then lead to repairing agent powder to flow out from a plurality of shower holes 202, the powder of outflow can naturally be spilled from a plurality of auxiliary tank 505 to prevent extravagant repairing agent powder to the condition in unnecessary place from appearing.

In addition, as an example, as shown in FIGS. 2, 3 and 5, this example solves the problem of further enhancing the dredging effect

Still include in this device that magnetism is inhaled arc board 302, spring II 303, is beaten strip 301 and slide bar 304, two slide bar 304 all set up in repairing barrel 201, all sliding connection has and beats strip 301 on two slide bar 304, and magnetism is inhaled arc board 302 and is beaten strip 301 fixed connection, and electromagnetic ring 102 can adsorb magnetism and inhale arc board 302, is provided with two springs II 303 between beating strip 301 and repairing barrel 201.

When the repair barrel 201 is operated to move to the position relationship between the auxiliary arc plate 501 and the repair barrel 201 is in the posture of fig. 5, at this time, since the magnetic arc suction plate 302 and the electromagnetic ring 102 are in a relatively short distance, the electromagnetic ring 102 is electrified to absorb the magnetic arc suction plate 302, so that the magnetic arc suction plate 302 moves upwards, the beating bar 301 slides on the two sliding rods 304, the two springs II 303 are compressed, then the electrifying of the electromagnetic ring 102 is stopped, the force absorbing the magnetic arc suction plate 302 is removed, the elastic force of the two springs II 303 drives the beating bar 301 to slide downwards on the two sliding rods 304, and the beating bar 301 automatically slides downwards to beat the inside of the repair barrel 201 in the vertical direction, so that the dredging effect is further enhanced.

In addition, as an example, as shown in FIG. 6, this example solves the problem of facilitating the sprinkling of the liquid repairing agent

The device also comprises a spray head 402, and a plurality of spray heads 402 are arranged on the sliding plate 401.

The plurality of spray heads 402 can be arranged so that when the liquid repairing agent needs to be sprayed, a hose can be externally connected to the plurality of spray heads 402, and then the liquid repairing agent with pressure is introduced into the plurality of spray heads 402, so that the spraying effect of the liquid repairing agent is realized.

Claims (4)

1. Soil restoration agent sprinkler for soil restoration, its characterized in that: comprises a rotating frame (101), a repairing barrel (201), a connecting block (601), an electromagnetic ring (102), a knocking block (204), a connecting rod (603), a showering hole (202), a sliding plate (401), a rubber ball (503), an auxiliary arc plate (501), a compacting block (502), a gear (604), a knocking strip (301), a magnetic arc absorbing plate (302), a spring II (303), a sliding rod (304), a soil turning tip (203) and a fixing part (602), wherein the rotating frame (101) is connected to the fixing part (602), the repairing barrel (201) is rotationally connected to the rotating frame (101), the repairing barrel (201) is provided with a plurality of soil turning tips (203) and a plurality of showering holes (202), the fixing part (602) is provided with two threaded holes, the connecting block (601) is slidingly connected to the fixing part (602), the rotating frame (101) is connected to the connecting block (601), the connecting rod (603) is connected to the connecting block (601), the rotating frame (101) is slidingly connected to the connecting rod (603), the electromagnetic ring (102) is slidingly connected to the rotating frame (101), the knocking block (204) is slidingly connected to the connecting block (201) and the magnetic ring (204), gear (604) rigid coupling is on connecting rod (603), slide (401) sliding connection is on connecting block (601), supplementary arc board (501) rigid coupling is on slide (401), supplementary arc board (501) downside is provided with two compaction piece (502), repair bucket (201) can be placed on supplementary arc board (501), be provided with a plurality of rubber balls (503) on supplementary arc board (501), every rubber ball (503) all equal with the size of every shower hole (202), be provided with two slide bars (304) in repair bucket (201), beat strip (301) sliding connection on two slide bars (304), magnetic attraction arc board (302) and beat strip (301) rigid coupling, magnetic attraction arc board (302) can be adsorbed by electromagnetic ring (102), be provided with two springs II (303) between beat strip (301) and repair bucket (201).

2. A soil restoration agent spray device for soil restoration according to claim 1, wherein: the device also comprises a spring I (403), and the spring I (403) is arranged between the connecting block (601) and the sliding plate (401).

3. A soil restoration agent spray device for soil restoration according to claim 2, wherein: the auxiliary arc plate further comprises auxiliary grooves (505), and the plurality of auxiliary grooves (505) are arranged on the auxiliary arc plate (501).

4. A soil restoration agent spray device for soil restoration according to claim 3, wherein: the device further comprises a spray head (402), and a plurality of spray heads (402) are arranged on the sliding plate (401).

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