CN214417300U - Modular soil remediation administers device - Google Patents

Abstract

The invention discloses a combined soil remediation and treatment device which comprises a fixed seat, a soil remediation bin, a liquid adding box, a feeding box, a power supply box, a first coulter group, a second coulter group, a first motor, a second motor, a vibrating motor, a traction head and a movable wheel, wherein the fixed seat is fixedly arranged on the soil remediation bin; wherein the soil restoration bin, the liquid feeding box, the power supply box, the first motor, the second motor and the vibrating motor are arranged above the fixed seat; first coulter group, second coulter group and loose wheel set up in the fixing base below, and the traction head setting is tip before the fixing base, and the traction head is used for being connected with traction equipment. According to the soil remediation device, the soil remediation bin is arranged, and the spray head matrix and the ultraviolet germicidal lamps are arranged in the soil remediation bin, so that the remediation liquid can be uniformly sprayed to soil to be remedied, and harmful bacteria in the soil can be killed; the coulter sets are respectively installed at the front end and the rear end of the soil remediation bin, so that the liquid remediation agent and the solid remediation agent are fully mixed, and the soil remediation efficiency is improved.

Description

Modular soil remediation administers device

Technical Field

The invention relates to the technical field of soil remediation equipment, in particular to a combined soil remediation device.

Background

With the rapid development of global industrialization, pollutants such as harmful heavy metals and organic matters enter the soil through various ways, and the soil is polluted. Soil pollution not only causes agriculture to be affected, but also causes harm to the environment polluted by underground water and affects human health, so that soil remediation is a technology which needs to be developed urgently at present.

According to the detection of most of organic contaminated soil in China at present, farmland soil is contaminated through various ways, and in the past decades, the discharge of various pollutants into the environment influences water bodies, atmosphere, soil and ecological environment under the restriction of various factors such as economic and technical conditions in the historical period, the cognition level of people and the like. Therefore, in a short time, the pollutants are attached to the soil, so that the pollutants can not only cause long-term harm to the ecological environment, but also finally enter the human body through different ways of planting crops, infiltrating underground water and the like to cause serious harm to the health of the human body, and therefore, the polluted farmland soil needs to be repaired.

Different from the treatment of air and water pollution, the soil remediation work is high in cost, long in time consumption, complex in treatment process and easy to generate secondary pollution. In addition, the situation of soil pollution prevention and control in China is very complex: the soil pollution in some areas is serious, the soil pollution types are various, and the situation that new and old pollutants coexist and inorganic and organic composite pollutants coexist is presented, so that the soil remediation work is more important and complicated. Generally speaking, the soil environment condition of China is not optimistic, the soil pollution of parts of regions is very serious, the soil remediation work is not slow, and no clear official data exists for the specific condition of the soil pollution in China at present. The problem of soil pollution is also gradually taken into consideration, but the existing agricultural land soil remediation is that the remediation liquid is directly sprayed into the agricultural land, the soil absorption is slow, the remediation liquid is easy to evaporate, and the soil is mostly in an integral shape and is not easy to absorb, so that the soil remediation effect is not obvious.

Disclosure of Invention

The invention aims to solve the problems of slow soil remediation and low efficiency in the prior art, and provides a combined soil remediation and treatment device.

In order to achieve the purpose, the invention provides a combined type soil remediation and treatment device which comprises a fixed seat, a soil remediation bin, a liquid adding box, a charging box, a power supply box, a first coulter group, a second coulter group, a first motor, a second motor, a vibrating motor, a traction head and a movable wheel, wherein the fixed seat is fixedly arranged on the soil remediation bin; wherein the soil restoration bin, the liquid feeding box, the power supply box, the first motor, the second motor and the vibrating motor are arranged above the fixed seat; the first coulter group, the second coulter group and the movable wheel are arranged below the fixed seat, and the traction head is arranged at the front end part of the fixed seat; the soil remediation device is characterized in that the bottom of the soil remediation bin is fixedly connected with the upper surface of the fixing seat, and the top of the soil remediation bin is provided with a liquid feeding box and a feeding box respectively; the first motor and the second motor are arranged on the side part of the soil remediation bin, the vibration motor is arranged at the rear end of the soil remediation bin, and the power supply box is arranged at the front end of the soil remediation bin; the movable wheel is connected with the fixed seat through a hydraulic telescopic rod.

Preferably, the soil remediation bin is internally provided with an accommodating cavity, and a first conveyor belt and a second conveyor belt are fixed in the accommodating cavity; the first conveying belt is obliquely arranged, the inclination angle of the first conveying belt is 45-60 degrees, and a plurality of buckets are arranged on the first conveying belt.

Preferably, the bottom of the soil remediation bin is respectively provided with a soil collection port and a soil discharge port, wherein the soil collection port is arranged at the front end of the soil remediation bin, and the soil discharge port is arranged at the tail end of the soil remediation bin; the soil collection port extends downwards, and the opening end of the soil collection port is a shovel head with a plane at the bottom; the soil discharge gate is equipped with two striker plates, and is "y" shape setting.

Preferably, first drive wheel and first follow driving wheel are equipped with respectively at first conveyer belt both ends, and wherein first drive wheel sets up in the holding cavity in storehouse is restoreed to soil, and first follow driving wheel sets up in soil collection mouth.

Preferably, the first driving wheel is provided with a first driving rotating shaft, wherein two ends of the first driving rotating shaft are respectively movably connected with two inner side walls of the soil remediation bin; one end of the first driving rotating shaft extends out of the soil remediation bin and is fixedly connected with a rotating shaft of the first motor; and a first driven rotating shaft is arranged on the first driven wheel, and two ends of the first driven rotating shaft are respectively movably connected with two inner side walls of the soil collecting port.

Preferably, the second conveyor belt is horizontally arranged in the accommodating cavity of the soil remediation bin, and a second driving wheel and a second driven wheel are respectively arranged at two ends of the second conveyor belt; the second driving wheel and the second driven wheel are respectively movably connected with the two inner side walls of the soil remediation bin through a second driving rotating shaft and a second driven rotating shaft; one end of the second driving rotating shaft extends out of the soil remediation bin and is fixedly connected with a rotating shaft of the second motor.

Preferably, the second conveyor belt is located at the side of the first conveyor belt, wherein the first driving wheel above the first conveyor belt is higher than the second driving wheel on the second conveyor belt.

Preferably, a nozzle matrix consisting of a plurality of nozzle nozzles and a group of ultraviolet germicidal lamps are arranged at the top of the accommodating cavity of the soil remediation bin, wherein the ultraviolet germicidal lamps are arranged at the tail end of the nozzle matrix; a micro water pump is arranged on one side of the liquid adding box, a water inlet of the micro water pump is communicated with the liquid adding box, and a water outlet of the micro water pump is communicated with a spray nozzle in the spray nozzle matrix through a spray pipe; the sprayer matrix and the ultraviolet germicidal lamp are arranged above the second conveyor belt, and the second driven wheel of the second conveyor belt is arranged above the soil discharge hole.

Preferably, a discharge hole is formed in the bottom of the feeding box and communicated with the soil remediation bin; a vibrating screen is arranged below the discharge hole, wherein the vibrating screen is arranged in an inclined manner, and the lower end of the vibrating screen is communicated with the soil discharge hole; the back of the vibrating screen is provided with a connecting rod, and the connecting rod extends out of the soil restoration bin and is connected with a vibrating motor.

Preferably, the first coulter group is arranged at the front end of the soil collection port, the second coulter group is arranged at the tail end of the soil discharge port, and the coulter on the first coulter group is provided with a blade.

Preferably, the power supply box is electrically connected with the first motor, the second motor, the vibration motor, the micro water pump and the ultraviolet germicidal lamp through wires.

Preferably, the top of the liquid feeding box is provided with a liquid feeding port, the side part of the liquid feeding box is provided with a water level line scale, and the liquid feeding box is also provided with a control switch for controlling the micro water pump.

Preferably, the top of the feeding box is provided with a feeding port, the side part of the feeding box is provided with a window, and a rotary switch for controlling the discharge port is arranged below the window.

Preferably, the pulling head is adapted to be connected to a pulling device.

The soil remediation device has the advantages of convenience in use and high soil remediation efficiency, the soil remediation bin is arranged, the nozzle matrix and the ultraviolet germicidal lamps are arranged in the soil remediation bin, remediation liquid can be uniformly sprayed into soil to be remedied, the soil can be adequately remedied, and harmful bacteria in the soil can be killed by the ultraviolet germicidal lamps, so that the soil and crops are prevented from being damaged; meanwhile, the coulter sets are respectively installed at the front end and the rear end of the soil remediation bin, after the soil is ploughed by the first coulter set and sprayed with the liquid remediation agent and the solid remediation agent, the soil is rolled by the second coulter set, so that the liquid remediation agent and the solid remediation agent are fully mixed, the melting speed of the solid remediation agent can be increased, and the soil remediation efficiency is improved. The invention can be connected with a rotary cultivator or other traction equipment through the traction head, can continuously complete the processes of rotary tillage and chemical remediation of farmland soil at one time, is particularly suitable for accurately remedying large-area farmland soil, reduces labor force and improves labor efficiency.

Drawings

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

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

fig. 2 is a schematic view of the internal structure of the present invention.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				10	Fixed seat	90	Second motor
20	Soil restoration storehouse	100	Vibration motor
				201	Accommodating cavity	110	Traction head
202	Soil collecting port	120	Movable wheel
				2021	Shovel head	130	Hydraulic telescopic rod
203	Soil discharge hole	140	First conveyor belt
				2031	Striker plate	1401	First driving wheel
30	Liquid feeding box	1402	First driven wheel
				301	Liquid filling opening	150	Second conveyor belt
302	Water line scale	1501	Second driving wheel
				303	Miniature water pump	1502	Second driven wheel
304	Control switch	160	Bucket
				40	Charging box	170	A first driving shaft
401	Feed inlet	180	First driven rotating shaft
				402	Window	190	Second active shaft
403	Discharge port	200	Second driven rotating shaft
				404	Rotary switch	210	Spray nozzle matrix
50	Power supply box	2101	Nozzle of spray head
				60	First coulter group	220	Ultraviolet sterilizing lamp
601	Knife edge	230	Vibrating screen
				70	Second coulter group	240	Connecting rod
80	A first motor

Detailed Description

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

In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The invention provides a combined soil remediation device.

Referring to fig. 1 and fig. 2, a combined soil remediation device includes a fixing base 10, a soil remediation bin 20, a liquid feeding tank 30, a feeding tank 40, a power supply tank 50, a first coulter set 60, a second coulter set 70, a first motor 80, a second motor 90, a vibrating motor 100, a traction head 110, and a movable wheel 120; wherein the soil remediation bin 20, the liquid adding box 30, the material adding box 40, the power supply box 50, the first motor 80, the second motor 90 and the vibrating motor 100 are arranged above the fixed seat 10; the first coulter group 60, the second coulter group 70 and the movable wheel 120 are arranged below the fixed seat 10, and the traction head 110 is arranged at the front end part of the fixed seat 10; the bottom of the soil remediation bin 20 is fixedly connected with the upper surface of the fixing seat 10, and the top of the soil remediation bin 20 is provided with a liquid feeding box 30 and a feeding box 40 respectively; the first motor 80 and the second motor 90 are arranged on the side part of the soil remediation bin 20, the vibration motor 100 is arranged at the rear end of the soil remediation bin 20, and the power supply box 50 is arranged at the front end of the soil remediation bin 20; the movable wheel 120 is connected with the fixed seat 10 through a hydraulic telescopic rod 130; the pulling head 110 is used to connect with a pulling device.

The top of the liquid adding tank 30 is provided with a liquid adding port 301, and the side part is provided with a water level line scale 302; the top of the feed box 40 is provided with a feed port 401, the side of the feed box 40 is provided with a window 402, wherein a rotary switch 404 for controlling the discharge port 403 is arranged below the window 402.

The soil remediation bin 20 is internally provided with a containing cavity 201, and a first conveyor belt 140 and a second conveyor belt 150 are fixed in the containing cavity 201; the first conveyor belt 140 is obliquely arranged, the inclination angle of the first conveyor belt 140 is 45-60 degrees, and a plurality of buckets 160 are arranged on the first conveyor belt 140.

The bottom of the soil remediation bin 20 is respectively provided with a soil collection port 202 and a soil discharge port 203, wherein the soil collection port 202 is arranged at the front end of the soil remediation bin 20, and the soil discharge port 203 is arranged at the tail end of the soil remediation bin 20; the soil collection port 202 extends downwards and penetrates through the fixed seat 10, and the open end of the soil collection port 202 is a shovel head 2021 with a plane bottom; soil discharge gate 203 is equipped with two striker plates 2031, wherein striker plate 2031 inclines about, and is "y" font.

A first driving wheel 1401 and a first driven wheel 1402 are respectively arranged at two ends of the first conveyor belt 140, wherein the first driving wheel 1401 is arranged in the accommodating cavity 201 of the soil remediation bin 20, and the first driven wheel 1402 is arranged in the soil collection port 202.

The first driving wheel 1401 is provided with a first driving rotating shaft 170, wherein two ends of the first driving rotating shaft 170 are respectively movably connected with two inner side walls of the soil remediation bin 20; one end of the first driving rotating shaft 170 extends out of the soil remediation bin 20 and is fixedly connected with a rotating shaft of the first motor 80; a first driven rotating shaft 180 is arranged on the first driven wheel 1402, and two ends of the first driven rotating shaft 180 are respectively movably connected with two inner side walls of the soil collecting port 202.

The second conveyor belt 150 is horizontally arranged in the accommodating cavity 201 of the soil remediation bin 20, and a second driving wheel 1501 and a second driven wheel 1502 are respectively arranged at two ends of the second conveyor belt 150; the second driving wheel 1501 and the second driven wheel 1502 are movably connected with two inner side walls of the soil remediation bin 20 through a second driving rotating shaft 190 and a second driven rotating shaft 200 respectively; one end of the second driving rotating shaft 190 extends out of the soil remediation bin 20 and is fixedly connected with a rotating shaft of the second motor 90.

The second conveyor belt 150 is located at the side of the first conveyor belt 140, wherein the first drive wheel 170 above the first conveyor belt 140 is higher than the second drive wheel 190 on the second conveyor belt 150.

A nozzle matrix 210 consisting of a plurality of nozzle nozzles 2101 and a group of ultraviolet germicidal lamps 220 are arranged at the top of the accommodating cavity 201 of the soil remediation bin 20, wherein the ultraviolet germicidal lamps 220 are arranged at the tail end of the nozzle matrix 210; the nozzle array 210 and the uv germicidal lamp 220 are arranged above the second conveyor belt 150, wherein the second driven wheel 1502 of the second conveyor belt 150 is arranged above the soil outlet 203.

A micro water pump 303 is arranged on one side of the liquid adding tank 30, a water inlet of the micro water pump 303 is communicated with the liquid adding tank 30, and a water outlet of the micro water pump 303 is communicated with a nozzle 2101 in the nozzle matrix 210 through a spray pipe (not shown); the liquid feeding tank 30 is also provided with a control switch 304 for controlling the micro water pump 303.

The bottom of the charging box 40 is provided with a discharge hole 403, and the discharge hole 403 is communicated with the soil remediation bin 20; a vibrating screen 230 is arranged below the discharge hole 403, wherein the vibrating screen 230 is arranged obliquely, and the lower end of the vibrating screen 230 is communicated with the soil discharge hole 203; the vibrating screen 230 is provided at the back thereof with a connecting rod 240, and the connecting rod 240 extends out of the soil remediation chamber 20 and is connected to the vibrating motor 100.

The first coulter set 60 is arranged at the front end of the soil collection port 202, and the second coulter set 70 is arranged at the tail end of the soil discharge port 203, wherein the coulters on the first coulter set 60 are provided with blades 601.

The power supply box 50 is electrically connected to the first motor 80, the second motor 90, the vibration motor 100, the micro-water pump 303 and the ultraviolet germicidal lamp 220 through wires.

The working principle is as follows: connecting a traction head 110 at the front end of a fixed seat 10 of the soil remediation device with a traction machine, adjusting the plowing depth of the first coulter group 60 according to the soil condition of a polluted farmland, simultaneously adding soil remediation liquid and soil remediation particles into a liquid adding box 30 and a material adding box 40 respectively, then using the traction machine to pull the soil remediation device to move forward, and in the advancing process of the soil remediation device, starting up the first motor 80 and the second motor 90 and driving the first conveyor belt 140 and the second conveyor belt 150 to move; after the first coulter group 60 ploughs the soil, the shovel head 2021 at the bottom of the soil collection port 202 shovels the soil, and the soil is conveyed into the soil remediation bin 20 from bottom to top through the bucket 160 on the first conveyor belt 140, because the first conveyor belt 140 is obliquely arranged, when the soil moves to the top end along with the first conveyor belt 140, the soil automatically falls down on the second conveyor belt 150, wherein the soil is conveyed from the front end to the rear end of the soil remediation bin 20 when the second conveyor belt 150 falls, after the soil falls onto the second conveyor belt 150, the micro water pump 303 on the liquid adding tank 30 is turned on through the control switch 304, so that the micro water pump 303 uniformly sprays the remediation liquid in the liquid adding tank 30 on the soil through the nozzle 2101 on the nozzle matrix 210, the remediation liquid fully reacts with the soil, and the ultraviolet germicidal lamp 220 is turned on at the same time, so as to kill harmful bacteria in the soil; when the soil moves to the soil discharge port 203 at the rear end of the soil remediation bin 20 along with the second transmission belt 150, the rotary switch 404 at the bottom of the feeding box 40 is opened to enable the remediation particles in the feeding box 40 to fall onto the vibrating screen 230 in the soil remediation bin 20, the vibrating motor 100 is started to drive the vibrating screen 230 to start shaking, so that the repairing particles uniformly fall into the soil discharging port 203, and because the soil discharging port 203 is provided with the "y" striker plate 2031, after the soil and the repairing particles fall into the soil discharging port 203 at the same time, under the action of the "y" striker plate 2031, the repairing particles are uniformly mixed with the soil, after the repaired soil falls into the ground through the soil discharge port 203, the second coulter group 70 rolls the mixed and sterilized soil, and the liquid repairing agent and the solid repairing agent are continuously and fully mixed, so that the melting speed of the solid repairing agent can be increased, and the soil repairing efficiency is improved.

The soil remediation device is reasonable in arrangement, convenient to use and high in soil remediation efficiency, the soil remediation bin 20 is arranged, the spray head matrix 210 and the ultraviolet germicidal lamps 220 are arranged in the soil remediation bin 20, remediation liquid can be uniformly sprayed into soil needing to be remedied, the soil can be adequately remedied, harmful bacteria in the soil can be killed by the ultraviolet germicidal lamps 220, and damage to the soil and crops is avoided; meanwhile, the coulter sets are respectively installed at the front end and the rear end of the soil remediation bin 20, soil is plowed by the first coulter set 60 at the front end and then is sprayed with the liquid remediation agent and the solid remediation agent, and then the soil is rolled by the second coulter set 70 at the rear end, so that the liquid remediation agent and the solid remediation agent are fully mixed, the melting speed of the solid remediation agent can be increased, and the soil remediation efficiency is improved. The invention can be connected with a rotary cultivator or other traction equipment through the traction head 110, can continuously complete the rotary tillage and chemical remediation processes of farmland soil at one time, is particularly suitable for accurately remedying the farmland soil with large area, reduces the labor force and improves the labor efficiency.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A combined soil remediation and treatment device comprises a fixed seat, a soil remediation bin, a liquid adding box, a feeding box, a power supply box, a first coulter group, a second coulter group, a first motor, a second motor, a vibrating motor, a traction head and a movable wheel; wherein the soil restoration bin, the liquid feeding box, the power supply box, the first motor, the second motor and the vibrating motor are arranged above the fixed seat; the first coulter group, the second coulter group and the movable wheel are arranged below the fixed seat, and the traction head is arranged at the front end part of the fixed seat; the soil remediation device is characterized in that the bottom of the soil remediation bin is fixedly connected with the upper surface of the fixing seat, and the top of the soil remediation bin is provided with a liquid feeding box and a feeding box respectively; the first motor and the second motor are arranged on the side part of the soil remediation bin, the vibration motor is arranged at the rear end of the soil remediation bin, and the power supply box is arranged at the front end of the soil remediation bin; the movable wheel is connected with the fixed seat through a hydraulic telescopic rod.

2. The combined soil remediation device of claim 1, wherein the soil remediation chamber is internally provided with a receiving cavity, and a first conveyor belt and a second conveyor belt are fixed in the receiving cavity, wherein the second conveyor belt is located on the side of the first conveyor belt, and the second conveyor belt is lower than the first conveyor belt; the first conveying belt is obliquely arranged, the inclination angle of the first conveying belt is 45-60 degrees, and a plurality of buckets are arranged on the first conveying belt.

3. The combined soil remediation device of claim 2, wherein the bottom of the soil remediation bin is provided with a soil collection port and a soil discharge port, respectively, wherein the soil collection port is arranged at the front end of the soil remediation bin, and the soil discharge port is arranged at the tail end of the soil remediation bin; the soil collection port extends downwards, and the opening end of the soil collection port is a shovel head with a plane at the bottom; the soil discharge gate is equipped with two striker plates, and is "y" shape setting.

4. The combined soil remediation device of claim 2, wherein a first driving wheel and a first driven wheel are respectively disposed at two ends of the first conveyor belt, wherein the first driving wheel is disposed in the accommodating cavity of the soil remediation bin, and the first driven wheel is disposed in the soil collection opening.

5. The combined soil remediation device of claim 4, wherein the first driving wheel is provided with a first driving shaft, and two ends of the first driving shaft are movably connected to two inner side walls of the soil remediation chamber respectively; one end of the first driving rotating shaft extends out of the soil remediation bin and is fixedly connected with a rotating shaft of the first motor; and a first driven rotating shaft is arranged on the first driven wheel, and two ends of the first driven rotating shaft are respectively movably connected with two inner side walls of the soil collecting port.

6. The combined soil remediation device of claim 2, wherein the second conveyor belt is horizontally disposed within the receiving cavity of the soil remediation bin, and a second driving wheel and a second driven wheel are respectively disposed at two ends of the second conveyor belt; the second driving wheel and the second driven wheel are respectively movably connected with the two inner side walls of the soil remediation bin through a second driving rotating shaft and a second driven rotating shaft; one end of the second driving rotating shaft extends out of the soil remediation bin and is fixedly connected with a rotating shaft of the second motor.

7. The combined soil remediation device of claim 1, wherein a nozzle matrix comprising a plurality of nozzle nozzles and a set of uv germicidal lamps are disposed at the top of the receiving cavity of the soil remediation chamber, wherein the uv germicidal lamps are disposed at the ends of the nozzle matrix; a micro water pump is arranged on one side of the liquid adding box, a water inlet of the micro water pump is communicated with the liquid adding box, and a water outlet of the micro water pump is communicated with a spray nozzle in the spray nozzle matrix through a spray pipe; the sprayer matrix and the ultraviolet germicidal lamp are arranged above the second conveyor belt, and the second driven wheel of the second conveyor belt is arranged above the soil discharge hole.

8. The combined soil remediation device of claim 1, wherein the bottom of the charging box is provided with a discharge port, and the discharge port is communicated with the soil remediation bin; a vibrating screen is arranged below the discharge hole, wherein the vibrating screen is arranged in an inclined manner, and the lower end of the vibrating screen is communicated with the soil discharge hole; the back of the vibrating screen is provided with a connecting rod, and the connecting rod extends out of the soil restoration bin and is connected with a vibrating motor.

9. The combined soil remediation device of claim 1, wherein the first coulter set is disposed at a front end of the soil collection port, and the second coulter set is disposed at a rear end of the soil discharge port, wherein the coulters of the first coulter set are provided with blades.

10. The combined soil remediation device of claim 1, wherein the power box is electrically connected to the first motor, the second motor, the vibration motor, the micro-pump and the UV germicidal lamp via wires.

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