CN113243147A

CN113243147A - Landscaping soil treatment system

Info

Publication number: CN113243147A
Application number: CN202110568829.1A
Authority: CN
Inventors: 肖象; 潘慧静; 林陆宋; 孙艺窈; 周明星; 邓香微
Original assignee: Zhejiang Xinhua Gardening Engineering Co ltd
Current assignee: Zhejiang Xinhua Gardening Engineering Co ltd
Priority date: 2021-06-18
Filing date: 2021-06-18
Publication date: 2021-08-13

Abstract

The application relates to a landscaping soil treatment system, which comprises a crushing part, a mixing part and a chemical agent box which is positioned on one side of the mixing part and is filled with chemical agents, wherein the crushing part is positioned above a stirring part, the crushing part comprises a box body, a first stirring part and a second stirring part, the first stirring part and the second stirring part are positioned in the box body, a fixed motor is installed on the box body, the first stirring part comprises an upper stirring cavity and a longitudinal stirring roller driven by the fixed motor, and the upper part of the box body is provided with a feeding hole communicated with the upper stirring cavity; install driving motor on the lateral wall of box, second stirring portion is including the lower stirring chamber that is located the last stirring chamber below and by driving motor driven horizontal stirring roller. This application carries out first stirring by vertical stirring roller respectively, carries out the secondary stirring by horizontal stirring roller again, and by the stirring of twice and vertical and two horizontal directions, it is higher to make the soil crushing degree, avoids hardening, better mixes with the chemical agent in the chemical tank, reaches the effect of administering soil better.

Description

Landscaping soil treatment system

Technical Field

The application relates to the technical field of soil improvement, in particular to a landscaping soil improvement system.

Background

The garden is characterized in that an artistic natural environment and a rest area are created in a certain region by applying engineering technology and artistic means through the ways of reforming terrain (or further building mountains, stacking stones and managing water), planting trees, flowers and plants, building buildings, arranging garden roads and the like, and the garden is called as a garden; in landscaping, remediation of contaminated soil is also a very important task.

At present, the purpose of soil treatment is achieved by mixing chemical agents with soil generally, but the current soil treatment equipment generally directly mixes the chemical agents with the soil, the soil is often still in a hardened state and then is mixed with the chemical agents, the chemical agents are wasted, and the good effect of soil treatment cannot be achieved.

Disclosure of Invention

In order to improve the soil and mix the condition that easily reduces soil treatment effect with chemical under the state of hardening, this application provides an afforestation soil treatment system.

The application provides an afforestation soil treatment system adopts following technical scheme:

the landscaping soil treatment system comprises a crushing part, a mixing part and a chemical agent box which is positioned on one side of the mixing part and is filled with chemical agents, wherein the crushing part is positioned above a stirring part, the crushing part comprises a box body, a first stirring part and a second stirring part, the first stirring part and the second stirring part are positioned in the box body, a fixed motor is installed on the box body, the first stirring part comprises an upper stirring cavity and a longitudinal stirring roller driven by the fixed motor, and the upper part of the box body is provided with a feeding hole communicated with the upper stirring cavity; install driving motor on the lateral wall of box, second stirring portion is including the lower stirring chamber that is located stirring chamber below and the horizontal stirring roller by driving motor drive.

By adopting the technical scheme, the soil enters the upper stirring cavity from the feeding hole, and is stirred for the first time by the longitudinal stirring roller; and then the soil enters the lower stirring cavity, secondary stirring is carried out through the transverse stirring roller, the soil is crushed to a higher degree by twice stirring and stirring in the longitudinal direction and the transverse direction, hardening is avoided, the crushed soil can be better mixed with chemical agents in the agent box, and the effect of better treating the soil is achieved.

Preferably, the upper stirring cavity and the lower stirring cavity are communicated with each other and separated by a transverse plate; the side wall of the box body is provided with a slot for inserting the transverse plate; the driving motor is a servo motor capable of rotating forward and backward and drives the transverse plate to slide through the transmission mechanism.

By adopting the technical scheme, the transverse plate can separate the upper stirring cavity from the lower stirring cavity, so that the retention time of soil in the upper stirring cavity can be prolonged, and hardened soil can be easily and fully crushed; the pushing and moving processes of the transverse plates are controlled by the positive and negative rotation of the driving motor, so that the soil can enter the lower stirring cavity from the upper stirring cavity; meanwhile, the forward and reverse rotation of the driving motor can further improve the crushing effect of the soil in the lower stirring cavity; after the transverse plate is pushed in, feeding and stirring at the upper part and crushing and mixing at the lower part can be carried out simultaneously, and the soil treatment efficiency is improved.

Preferably, the transmission structure comprises a vertical bevel gear, a horizontal bevel gear, a rotating gear and a tooth-shaped block which are meshed with each other, a kidney-shaped groove is formed in the bottom of the transverse plate, the tooth-shaped block is fixed on one side wall of the kidney-shaped groove at intervals, and the rotating gear is located in the kidney-shaped groove and meshed with the tooth-shaped block; the transmission mechanism is characterized in that a connecting rod is fixed at the axis of the rotating gear, a supporting plate for supporting the connecting rod is fixed on the side wall of the box body, the horizontal bevel gear is fixed on the connecting rod, and the vertical bevel gear is sleeved on an output shaft of the driving motor and meshed with the horizontal bevel gear.

By adopting the technical scheme, the vertical bevel gear is meshed with the horizontal bevel gear, the connecting rod realizes the linkage of the horizontal bevel gear and the rotating gear, so that the rotating of the horizontal bevel gear drives the rotating gear to rotate, and the toothed block meshed with the rotating gear can drive the transverse plate to slide.

Preferably, a square positioning magnetic ferrule is fixed on an output shaft of the driving motor, and when the vertical bevel gear is meshed with the horizontal bevel gear, the vertical bevel gear can be magnetically attracted and positioned at the positioning magnetic ferrule; and when the vertical bevel gear slides from the positioning magnetic ring and is attracted and positioned at the fixed magnetic ring, the vertical bevel gear is separated from the horizontal bevel gear.

By adopting the technical scheme, the vertical bevel gear is fixed at the meshing part of the horizontal bevel gear by the positioning magnetic ferrule, so that the transverse plate is driven to slide by the driving motor; and the vertical bevel gear is fixed at the position separated from the horizontal bevel gear by the fixed magnetic ferrule, so that after the transverse plate is completely pushed into or completely moved out of the position between the feed opening and the receiving opening, the output shaft of the driving motor can continue to rotate, and the transverse plate is positioned at the required position.

Preferably, the bottom of the upper stirring cavity is hopper-shaped, and a feed opening is formed at the bottom of the upper stirring cavity; the upper portion in stirring the chamber down is with stirring chamber complex back taper down, and the upper portion in stirring the chamber down forms the material mouthful that connects that communicates with the feed opening.

By adopting the technical scheme, the hopper-shaped upper stirring cavity is convenient for gathering the soil entering from the feeding port for primary stirring; the inverted cone of the lower stirring cavity is easy to guide soil to enter the lower stirring cavity for secondary stirring.

Preferably, the transverse plate is positioned between the feed opening and the receiving opening; the opening of the material receiving opening is larger than that of the feed opening.

Through adopting above-mentioned technical scheme, connect the material mouth opening bigger, can receive the soil in stirring chamber more completely, reduce the condition of spilling.

Preferably, the mixing portion includes mixing chamber and linkage stirring roller, the mixing chamber is located the below in lower stirring chamber, the linkage stirring roller transversely sets up in the mixing chamber, and outside the lateral wall of box was worn to locate by the tip of linkage stirring roller, and connected through the drive belt between linkage stirring roller and driving motor's the drive shaft.

Through adopting above-mentioned technical scheme, the soil after the stirring is accomplished in the lower stirring intracavity gets into the hybrid chamber and mixes with chemical agent, by with driving motor drive and with the linkage stirring roller intensive mixing of stirring roller linkage down, realizes the homogeneous mixing.

Preferably, the upper part of the side wall of the mixing cavity is relatively provided with a guide plate, the chemical box is connected with an extension water pipe, and a water suction pump is connected between the chemical box and the extension water pipe; the extension water pipe extends to the below of deflector, and the interval is installed a plurality of shower nozzles on the extension water pipe.

By adopting the technical scheme, on one hand, the guide plate guides the soil stirred in the lower stirring cavity to enter the mixing cavity, and on the other hand, the guide plate plays a role in shielding and protecting the extension water pipe, so that the problem that the extension water pipe is easily broken due to the fact that the extension water pipe is directly impacted when the soil falls is solved; but the suction pump makes the chemical agent in the medicament case flow direction extension water pipe, sets up the shower nozzle and carries out spraying of chemical agent to the soil in mixing the intracavity from the top, helps soil and chemical agent intensive mixing.

Preferably, two ends of the guide plate are rotatably connected in the box body through rotating shafts, the rotating shaft far away from one side of the driving motor penetrates through the box body, a limiting plate is fixed on the side wall of the rotating shaft penetrating through the box body, a butting plate is slidably connected to the side wall of the box body, and when the guide plate is in a horizontal state, the limiting plate butts against the butting plate; the side wall of the box body is provided with a fan-shaped groove, and the limiting plate is positioned in the fan-shaped groove and can rotate; when the abutting plate slides out of the fan-shaped groove and is staggered with the limiting plate, the rotating shaft can rotate.

By adopting the technical scheme, the rotation of the limiting plate in the fan-shaped groove limits the rotation range of the guide plate; when the limiting plate is abutted against the abutting plate and the guide plate is horizontally arranged, the soil falling from the upper stirring cavity can be received, so that the soil can be further stirred in the lower stirring cavity; when the guide plate rotates to abut against the bottom of the fan-shaped groove, soil can be guided to enter the mixing cavity.

Preferably, the shower nozzle sets up towards the middle part of mixing chamber, it has the inlet tube that is located the mixing chamber lower part to extend water pipe below connection intercommunication.

Through adopting above-mentioned technical scheme, can add chemical agent from upper and lower both ends respectively by the setting of inlet tube and shower nozzle, make soil and more even the mixing of chemical agent be in the same place, improve the treatment effect of soil.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the soil is longitudinally and primarily stirred in the upper stirring cavity by a longitudinal stirring roller; then enters the lower stirring cavity, and is subjected to secondary transverse stirring by the transverse stirring roller, and the secondary stirring is performed and the secondary stirring is respectively performed from the longitudinal direction and the transverse direction, so that the soil is crushed to a higher degree, hardening is avoided, the crushed soil can be better mixed with the chemical agent in the agent box, and the effect of better treating the soil is achieved;

2. the transverse plate separates the upper stirring cavity from the lower stirring cavity, and the transverse plate, the transverse stirring roller and the linkage stirring roller are synchronously driven to move by one driving motor, so that energy is saved; the transverse plate can be pushed in and moved out by the driving motor capable of rotating forwards and backwards, so that on one hand, the operation is more convenient, on the other hand, when the driving motor rotates forwards and backwards, the soil crushing effect can be improved by the forward and reverse rotation of the transverse stirring roller, and the soil and the chemical agent are mixed more uniformly by the forward and reverse rotation of the linkage stirring roller, so that a better soil treatment effect is realized;

3. the vertical bevel gear is fixed at the meshing position of the horizontal bevel gear by the positioning magnetic ferrule, so that the transverse plate is driven to slide by the driving motor; the vertical bevel gear is fixed at the position separated from the horizontal bevel gear by the fixed magnetic ferrule, so that after the transverse plate is completely pushed into or completely moved out of the position between the feed opening and the receiving opening, the output shaft of the driving motor can continue to rotate and the transverse plate is positioned at the required position, and the condition that the transverse plate accidentally slides due to misoperation can be avoided;

4. the spray head of the extension water pipe positioned on the upper part of the mixing cavity and the water inlet pipe positioned on the lower part of the mixing cavity spray chemical agents simultaneously, so that the chemical agents are more fully mixed with soil from the upper end and the lower end, and the soil treatment effect is improved.

Drawings

FIG. 1 is a schematic cross-sectional view of an embodiment of the present application, which is intended to show the internal structure of a case;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is a schematic structural diagram of the positioning magnetic sleeve and the fixed magnetic sleeve sleeved on the output shaft of the driving motor according to the embodiment of the present application;

FIG. 4 is a schematic illustration showing a portion of the guide plate of the embodiment of the present application rotatably coupled within the mixing chamber.

Description of reference numerals: 1. a crushing section; 2. a mixing section; 21. a mixing chamber; 22. linkage stirring rollers; 221. a transmission belt; 3. a kit; 31. an extension water pipe; 311. a spray head; 32. a water inlet pipe; 4. a box body; 41. a feed inlet; 42. fixing a motor; 43. a drive motor; 431. an output shaft; 44. a support plate; 45. a butt joint plate; 46. a sector groove; 5. a first stirring section; 51. an upper stirring cavity; 511. a feeding port; 52. a longitudinal stirring roller; 6. a second stirring section; 61. a lower stirring chamber; 611. a material receiving port; 62. a transverse stirring roller; 7. a transverse plate; 71. a kidney-shaped groove; 8. a transmission mechanism; 81. a vertical bevel gear; 82. a horizontal bevel gear; 83. a rotating gear; 831. a connecting rod; 8311. an annular ring; 84. a toothed block; 9. positioning the magnetic ferrule; 10. fixing the magnetic ferrule; 11. a water pump; 12. a guide plate; 121. a rotating shaft; 1211. and a limiting plate.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses afforestation soil treatment system, refer to FIG. 1, including crushing portion 1, the mixing portion 2 of crushing soil and the chemical tank 3 that contains chemical that is located one side of mixing portion 2, the chemical in the chemical tank 3 gets into mixing portion 2, and soil after the crushing mixes in mixing portion 2 with chemical.

Referring to fig. 1, the crushing section 1 includes a case 4, a first stirring section 5 located inside the case 4; the first stirring part 5 comprises an upper stirring cavity 51 and a longitudinal stirring roller 52, a feed inlet 41 communicated with the upper stirring cavity 51 is formed in one side of the upper part of the box body 4, soil enters the upper stirring cavity 51 from the feed inlet 41, and the bottom of the upper stirring cavity 51 is hopper-shaped, so that the soil is easy to collect; a fixed motor 42 is installed in the middle of the upper portion of the box body 4 and on one side of the feeding hole 41, and the longitudinal stirring roller 52 is driven by the fixed motor 42 to rotate and crush hardened soil in the upper stirring cavity 51 for the first time.

Referring to fig. 1, the crushing section 1 further includes a second stirring section 6 inside the case 4 and below the upper stirring chamber 51; the second stirring section 6 includes a lower stirring chamber 61; the bottom of the upper stirring cavity 51 forms a feed opening 511, the upper part of the lower stirring cavity 61 is in an inverted cone shape matched with the lower stirring cavity 61, a material receiving opening 611 communicated with the feed opening 511 is formed, and the opening of the material receiving opening 611 is larger than that of the feed opening 511, so that soil is easily received.

Referring to fig. 1, the material outlet 511 and the material receiving opening 611 are separated by a horizontal plate 7, a slot for inserting the horizontal plate 7 is formed on the side wall of the box body 4, and the horizontal plate 7 prolongs the staying time of the soil in the upper stirring chamber 51.

Referring to fig. 1, the second stirring part 6 further includes a horizontal stirring roller 62, the driving motor 43 is installed on the side wall of the box 4, and the horizontal stirring roller 62 is driven by the driving motor 43 to rotate, so that the vertical stirring roller 52 in the upper stirring cavity 51 performs vertical stirring and then enters the lower stirring cavity 61 to perform secondary horizontal stirring, thereby achieving a better soil crushing effect.

Referring to fig. 1, the horizontal plate 7 can slide horizontally, so that the soil in the feed opening 511 can fall into the receiving opening 611 and then enter the lower stirring cavity 61; the driving motor 43 is a servo motor capable of rotating forward and backward and drives the transverse plate 7 to slide through the transmission mechanism 8.

Referring to fig. 1 and 2, the transmission structure comprises a rotating gear 83 and a tooth-shaped block 84, a kidney-shaped groove 71 is formed at the bottom of the transverse plate 7, the tooth-shaped block 84 is fixed on one side wall of the kidney-shaped groove 71 at intervals, and the rotating gear 83 is positioned in the kidney-shaped groove 71 and meshed with the tooth-shaped block 84; a connecting rod 831 is fixed at the axis of the rotating gear 83, a supporting plate 44 for supporting the connecting rod 831 is fixed on the side wall of the box body 4, and an annular ring 8311 abutting against the supporting plate 44 is fixed on the side wall of the connecting rod 831; when the rotating gear 83 rotates, the transverse plate 7 can be driven to move.

Referring to fig. 1 and 2, the transmission structure further includes a vertical bevel gear 81 and a horizontal bevel gear 82 engaged with each other, and the horizontal bevel gear 82 is fixed to the bottom of the connecting rod 831; a square positioning magnetic ferrule 9 is fixed on an output shaft 431 of the driving motor 43, the vertical bevel gear 81 is made of metal and can be sleeved and magnetically attracted to and positioned on the positioning magnetic ferrule 9, and the vertical bevel gear 81 is meshed with the horizontal bevel gear 82; when the vertical bevel gear 81 rotates, the horizontal bevel gear 82 drives the rotating gear 83 to rotate, and the horizontal plate 7 can slide.

Referring to fig. 1 and 3, a square fixed magnetic ring 10 is fixed on the output shaft 431 of the driving motor 43 and on one side of the positioning magnetic ring 9, when the vertical bevel gear 81 slides from the positioning magnetic ring 9 and is attracted and positioned at the fixed magnetic ring 10, the vertical bevel gear 81 is separated from the horizontal bevel gear 82, at this time, the horizontal plate 7 is completely pushed into or completely moved out of the position between the discharging opening 511 and the receiving opening 611, and the output shaft 431 of the driving motor 43 can continue to rotate without affecting the horizontal plate 7.

Referring to fig. 1, the mixing part 2 includes a mixing chamber 21 and a linkage stirring roller 22, the mixing chamber 21 is located below the lower stirring chamber 61, the linkage stirring roller 22 is transversely disposed in the mixing chamber 21, the end of the linkage stirring roller 22 is penetrated through the side wall of the box 4, and the linkage stirring roller 22 and the driving shaft of the driving motor 43 are connected through a driving belt 221, so that the driving motor 43 can simultaneously drive the rotation of the transverse stirring roller 62 and the linkage stirring roller 22.

Referring to fig. 1, an extension water pipe 31 is connected to the chemical tank 3, the extension water pipe 31 is oppositely disposed at the upper portion of the mixing chamber 21, a water pump 11 is connected between the chemical tank 3 and the extension water pipe 31, and chemical can enter the extension water pipe 31 through the water pump 11; a plurality of spray heads 311 are arranged on the extension water pipe 31 at intervals, and the spray heads 311 are arranged towards the middle part of the mixing cavity 21; the lower part of the extension water pipe 31, namely the lower part of the mixing cavity 21 and the middle part of the extension water pipe 31 which is opposite to the lower part, are communicated with a water inlet pipe 32, so that the chemical agents are respectively added from the upper end and the lower end, the soil and the chemical agents are mixed together more uniformly, and the treatment effect of the soil is improved.

Referring to fig. 1 and 4, the upper portion of the sidewall of the mixing chamber 21 is relatively installed with a guide plate 12, two ends of the guide plate 12 extend and are fixed with a rotating shaft 121 rotatably connected to the box body 4, the rotating shaft 121 far away from one side of the driving motor 43 is inserted outside the box body 4, the rotating shaft 121 is inserted on the sidewall outside the box body 4 and is fixed with a limiting plate 1211, the sidewall of the box body 4 is horizontally and slidably connected with a butting plate 45, the limiting plate 1211 can be butted against the butting plate 45, at this time, the guide plate 12 is in a horizontal state and can bear soil to enable the soil to be fully stirred in the lower stirring chamber 61; it should be pointed out that, the discharge gate that supplies the soil ejection of compact after administering is seted up to the department that corresponds mixing chamber 21 on the lateral wall of box 4, is convenient for carry out soil from mixing chamber 21 in the later stage.

Referring to fig. 4, a fan-shaped groove 46 is formed in a side wall of the case 4, and the stopper 1211 is located in the fan-shaped groove 46 and can rotate along the fan-shaped groove 46; the abutment plate 45 is seated in the sector groove 46 while supporting the stopper plate 1211, and when the abutment plate 45 slides out of the sector groove 46 and is misaligned with the stopper plate 1211, the rotation shaft 121 is rotated, and the guide plate 12 is tilted to guide soil into the mixing chamber 21.

Referring to fig. 1 and 4, the extension water pipe 31 extends to the lower side of the guide plate 12, and the extension water pipe 31 is shielded and protected by the guide plate 12, so that the problem that the extension water pipe 31 is easily broken when the extension water pipe 31 is directly impacted when soil falls is solved.

The working process of the embodiment of the application is as follows:

soil enters the upper stirring cavity 51 from the feeding hole 41, the fixed motor 42 works, and hardened soil is subjected to primary crushing and stirring by the longitudinal stirring roller 52.

Then the driving motor 43 works, the vertical bevel gear 81 rotates and drives the engaged horizontal bevel gear 82 to horizontally rotate, so that the rotating gear 83 drives the transverse plate 7 to move and open through the engaged tooth-shaped block 84, the feed opening 511 is communicated with the material receiving opening 611, the soil enters the lower stirring cavity 61, and the longitudinal stirring roller 52 is used for carrying out secondary stirring on the soil.

When all the soil in the upper stirring cavity 51 enters the lower stirring cavity 61, controlling the driving motor 43 to rotate reversely, so that the transverse plate 7 moves reversely and is pushed into the space between the feed opening 511 and the receiving opening 611, and feeding the soil into the upper stirring cavity 51 again; meanwhile, the vertical bevel gear 81 is pushed by a tool from the positioning magnetic ring 9 to the fixed magnetic ring 10 to be fixed, and the transverse plate 7 is prevented from moving out.

When the driving motor 43 rotates, the transverse stirring roller 62 and the linkage stirring roller 22 in the mixing cavity 21 realize synchronous rotation through the transmission belt 221; after the soil in the lower stirring chamber 61 is sufficiently stirred, the abutting plate 45 is pushed out of the fan-shaped groove 46 by a tool, and at this time, the guide plate 12 can rotate downward by itself under the gravity of the soil until the limiting plate 1211 abuts against the bottom of the fan-shaped groove 46, and the soil in the lower stirring chamber 61 enters the mixing chamber 21.

The water pump 11 is opened, the spray nozzle 311 and the water inlet pipe 32 on the extension water pipe 31 spray chemical agents at the upper end and the lower end simultaneously, and the soil and the chemical agents in the mixing cavity 21 can be fully mixed under the stirring of the linkage stirring roller 22, so that a better soil treatment effect is achieved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. Afforestation soil treatment system, including crushing portion (1), mixing portion (2) and be located chemical agent's that holds chemical agent's of one side of mixing portion (2) chemical agent case (3), its characterized in that: the crushing part (1) is positioned above the stirring part, the crushing part (1) comprises a box body (4), a first stirring part (5) and a second stirring part (6) which are positioned in the box body (4), a fixed motor (42) is installed on the box body (4), the first stirring part (5) comprises an upper stirring cavity (51) and a longitudinal stirring roller (52) driven by the fixed motor (42), and a feeding hole (41) communicated with the upper stirring cavity (51) is formed in the upper part of the box body (4); and a driving motor (43) is installed on the side wall of the box body (4), and the second stirring part (6) comprises a lower stirring cavity (61) positioned below the upper stirring cavity (51) and a transverse stirring roller (62) driven by the driving motor (43).

2. The landscaping soil remediation system of claim 1, wherein: the upper stirring cavity (51) and the lower stirring cavity (61) are communicated with each other and are separated by a transverse plate (7); a slot for inserting the transverse plate (7) is formed in the side wall of the box body (4); the driving motor (43) is a servo motor capable of rotating forward and backward and drives the transverse plate (7) to slide through the transmission mechanism (8).

3. The landscaping soil remediation system of claim 2, wherein: the transmission structure comprises a vertical bevel gear (81), a horizontal bevel gear (82), a rotating gear (83) and a tooth-shaped block (84), which are meshed with each other, a kidney-shaped groove (71) is formed in the bottom of the transverse plate (7), the tooth-shaped block (84) is fixed on one side wall of the kidney-shaped groove (71) at intervals, and the rotating gear (83) is positioned in the kidney-shaped groove (71) and meshed with the tooth-shaped block (84); a connecting rod (831) is fixed at the axis of the rotating gear (83), a supporting plate (44) for supporting the connecting rod (831) is fixed on the side wall of the box body (4), the horizontal bevel gear (82) is fixed on the connecting rod (831), and the vertical bevel gear (81) is sleeved on an output shaft (431) of the driving motor (43) and meshed with the horizontal bevel gear (82).

4. The landscaping soil remediation system of claim 3, wherein: a square positioning magnetic ferrule (9) is fixed on an output shaft (431) of the driving motor (43), and when a vertical bevel gear (81) is meshed with a horizontal bevel gear (82), the vertical bevel gear (81) can be positioned at the positioning magnetic ferrule (9) in a magnetic attraction manner; a square fixed magnetic ferrule (10) is fixed on one side of an output shaft (431) of the driving motor (43) and positioned on the positioning magnetic ferrule (9), and when the vertical bevel gear (81) slides from the positioning magnetic ferrule (9) and is attracted and positioned on the fixed magnetic ferrule (10), the vertical bevel gear (81) is separated from the horizontal bevel gear (82).

5. The landscaping soil remediation system of claim 2, wherein: the bottom of the upper stirring cavity (51) is hopper-shaped, and a feed opening (511) is formed at the bottom of the upper stirring cavity (51); the upper portion of lower stirring chamber (61) is the back taper with lower stirring chamber (61) complex, and the upper portion of lower stirring chamber (61) forms connects material mouthful (611) with feed opening (511) intercommunication.

6. The landscaping soil remediation system of claim 5, wherein: the transverse plate (7) is positioned between the feed opening (511) and the material receiving opening (611); the opening of the material receiving opening (611) is larger than the opening of the feed opening (511).

7. The landscaping soil remediation system of claim 1, wherein: mixing portion (2) are including mixing chamber (21) and linkage stirring roller (22), mixing chamber (21) are located the below of stirring chamber (61) down, linkage stirring roller (22) transversely set up in mixing chamber (21), and outside the lateral wall of box (4) was worn to locate by the tip of linkage stirring roller (22), and connected through drive belt (221) between the drive shaft of linkage stirring roller (22) and driving motor (43).

8. The landscaping soil remediation system of claim 7, wherein: the upper part of the side wall of the mixing cavity (21) is relatively provided with a guide plate (12), the chemical box (3) is connected with an extension water pipe (31), and a water suction pump (11) is connected between the chemical box (3) and the extension water pipe (31); the extension water pipe (31) extends to the lower part of the guide plate (12), and a plurality of spray heads (311) are arranged on the extension water pipe (31) at intervals.

9. The landscaping soil remediation system of claim 8, wherein: the two ends of the guide plate (12) are rotatably connected into the box body (4) through rotating shafts (121), the rotating shaft (121) far away from one side of the driving motor (43) penetrates through the box body (4), a limiting plate (1211) is fixed on the side wall of the rotating shaft (121) penetrating through the box body (4), the side wall of the box body (4) is connected with a butting plate (45) in a sliding mode, and when the guide plate (12) is in a horizontal state, the limiting plate (1211) butts against the butting plate (45); a fan-shaped groove (46) is formed in the side wall of the box body (4), and the limiting plate (1211) is positioned in the fan-shaped groove (46) and can rotate; when the abutting plate (45) slides out of the fan-shaped groove (46) and is staggered with the limiting plate (1211), the rotating shaft (121) can rotate.

10. The landscaping soil remediation system of claim 8, wherein: shower nozzle (311) set up towards the middle part of mixing chamber (21), it has inlet tube (32) that are located mixing chamber (21) lower part to extend water pipe (31) below connection intercommunication.