CN112871059A - Board knot soil preliminary repair handles subassembly - Google Patents

Abstract

The invention relates to the field of soil remediation and discloses a slab soil pre-remediation treatment assembly which comprises a treatment device main body, wherein a feeding hopper is fixedly arranged on one side of the upper end surface of the treatment device main body, a feeding cavity which is communicated with the feeding hopper in an up-and-down penetrating manner is arranged in the feeding hopper, a crushing cavity with an upward opening is arranged in the treatment device main body and is positioned on the lower side of the feeding hopper, and the upper side of the crushing cavity is communicated with the lower side of the feeding cavity. This kind of board knot soil preliminary repair handles subassembly carries out preliminary breakage through crushing wheel relative rotation and the soil that hardens that will drop to broken intracavity, conveniently carries out subsequent soil that hardens preliminary treatment, carries out the effect of preliminary treatment through soil that hardens afterwards, makes the soil that hardens pass through the processing of weight before entering into to restoreing the chamber, makes the soil that hardens mix with the aqueous solution in advance, makes the follow-up soil that hardens not lead to can not the intensive mixing with soil repair liquid because of too dry, has improved the total repair efficiency of soil that hardens.

Description

Board knot soil preliminary repair handles subassembly

Technical Field

The invention relates to the technical field of soil remediation devices, in particular to a plate-shaped soil pre-remediation treatment assembly.

Background

Lack organic matter on the soil top layer, the structure is bad, leads to internal structure to destroy and causes the soil material dispersion to receive the cohesion effect to lead to the soil face to harden after the drying, thereby cause the soil to harden, need make soil ability reuse through soil remediation this moment.

The general soil remediation device can only simply place hardened soil into the same treatment cavity, and carries out soil remediation simply through the mixing and stirring of the treatment liquid, the effect is not good, and the treatment liquid is not sufficiently stirred and mixed for the hardened soil, so that the hardened soil is not sufficiently remedied, or the restored soil cannot reach the planting level.

Disclosure of Invention

The plate-bonded soil pre-repairing treatment assembly provided by the invention has the advantages that the plate-bonded soil is subjected to pre-repairing treatment, the soil repairing work is convenient to carry out later, and the problem that treatment liquid and soil cannot be well treated and fused in the hardened soil treatment process due to insufficient stirring in the hardened soil repairing process is solved.

The invention provides the following technical scheme: the utility model provides a knot soil is prosthetic processing subassembly in advance, includes the processing apparatus main part, be equipped with in the processing apparatus main part and separate push mechanism, it can carry out the ration with the soil fragment that hardens of input to separate push mechanism and separate with the propelling movement, it is equipped with the process chamber to separate push mechanism inboard, the process chamber is equipped with stirring processing mechanism, stirring processing mechanism can carry out stirring processing in advance with the ration input to the soil fragment that hardens of process chamber, be equipped with in the stirring processing mechanism lateral wall and rotate coupling mechanism, it provides power for stirring processing mechanism and separation push mechanism to rotate coupling mechanism, process chamber lateral wall intercommunication is equipped with the ascending connecting tube of opening, the process chamber is kept away from connecting tube lateral wall intercommunication is equipped with the connection chamber that drops, it is connected with soil prosthetic devices to drop the connection chamber.

Carefully selecting, the stirring treatment mechanism comprises a switching plate which is positioned in the treatment cavity and can move up and down, a spline shaft is rotatably arranged on the upper wall in the treatment cavity, a spline sleeve capable of moving up and down is arranged in the treatment cavity, the spline sleeve is connected with the spline of the spline shaft, the spline sleeve is rotationally connected with the switching plate, a stirring fan is fixedly connected with the outer circular surface of the spline sleeve and positioned at the lower side of the switching plate, a power motor is fixedly arranged in the upper wall of the treatment cavity, the upper end of the spline shaft is in power connection with the power motor, a lifting spring which is symmetrical about the two sides of the spline shaft is fixedly connected between the upper end surface of the switching plate and the upper wall of the processing cavity, the switch board is characterized in that a water outlet which penetrates through and communicates with the upper portion and the lower portion is formed in one side of the switch board, a connector is fixedly arranged at the upper end of the switch board and located on the upper side of the water outlet, and a lifting plate is fixedly connected to the upper portion of the switch board and located on the outer end face of the connector.

Carefully, the processing chamber upper wall is kept away from lifter plate one side end wall intercommunication is equipped with the cam chamber, the cam chamber with processing chamber upper wall intercommunication, power shaft one side terminal surface extends to cam intracavity and fixedly connected with rotate the cam.

The choice, it is including being located to separate push mechanism just is circular arc annular switching chamber in the treatment chamber upper wall, switch chamber lower extreme one side with the connecting tube upper wall intercommunication, switch chamber lower extreme opposite side with the connecting tube upper wall intercommunication drops, it is equipped with about to switch the circular pivoted in chamber and support the bull stick, support the bull stick disc fixedly connected with slurcam, it is equipped with the annular rotation circular slot of circle to switch chamber one side intercommunication, it is equipped with the support ring to rotate the circular slot internal rotation, all support a bull stick side end face fixed connection with support the ring.

Carefully, it includes and is located to rotate the circular slot and keep away from switch chamber one side intercommunication is equipped with the sheave chamber, the sheave intracavity rotates and is equipped with the sheave, the sheave is close to it arranges to rotate circular slot one side end ring shape has drive link, all drive link is close to rotate a circular slot one side end face with the support ring is kept away from switch fixed connection between chamber one side end face, the sheave chamber is kept away from it rotates and is equipped with the axis of rotation to switch a chamber lateral wall, the axis of rotation is close to switch chamber one side end face with the sheave is kept away from switch chamber one side end face axle center fixed connection.

The fine selection is carried out, a rotating chute with a forward opening is arranged in the grooved wheel, a power shaft is arranged on one side wall of the grooved wheel cavity close to the switching cavity in a rotating mode, the power shaft is far away from one side end face of the switching cavity and is fixedly connected with a rotating connecting rod, one side of the rotating connecting rod, far away from one side end face of the switching cavity, is rotatably connected with a rotating wheel, and the rotating wheel is clamped in the rotating chute.

Carefully, the treatment chamber upper wall just keeps away from cam chamber one side intercommunication is equipped with the lift chamber, the lifter plate up end upwards extends to in the lift chamber, keep away from in the lifter plate be equipped with the connection chamber of opening decurrent in the lifter plate, connect the chamber with the delivery port intercommunication, it keeps away from to connect the intracavity power motor one side end wall upside is equipped with the opening orientation and keeps away from the water inlet of power motor one side, the lift chamber is kept away from power motor one side end wall downside intercommunication is equipped with the switching pipeline, switching pipeline and external treatment fluid water piping connection.

Carefully, it is equipped with the upset groove of slope to drop to connect intracavity lower wall intercommunication, be close to between two walls in the upset groove processing chamber one side is rotated and is equipped with the transmission shaft, the upset board that the outer disc upside fixedly connected with of transmission shaft can overturn, be equipped with the chamber that resets in an upset groove lateral wall, the transmission shaft is close to chamber one end that resets extends to intracavity and fixedly connected with reset torsion spring reset.

Carefully selecting, the left side and the right side of the falling connection cavity are sealed when the turnover plate has certain elasticity and is in a vertical state, the pushing plate has certain elasticity and has the same size as the connection pipeline, the elasticity of the lifting spring is larger than the gravity borne by the switching plate, and the rotation center of the rotating cam deviates from the rotation center of the power shaft.

And in selection, a rotating motor is fixedly arranged in one side wall of the cam cavity far away from the grooved wheel cavity, and one end of the power shaft far away from the grooved wheel cavity is in power connection with the rotating motor.

The invention has the following beneficial effects:

1. according to the invention, the hardened soil is subjected to partial treatment before entering the repair cavity by virtue of the effect of pretreatment of the hardened soil, so that the hardened soil is mixed with the aqueous solution in advance, the subsequent hardened soil cannot be fully mixed with the soil repair liquid due to over-drying, and the overall repair efficiency of the hardened soil is improved.

2. According to the invention, the grinding wheels rotate relatively and primarily grind the hardened soil falling into the grinding cavity, so that the subsequent hardened soil pretreatment is facilitated.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic view of the structure A-A in FIG. 1;

FIG. 3 is a schematic view of B-B in FIG. 2;

FIG. 4 is an enlarged view of FIG. 1 at C;

FIG. 5 is an enlarged view of E in FIG. 2;

FIG. 6 is a schematic view of the structure of E-E in FIG. 4.

In the figure: 11. a processing apparatus main body; 21. connecting a pipeline; 22. a lift spring; 23. a treatment chamber; 24. a reset chamber; 25. a return torsion spring; 28. supporting the rotating rod; 29. a switching chamber; 30. a push plate; 31. a support ring; 32. a transmission connecting rod; 33. a grooved wheel; 34. a rotating shaft; 35. rotating the chute; 36. a rotating wheel; 38. rotating the connecting rod; 39. a power shaft; 40. rotating the circular groove; 42. rotating the motor; 43. rotating the cam; 44. a cam cavity; 45. a sheave cavity; 47. a drop connection chamber; 48. a turnover groove; 49. a drive shaft; 50. a turnover plate; 51. a power motor; 52. a lifting cavity; 53. a connecting cavity; 54. a water inlet; 55. a lifting plate; 56. switching pipelines; 57. a connecting port; 60. a water outlet; 61. a switch board; 62. a stirring fan; 63. a spline sleeve; 64. a spline shaft.

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.

Referring to fig. 1-6, a module for pre-treating caked soil includes a main body 11, the processing device main body 11 is internally provided with a separation pushing mechanism which can quantitatively separate and push the input hardened soil fragments, a processing cavity 23 is arranged at the inner side of the separating and pushing mechanism, a stirring processing mechanism is arranged in the processing cavity 23, the stirring processing mechanism can carry out the pre-stirring processing on the hardened soil fragments quantitatively input into the processing cavity 23, a rotary connecting mechanism is arranged in one side wall of the stirring processing mechanism and provides power for the stirring processing mechanism and the separating and pushing mechanism, a connecting pipeline 21 with an upward opening is communicated with one side wall of the processing cavity 23, the processing cavity 23 is far away from one side wall of the connecting pipeline 21 and is provided with a falling connecting cavity 47, and the falling connecting cavity 47 is connected with the soil remediation device.

Wherein, the stirring processing mechanism comprises a switching plate 61 which is positioned in the processing chamber 23 and can move up and down, a spline shaft 64 is rotatably arranged on the inner upper wall of the processing chamber 23, a spline sleeve 63 which can move up and down is arranged in the processing chamber 23, the spline sleeve 63 is in spline connection with the spline shaft 64, the spline sleeve 63 is rotatably connected with the switching plate 61, a stirring fan 62 is fixedly connected with the outer circular surface of the spline sleeve 63 and positioned on the lower side of the switching plate 61, a power motor 51 is fixedly arranged in the upper wall of the processing chamber 23, the upper end of the spline shaft 64 is in power connection with the power motor 51, a lifting spring 22 which is symmetrical about the two sides of the spline shaft 64 is fixedly connected between the upper end surface of the switching plate 61 and the upper wall of the processing chamber 23, a water outlet 60 which is communicated with the upper end of the switching plate 61 in a vertical penetrating manner is arranged on one side of the, the outer end face of the connecting port 57 is fixedly connected with a lifting plate 55 above the switching plate 61.

Wherein, the upper wall of the treatment cavity 23 is far away from the end wall of one side of the lifting plate 55, and is communicated with a cam cavity 44, the cam cavity 44 is communicated with the upper wall of the treatment cavity 23, and one side end surface of the power shaft 39 extends into the cam cavity 44 and is fixedly connected with a rotating cam 43.

Wherein, separate push mechanism including being located in 23 upper walls of treatment chamber just be circular arc annular switching chamber 29, switching chamber 29 lower extreme one side with connecting tube 21 upper wall intercommunication, switching chamber 29 lower extreme opposite side with drop and connect the chamber 47 upper wall intercommunication, switching intracavity is equipped with about switching 29 circular pivoted and supporting bull stick 28 in the chamber, support 28 outer disc fixedly connected with slurcam 30 in bull stick, switching 29 one side intercommunication in chamber is equipped with the annular rotation circular slot 40 of circle, it is equipped with support ring 31 to rotate 40 internal rotations in circular slot, all support 28 a side end face fixed connection of bull stick with support ring 31.

Wherein, it includes and is located to rotate the circular slot 40 and keep away from switch chamber 29 one side intercommunication 45 that is equipped with, the internal rotation of grooved wheel chamber 45 is equipped with sheave 33, sheave 33 is close to it has transmission connecting rod 32 to rotate circular slot 40 one side end annular arrangement, all transmission connecting rod 32 is close to it keeps away from to rotate circular slot 40 one side end with support ring 31 switch fixed connection between the chamber 29 one side end, sheave chamber 45 keeps away from it rotates and is equipped with axis of rotation 34 to switch chamber 29 one side wall, axis of rotation 34 is close to switch chamber 29 one side end with sheave 33 keeps away from switch chamber 29 one side end fixed connection in the axle center.

A rotating chute 35 with a forward opening is arranged in the grooved wheel 33, a power shaft 39 is rotatably arranged on one side wall of the grooved wheel cavity 45 close to the switching cavity 29, a rotating connecting rod 38 is fixedly connected to the end surface of one side of the power shaft 39 far away from the switching cavity 29, a rotating wheel 36 is rotatably connected to one side of the rotating connecting rod 38 far away from one side end surface of the switching cavity 29, and the rotating wheel 36 is clamped in the rotating chute 35.

Wherein, processing chamber 23 upper wall just keeps away from cam chamber 44 one side intercommunication is equipped with lift chamber 52, 55 up end of lifter plate upwards extends to in the lift chamber 52, keep away from in the lifter plate 55 be equipped with the decurrent connection chamber 53 of opening in the lifter plate 55, connect chamber 53 with delivery port 60 intercommunication, keep away from in connecting chamber 53 power motor 51 one side end wall upside is equipped with the opening and keeps away from the water inlet 54 of power motor 51 one side, lift chamber 52 is kept away from power motor 51 one side end wall downside intercommunication is equipped with switching pipeline 56, switching pipeline 56 is connected with external treatment liquid water pipe.

Wherein, the lower wall intercommunication is equipped with the upset groove 48 of slope in the connection chamber 47 that drops, be close to between two walls in the upset groove 48 the treatment chamber 23 one side is rotated and is equipped with transmission shaft 49, the upset board 50 that the outer disc upside fixedly connected with of transmission shaft 49 can overturn, be equipped with the chamber 24 that resets in the upset groove 48 one side wall, transmission shaft 49 is close to chamber 24 one end that resets extends to in the chamber 24 and fixedly connected with reset torsion spring 25 reset.

The turnover plate 50 has certain elasticity and seals the left side and the right side of the falling connection cavity 47 when the turnover plate is in a vertical state, the push plate 30 has certain elasticity and has the same size as the connection pipeline 21, the elasticity of the lifting spring 22 is larger than the gravity borne by the switching plate 61, and the rotation center of the rotating cam 43 deviates from the rotation center of the power shaft 39.

The cam cavity 44 is fixedly provided with a rotating motor 42 in one side wall far away from the sheave cavity 45, and one end of the power shaft 39 far away from the sheave cavity 45 is in power connection with the rotating motor 42.

The working principle is as follows: the broken hardened soil is put into the connecting pipeline 21 and is blocked by the pushing plate 30 positioned in the connecting pipeline 21 at the moment, and is accumulated at the lower end in the connecting pipeline 21, at the moment, the rotating motor 42 is started and drives the power shaft 39 to rotate, at the moment, the power shaft 39 rotates and drives the rotating connecting rod 38 to rotate, the rotating connecting rod 38 drives the rotating wheel 36 to rotate for one circle through rotating connection, at the moment, the rotating wheel 36 rotates for one circle, and in the process, the grooved wheel 33 rotates ninety degrees, at the moment, the grooved wheel 33 fixedly connects and drives the supporting ring 31 to rotate for ninety degrees through the transmission connecting rod 32 in the process of rotating for ninety degrees, at the moment, the supporting ring 31 fixedly connects and drives all the pushing plates 30 to extend to the switching cavity 29 to rotate through the supporting rotating rod 28, at the moment, the pushing plate 30 at the lowest side rotates and enters the processing cavity 23, and continuously moves leftwards and pushes the overturning plate 50 to overturn, then the pushing plate 30 at the lowest side moves back to the switching cavity 29 again, the hardened soil accumulated in the connecting pipeline 21 enters the processing cavity 23 through the lower end of the connecting pipeline 21 in an inclined mode in the process, and is pushed to enter the processing cavity 23 completely in the process of moving to the lowest side through the pushing plate 30 at the rightmost side, at the moment, the pushing plate 30 at the lowest side closes two sides of the connecting pipeline 21 again, the transmission shaft 49 rotates and resets due to the torsional force of the reset torsion spring 25, the transmission shaft 49 drives the turnover plate 50 to turn back to the vertical state again through fixed connection, and closes two sides of the falling connecting cavity 47 again, at the moment, in the process that the rotating motor 42 rotates and drives the pushing plate 30 to switch and rotate next time, the power shaft 39 drives the rotating cam 43 to rotate, the rotating cam 43 deviates from the rotating center of the power shaft 39 due to the rotating center, at the moment, the longer end of the rotating cam, and pushes the switching plate 61 to move downwards to overcome the elastic force of the lifting spring 22, at this time, the switching plate 61 moves downwards and drives the spline sleeve 63 to move downwards through the rotating connection, simultaneously, the power motor 51 is started to drive the spline shaft 64 to rotate, the spline shaft 64 drives the spline sleeve 63 to rotate through the spline connection, the spline sleeve 63 drives the stirring fan 62 to rotate through the fixed connection, and the rotating speed achieves the stirring effect, so that the soil in the processing cavity 23 is stirred in advance through the stirring fan 62 in the process of pressing down the switching plate 61, then, when the switching plate 61 is pushed by the rotating cam 43 and moves to the lower limit position, at this time, the switching plate 61 drives the lifting plate 55 to move to the lower limit position through the fixed connection, at this time, the water inlet 54 is communicated with the switching pipeline 56, the water in the external water pipe enters the water inlet 54 through being connected with the switching pipeline 56, and enters the processing cavity 23 through the connecting, and aqueous solution mixing and stirring are carried out on the plate-bonded soil in the processing cavity 23, so that the effect of pretreating the plate-bonded soil is achieved, the plate-bonded soil is subjected to component treatment before entering the repairing cavity, the plate-bonded soil is mixed with the aqueous solution in advance, the subsequent plate-bonded soil is not fully mixed with the soil repairing liquid due to over-drying, the overall repairing efficiency of the plate-bonded soil is improved, then the rotating cam 43 continuously rotates and does not push the switching plate 61 to move downwards, at the moment, the switching plate 61 gradually moves upwards due to the elastic action of the lifting spring 22 and is reset to facilitate the next soil pretreatment, the switching plate 61 drives the lifting plate 55 to move upwards through fixed connection and leads the switching pipeline 56 to be communicated and disconnected with the water inlet 54, then the plate 30 continuously rotates through the lowest side, and further pushes the plate-bonded soil after the pretreatment in the processing cavity 23 to move towards the falling connecting cavity 47, at this moment, the turnover plate 50 overcomes the elastic action of the reset torsion spring 25 to overturn the transmission shaft 49 due to the pushing, at this moment, the turnover plate 50 overturns completely and enters the turnover groove 48, the hardened soil after the pretreatment in the treatment cavity 23 is pushed by the pushing plate 30 to enter the falling connection cavity 47, the falling connection cavity 47 inclines and slides to the soil restoration device for storage, the subsequent overall soil restoration is conveniently carried out, and the hardened soil at the next time is carried out.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. A plate-knot soil pre-remediation treatment assembly comprises a treatment device main body (11), and is characterized in that: the processing device main body (11) is internally provided with a separation pushing mechanism which can quantitatively separate and push the input hardened soil fragments, a processing cavity (23) is arranged at the inner side of the separation pushing mechanism, a stirring processing mechanism is arranged in the processing cavity (23), the stirring processing mechanism can carry out pre-stirring processing on hardened soil fragments quantitatively input into the processing cavity (23), a rotary connecting mechanism is arranged in one side wall of the stirring processing mechanism and provides power for the stirring processing mechanism and the separating and pushing mechanism, a connecting pipeline (21) with an upward opening is communicated with one side wall of the processing cavity (23), the processing cavity (23) is far away from one side wall of the connecting pipeline (21) and is communicated with a falling connecting cavity (47), and the falling connecting cavity (47) is connected with the soil remediation device.

2. A panel soil pre-remediating treatment assembly as set forth in claim 1, wherein: the stirring processing mechanism comprises a switching plate (61) which is positioned in the processing cavity (23) and can move up and down, a spline shaft (64) is arranged on the inner upper wall of the processing cavity (23) in a rotating manner, a spline sleeve (63) which can move up and down is arranged in the processing cavity (23), the spline sleeve (63) is in spline connection with the spline shaft (64), the spline sleeve (63) is in rotating connection with the switching plate (61), the outer circular surface of the spline sleeve (63) is positioned on the lower side of the switching plate (61) and is fixedly connected with a stirring fan (62), a power motor (51) is fixedly arranged on the inner upper wall of the processing cavity (23), the upper end of the spline shaft (64) is in power connection with the power motor (51), and a lifting spring (22) which is symmetrical to the two sides of the spline shaft (64) is fixedly connected between the upper end surface of the switching plate (61) and, a water outlet (60) which is communicated with the water outlet in an up-and-down penetrating mode is formed in one side of the switching plate (61), a connecting port (57) is fixedly formed in the upper end of the switching plate (61) and located on the upper side of the water outlet (60), and a lifting plate (55) is fixedly connected to the upper portion of the switching plate (61) and located on the outer end face of the connecting port (57).

3. A panel soil pre-remediating treatment assembly as set forth in claim 2, wherein: the utility model discloses a cam assembly, including lifter plate (55), power shaft (39), handle chamber (23) upper wall and handle chamber (23) upper wall, lifter plate (55) one side end wall intercommunication is equipped with cam chamber (44), cam chamber (44) with handle chamber (23) upper wall intercommunication, power shaft (39) a side end face extends to in cam chamber (44) and fixedly connected with rotate cam (43).

4. A panel soil pre-remediating treatment assembly as set forth in claim 1, wherein: separate push mechanism including being located in the process chamber (23) upper wall and be circular arc annular switch chamber (29), switch chamber (29) lower extreme one side with connecting tube (21) upper wall intercommunication, switch chamber (29) lower extreme opposite side with drop and connect chamber (47) upper wall intercommunication, be equipped with in switching chamber (29) about switch the circular pivoted in chamber (29) and support bull stick (28), support bull stick (28) excircle fixedly connected with slurcam (30), it is equipped with annular rotation circular slot (40) to switch chamber (29) one side intercommunication, rotation circular slot (40) internal rotation is equipped with support ring (31), all support bull stick (28) a side end face fixed connection with support ring (31).

5. A panel soil pre-remediating treatment assembly as set forth in claim 1, wherein: rotate coupling mechanism including being located it keeps away from to rotate circular slot (40) switch runner chamber (45) that chamber (29) one side intercommunication was equipped with, runner chamber (45) internal rotation is equipped with sheave (33), sheave (33) are close to it arranges transmission connecting rod (32) to rotate circular slot (40) one side terminal surface annular, all transmission connecting rod (32) are close to it keeps away from to rotate circular slot (40) one side terminal surface with support ring (31) fixed connection between switching chamber (29) one side terminal surface, sheave chamber (45) are kept away from it is equipped with axis of rotation (34) to switch chamber (29) one side wall rotation, axis of rotation (34) are close to switch chamber (29) one side terminal surface with sheave (33) are kept away from switch chamber (29) one side terminal surface axle center fixed connection.

6. A panel soil pre-remediating treatment assembly as set forth in claim 5, wherein: be equipped with rotation spout (35) that the opening is preceding in sheave (33), sheave chamber (45) are close to switch chamber (29) a lateral wall and rotate and be equipped with power shaft (39), power shaft (39) are kept away from switch chamber (29) a side end face fixedly connected with rotates connecting rod (38), it keeps away from to rotate connecting rod (38) switch chamber (29) a side end face one side is rotated and is connected with and rotates wheel (36), rotate wheel (36) dress card in rotating spout (35).

7. A panel soil pre-remediating treatment assembly as set forth in claim 1, wherein: processing chamber (23) upper wall and keeping away from cam chamber (44) one side intercommunication is equipped with lift chamber (52), lifter plate (55) up end upwards extends to in lift chamber (52), keep away from in lifter plate (55) be equipped with connection chamber (53) that open side down in lifter plate (55), connect chamber (53) with delivery port (60) intercommunication, keep away from in connecting chamber (53) power motor (51) one side end wall upside is equipped with the opening and keeps away from power motor (51) water inlet (54) of one side, keep away from in lift chamber (52) power motor (51) one side end wall downside intercommunication is equipped with switching pipeline (56), switching pipeline (56) are connected with external treatment liquid water pipe.

8. A panel soil pre-remediating treatment assembly as set forth in claim 1, wherein: drop and connect upset groove (48) that the lower wall intercommunication was equipped with the slope in chamber (47), be close to between two walls in upset groove (48) processing chamber (23) one side is rotated and is equipped with transmission shaft (49), upset board (50) that transmission shaft (49) outer disc upside fixedly connected with can overturn, be equipped with chamber (24) that resets in upset groove (48) one side wall, transmission shaft (49) are close to chamber (24) one end that resets extends to fixedly connected with torsional spring (25) that resets in chamber (24).

9. A panel soil pre-remediating treatment assembly as set forth in claim 1, wherein: the turnover plate (50) has certain elasticity and closes the left side and the right side of the falling connection cavity (47) when being in a vertical state, the pushing plate (30) has certain elasticity and has the same size as the connection pipeline (21), the elasticity of the lifting spring (22) is larger than the gravity borne by the switching plate (61), and the rotation center of the rotating cam (43) is deviated from the rotation center of the power shaft (39).

10. A panel soil pre-remediating treatment assembly as set forth in claim 3, wherein: cam chamber (44) are kept away from a lateral wall internal fixation of sheave chamber (45) is equipped with rotation motor (42), power shaft (39) are kept away from sheave chamber (45) one end power connect in rotate motor (42).

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