CN114016512A - Lift type automobile wireless charging underground coil installation foundation pit processor - Google Patents

Abstract

The invention relates to the field of wireless charging, in particular to a lifting type automobile wireless charging underground coil mounting foundation pit processor. The technical problem of the invention is as follows: the inner wall of the foundation pit is provided with a harder soil block protrusion which is not beneficial to brushing, the soil block at the bottom is less in contact with the asphalt permeable layer oil and is difficult to adhere to the black gold sand, the compacting effect is difficult to achieve after brushing, and a large amount of asphalt permeable layer oil is required to be consumed for bonding. The technical scheme is as follows: a lifting type automobile wireless charging underground coil mounting foundation pit processor comprises a traction arm, a driver and the like; the left part of the traction arm is connected with a driver through a bolt. According to the invention, the leveling treatment of the soil blocks on the inner wall of the foundation pit is realized, the harder and protruded soil blocks on the inner wall of the foundation pit are leveled by utilizing a rotating and lifting mode during leveling, the soil blocks scraped from the inner wall of the foundation pit are crushed and recovered, and the asphalt penetrating layer oil is mixed and then filled at the bottom of the foundation pit, so that the bottom of the foundation pit is more compact and smoother after being filled with the black gold sand.

Description

Lift type automobile wireless charging underground coil installation foundation pit processor

Technical Field

The invention relates to the field of wireless charging, in particular to a lifting type automobile wireless charging underground coil mounting foundation pit processor.

Background

The existing coil installation technology for wireless charging of automobiles is characterized in that a foundation pit is dug in an area, then an adhesive is coated on the inner wall of the foundation pit, a layer of black gold sand is supplemented at the bottom of the foundation pit and asphalt permeable layer oil is coated, and finally a glass fiber grating and a wireless charging coil are placed in the foundation pit for backfilling, so that the operation has the defect that the inner wall is uneven due to the fact that harder soil blocks protrude on the inner wall of the foundation pit, the coating of the adhesive is not facilitated, the bottom soil blocks are difficult to contact with the asphalt permeable layer oil, the adhesion degree of the black gold sand and the soil blocks is low, and a large amount of asphalt permeable layer oil is consumed for adhesion;

in summary, there is a need to develop a lifting type automobile wireless charging underground coil installation foundation pit processor to overcome the above problems.

Disclosure of Invention

In order to overcome the defects that harder clods are protruded on the inner wall of a foundation pit and are not beneficial to coating, the clods at the bottom are less in contact with asphalt permeable layer oil and are difficult to be adhered with black gold sand, the compaction effect is difficult to achieve after coating, and a large amount of asphalt permeable layer oil is consumed for adhesion, the invention has the technical problems that: a lifting type automobile wireless charging underground coil installation foundation pit processor is provided.

The technical scheme is as follows: a lifting type automobile wireless charging underground coil mounting foundation pit processor comprises a traction arm, a driver, an inner wall grinding mechanism, a guide mechanism and a stirring mechanism; the left part of the traction arm is fixedly connected with a driver; the left part of the traction arm is rotatably connected with an inner wall grinding mechanism for grinding the soil blocks on the inner wall of the foundation pit; the inner wall grinding mechanism is internally connected with a guide mechanism for conveying scraped soil blocks; the inner wall grinding mechanism is connected with a stirring mechanism for stirring the scraped soil blocks.

In addition, it is particularly preferred that the inner wall grinding mechanism comprises a rotary disc, a first electric push rod, a first fixed rod, a movable ring, a blocking ring, a protective wall, a loading bin, a support plate, a second electric push rod, a grinding rod, a first bracket, a rotating shaft, a scraping plate, a blocking cloth, a scraping tooth and a metal reed; the left part of the traction arm is rotatably connected with a rotating disc; the lower surface of the rotating disc is fixedly connected with three first electric push rods distributed in an annular array; the telescopic parts of the first electric push rods are fixedly connected with first fixed rods; the left end of the first fixed rod is fixedly connected with a movable ring; a blocking ring penetrates through the middle part of the first fixing rod; a protective wall is fixedly connected to the right end of the first fixed rod; a loading bin is fixedly connected below the protective wall; a support plate is fixedly connected to the rear part of the inner side of the protective wall; the rear part of the support plate is fixedly connected with a second electric push rod; the telescopic part of the second electric push rod is rotatably connected with a scraper; the middle part of the scraper plate is rotatably connected with a rotating shaft; the rotary front part of the scraper is fixedly connected with a grinding rod; the upper part and the lower part of the outer ring surface of the rotating shaft are fixedly connected with a first bracket; the first bracket is fixedly connected with the protective wall; a cloth baffle is fixedly connected between the lower end of the scraper and the loading bin; the lower surface of the loading bin is fixedly connected with a metal reed.

In addition, it is particularly preferred that a plurality of scraping teeth for limiting large stones and breaking large clods are fixed below the blocking ring.

In addition, it is particularly preferable that the guide mechanism includes a toothed ring, a connecting ring, a slider, a second bracket, a first transmission shaft, a first spur gear, a first roller, a third bracket, a second transmission shaft, a second spur gear, a second roller, a dial plate, and a second fixing rod; the upper part of the movable ring is connected with three sliding blocks in a sliding way; the upper parts of the three sliding blocks are fixedly connected with a connecting ring; three second fixing rods are equidistantly arranged on the outer ring surface of the connecting ring; the second fixed rod is fixedly connected with a toothed ring; the loading bin is rotatably connected with a first transmission shaft; the outer ring surface of the first transmission shaft is fixedly connected with a first roller; the upper end of the first transmission shaft is fixedly connected with a first flat gear; the upper end of the first transmission shaft is rotatably connected with a second bracket, and the second bracket is positioned above the first flat gear; the second bracket is fixedly connected with the protective wall; the loading bin is rotatably connected with a second transmission shaft, and the second transmission shaft is positioned at the left of the first transmission shaft; the outer ring surface of the second transmission shaft is fixedly connected with a second roller; a second flat gear is fixedly connected to the upper end of the second transmission shaft; the upper end of the second transmission shaft is rotatably connected with a third bracket, and the third bracket is positioned above the second flat gear; the third bracket is fixedly connected with the protective wall; the second flat gear is meshed with the first flat gear; the second spur gear meshes with the ring gear.

In addition, it is particularly preferred that the outer surfaces of the first roller and the second roller are each provided with a plurality of shifting plates for bringing the scraped soil blocks into the loading bin.

In addition, it is particularly preferable that the stirring mechanism includes a screw rod, a connecting rod, a grinding rod and a scraper; the lower surface of the rotating disc is rotatably connected with a screw rod; the lower part of the screw rod is fixedly connected with three connecting rods distributed in an annular array; the lower part of the connecting rod is fixedly connected with a rolling rod; two sides of the connecting rod are respectively fixedly connected with a scraper.

In addition, it is particularly preferred that the grinding rod is provided with a scraper for scraping ground soil particles.

In addition, particularly preferably, the stirring device further comprises a fixing mechanism, wherein the fixing mechanism is connected below the stirring mechanism and comprises a base, a net wall and pins; the lower end of the screw rod is rotatably connected with a base; the upper surface of the base is fixedly connected with a net wall; six pins are fixedly connected to the lower surface of the base.

In addition, it is especially preferred that the upper part of the base is provided with six oil outlets for outputting asphalt permeable stratum oil.

In addition, it is particularly preferable that the upper surface of the base is provided with a plurality of guide grooves for guiding the soil particles mixed with the bitumen penetration layer oil to the bottom of the foundation pit.

The beneficial effects are that: according to the invention, the leveling treatment of the soil blocks on the inner wall of the foundation pit is realized, the harder and protruded soil blocks on the inner wall of the foundation pit are leveled by utilizing a rotating and lifting mode during leveling, the soil blocks scraped from the inner wall of the foundation pit are crushed and recovered, and the asphalt penetrating layer oil is mixed and then filled at the bottom of the foundation pit, so that the bottom of the foundation pit is more compact and smoother after being filled with the black gold sand.

Drawings

FIG. 1 is a schematic view of a first three-dimensional construction of the present invention;

FIG. 2 is a schematic view of a second three-dimensional configuration of the present invention;

FIG. 3 is a schematic perspective view of the inner wall smoothing mechanism according to the present invention;

FIG. 4 is a schematic view of a first partial perspective configuration of the inner wall smoothing mechanism of the present invention;

FIG. 5 is a schematic view of a second partial perspective view of the inner wall smoothing mechanism of the present invention;

FIG. 6 is a schematic view of a third partial perspective view of the inner wall smoothing mechanism of the present invention;

FIG. 7 is a schematic view of a first three-dimensional configuration of the guide mechanism of the present invention;

FIG. 8 is a schematic view of a second three-dimensional configuration of the guide mechanism of the present invention;

FIG. 9 is a schematic view of a third perspective configuration of the guide mechanism of the present invention;

FIG. 10 is a schematic view of a first alternate construction of the agitation mechanism of the present invention;

FIG. 11 is a schematic view of a second alternate construction of the agitation mechanism of the present invention;

fig. 12 is a perspective view of the fixing mechanism of the present invention.

In the figure: 1. draft arm, 2, driver, 301, rotary disk, 302, first electric push rod, 303, first fixed rod, 304, moving ring, 305, barrier ring, 306, protective wall, 307, loading bin, 308, support plate, 309, second electric push rod, 3010, smoothing rod, 3011, first support, 3012, rotating shaft, 3013, scraper, 3014, blocking cloth, 3015, scraping tooth, 3016, metal reed, 401, toothed ring, 402, 403, slider, 404, second support, 405, first transmission shaft, 406, first flat gear, 407, first roller, 408, third support, 409, second transmission shaft, 4010, second flat gear, 4011, second roller, 4012, dial plate, 4013, second fixed rod, 501, lead screw, 502, connecting rod, 503, grinding rod, 504, scraper, 601, base, 602, net wall, 603, pin.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention. In the present embodiment, the driver 2 is a motor.

Example 1

A lifting type automobile wireless charging underground coil mounting foundation pit processor is shown in figures 1-11 and comprises a traction arm 1, a driver 2, an inner wall grinding mechanism, a guide mechanism and a stirring mechanism; the left part of the traction arm 1 is connected with a driver 2 through a bolt; the left part of the traction arm 1 is rotatably connected with an inner wall grinding mechanism; the inner part of the inner wall grinding mechanism is connected with a guide mechanism; the inner wall grinding mechanism is connected with a stirring mechanism.

The device is placed in a foundation pit through a traction arm 1 at the beginning, then an external power supply is connected, then a driver 2 is controlled to drive an inner wall grinding mechanism to operate, the inner wall grinding mechanism scrapes off harder and raised soil blocks on the inner wall of the foundation pit, the inner wall of the foundation pit is ground flat, the scraped and gathered soil blocks are brought into the inner wall grinding mechanism through a guide mechanism during soil scraping, then the scraped soil blocks enter the inner wall grinding mechanism to be screened and crushed at the first stage, larger stones in harder soil blocks are blocked, meanwhile, small crushed soil blocks enter a stirring mechanism, then the inner wall grinding mechanism continues to perform compaction treatment on the inner wall to prevent the soil on the inner wall from loosening quickly, then the inner wall grinding mechanism is controlled to move downwards, the stirring mechanism is driven to perform secondary crushing on the screened soil blocks in the process of moving downwards, then the steps are repeated, and the lower half part of the inner wall of the foundation pit is ground flat and compacted, a layer of space is reserved for pouring the black gold sand, and finally the crushed soil enters and is mixed with the asphalt permeable layer oil so as to be more tightly bonded with the black gold sand subsequently; according to the invention, the leveling treatment of the soil blocks on the inner wall of the foundation pit is realized, the harder and protruded soil blocks on the inner wall of the foundation pit are leveled by utilizing a rotating and lifting mode during leveling, the soil blocks scraped from the inner wall of the foundation pit are crushed and recovered, and the asphalt penetrating layer oil is mixed and then filled at the bottom of the foundation pit, so that the bottom of the foundation pit is more compact and smoother after being filled with the black gold sand.

Example 2

On the basis of example 1, according to the illustrations in figures 3 to 11,

the inner wall grinding mechanism comprises a rotary disc 301, a first electric push rod 302, a first fixing rod 303, a moving ring 304, a blocking ring 305, a protective wall 306, a loading bin 307, a support plate 308, a second electric push rod 309, a grinding rod 3010, a first support 3011, a rotating shaft 3012, a scraping plate 3013, a blocking cloth 3014, scraping teeth 3015 and metal reeds 3016; the left part of the traction arm 1 is rotatably connected with a rotating disc 301; the lower surface of the rotating disc 301 is welded with three first electric push rods 302 distributed in an annular array; the telescopic parts of the first electric push rods 302 are fixedly connected with first fixing rods 303; the left end of the first fixed rod 303 is fixedly connected with a movable ring 304; a blocking ring 305 penetrates through the middle part of the first fixing rod 303; a protective wall 306 is welded at the right end of the first fixed rod 303; a loading bin 307 is welded below the protective wall 306; a support plate 308 is welded at the rear part of the inner side of the protective wall 306; the rear part of the support plate 308 is connected with a second electric push rod 309 through a bolt; the telescopic part of the second electric push rod 309 is rotatably connected with a scraper 3013; the middle part of the scraper 3013 is connected with a rotating shaft 3012; a polishing rod 3010 is fixedly connected to the rotating front part of the scraping plate 3013; the upper part and the lower part of the outer ring surface of the rotating shaft 3012 are fixedly connected with a first bracket 3011; the first support 3011 is fixedly connected to the protection wall 306; a blocking cloth 3014 is fixedly connected between the lower end of the scraper 3013 and the loading bin 307; metal reed 3016 is welded to the lower surface of loading bin 307.

A plurality of scraping teeth 3015 are welded below the blocking ring 305 to limit large stones and broken large clods.

The guide mechanism comprises a toothed ring 401, a connecting ring 402, a sliding block 403, a second bracket 404, a first transmission shaft 405, a first flat gear 406, a first roller 407, a third bracket 408, a second transmission shaft 409, a second flat gear 4010, a second roller 4011, a shifting plate 4012 and a second fixed rod 4013; three sliding blocks 403 are connected to the upper part of the moving ring 304 in a sliding manner; the upper parts of the three sliding blocks 403 are welded with connecting rings 402; three second fixing rods 4013 are equidistantly arranged on the outer annular surface of the connecting ring 402; a toothed ring 401 is fixedly connected to the second fixing rod 4013; a first transmission shaft 405 is rotatably connected to the loading bin 307; a first roller 407 is fixedly connected to the outer ring surface of the first transmission shaft 405; a first flat gear 406 is fixedly connected to the upper end of the first transmission shaft 405; the upper end of the first transmission shaft 405 is rotatably connected with a second bracket 404, and the second bracket 404 is positioned above the first flat gear 406; the second bracket 404 is fixedly connected with the protective wall 306; a second transmission shaft 409 is rotatably connected to the loading bin 307, and the second transmission shaft 409 is positioned at the left of the first transmission shaft 405; a second roller 4011 is fixedly connected to the outer ring surface of the second transmission shaft 409; a second flat gear 4010 is fixedly connected to the upper end of the second transmission shaft 409; the upper end of the second transmission shaft 409 is rotatably connected with a third bracket 408, and the third bracket 408 is positioned above the second flat gear 4010; the third bracket 408 is fixedly connected with the protective wall 306; the second spur gear 4010 meshes with the first spur gear 406; the second flat gear 4010 meshes with the ring gear 401.

The outer surfaces of the first roller 407 and the second roller 4011 are provided with a plurality of poking plates 4012 for bringing the scraped soil blocks into the loading bin 307.

The stirring mechanism comprises a screw rod 501, a connecting rod 502, a rolling rod 503 and a scraper 504; the lower surface of the rotating disc 301 is rotatably connected with a screw rod 501; the lower part of the screw rod 501 is fixedly connected with three connecting rods 502 which are distributed in an annular array; the lower part of the connecting rod 502 is fixedly connected with a rolling rod 503; one scraper 504 is welded to each side of the connecting rod 502.

The rolling rod 503 is provided with a scraping blade for scraping the rolled soil particles.

When the device works, the traction arm 1 is used for placing the device into a foundation pit, then the driver 2 is controlled to drive the rotating disc 301 to rotate, the rotating disc 301 drives the first fixing rod 303 to rotate around the screw rod 501 through the first electric push rod 302, then the first fixing rod 303 drives the moving ring 304, the blocking ring 305, the protective wall 306, the loading bin 307, the support plate 308, the second electric push rod 309, the grinding rod 3010, the first support 3011, the rotating shaft 3012, the scraper 3013, the blocking cloth 3014, the scraping teeth 3015 and the metal reed 3016 to rotate around the screw rod 501 as an axis, the second electric push rod 309 is controlled to contract in the rotating process, the second electric push rod 309 drives the scraper 3013 to swing around the rotating shaft 3012 as a center and takes the blocking cloth 3014 out to extend, the scraper 3013 scrapes soil on the inner wall of the foundation pit along with the rotation, the scraped soil falls on the blocking cloth 3014, and meanwhile, in the rotating process, the first driving shaft 405, the first fixing rod 303, the second electric push rod, the first fixing rod, the second electric push rod, and the second electric rod, and the third electric rod are used for driving the second electric rod to drive the second electric rod to rotate, and the third electric rod to drive the third electric rod to rotate, and the third electric rod to drive the third electric rod to rotate, and drive the third electric rod to rotate, and the third electric rod to drive the third electric rod to, The combination of the first flat gear 406, the first roller 407, the second transmission shaft 409, the second flat gear 4010 and the second roller 4011 is also driven to rotate, the gear ring 401 via the connection ring 402 and the slider 403 keeps a fixed rod when the moving ring 304 rotates, so that the second flat gear 4010 rotates via the gear ring 401, the second flat gear 4010 drives the second roller 4011 to rotate, the second flat gear 4010 also drives the first flat gear 406 to rotate, the first flat gear 406 drives the first roller 407 to rotate, the first roller 407 and the second roller 4011 drive the soil block dropped on the blocking cloth 3014 into the loading bin 307 via the shifting plate 4012, then the second electric push rod 309 is controlled to extend, the scraper 3013 is pushed to swing with the rotation shaft 3012 as an axis, the grinding rod 3010 is in contact with the inner wall of the foundation pit, the inner wall of the foundation pit is ground by rotating the grinding rod 3010, the soil block is processed tightly, and then the blocking ring 305 is driven to rotate by the first fixed rod 303, the large-particle soil blocks gathered around the blocking ring 305 are crushed through the scraping teeth 3015, the large-particle soil blocks are blocked in the loading bin 307, so that the small-particle soil blocks enter the stirring mechanism through the bottom outlet of the loading bin 307, after the inner wall of the upper half part of the foundation pit is processed, the first electric push rod 302 is controlled to extend, the first electric push rod 302 drives the first fixing rod 303 to move downwards, the first fixing rod 303 drives the moving ring 304, the blocking ring 305, the protective wall 306, the loading bin 307, the supporting plate 308, the second electric push rod 309, the grinding rod 3010, the first support 3011, the rotating shaft 3012, the scraping plate 3013, the blocking cloth 3014, the scraping teeth 3015 and the metal reed 3016 to also move downwards, the moving ring 304 drives the lead screw 501 to rotate in the downward movement process, the lead screw 501 drives the connecting rod 502, the grinding rod 503 and the scraping knife 504 to rotate, the fallen soil blocks are crushed and pushed to the bottom of the foundation pit, finally, the moving ring 304 moves to the shaft sleeve of the screw rod 501, the screw rod 501 stops rotating, then the second electric push rod 309 is controlled to contract the scraper 3013, the driver 2 drives the first electric push rod 302 to repeat the treatment on the inner wall of the foundation pit, and finally the first electric push rod 302 is controlled to extend for a short distance, so that the metal reed 3016 moves downwards for a short distance to poke the smashed soil blocks to prevent the blockage; the mechanism realizes the recycling of soil blocks on the inner wall of the foundation pit.

Example 3

On the basis of example 2, according to the illustration in figure 12,

the stirring device also comprises a fixing mechanism, wherein the fixing mechanism is connected below the stirring mechanism and comprises a base 601, a net wall 602 and pins 603; the lower end of the screw rod 501 is rotatably connected with a base 601; the upper surface of the base 601 is welded with a net wall 602; six pins 603 are welded to the lower surface of the base 601.

Six oil outlets are formed in the upper portion of the base 601 and used for outputting asphalt permeable layer oil.

The upper surface of the base 601 is provided with a plurality of guide grooves for guiding soil particles mixed with asphalt permeable layer oil to the bottom of the foundation pit.

When the device is placed into a foundation pit, the base 601 is placed on the surface of the bottom of the foundation pit, the pins 603 are inserted into soil at the bottom of the foundation pit, the base 601 rotates in cooperation with the connecting rod 502 to perform secondary crushing on the screened soil blocks, meanwhile, the asphalt permeable layer oil is output through the oil outlet of the base 601, the crushed soil particles are mixed with the asphalt permeable layer oil and flow to the bottom of the foundation pit along the guide groove on the base 601, and finally, the mixed oil soil particles gathered on the base 601 are poked to the bottom of the foundation pit; the mechanism completes the oil mixing of soil particles, and the matching device realizes the treatment of foundation pit soil blocks.

It should be understood that this example is only for illustrating the present invention and is not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Claims (10)

1. A lifting type automobile wireless charging underground coil mounting foundation pit processor comprises a traction arm (1) and a driver (2); a driver (2) is fixedly connected to the left part of the traction arm (1); it is characterized by also comprising an inner wall grinding mechanism, a guide mechanism and a stirring mechanism; the left part of the traction arm (1) is rotatably connected with an inner wall grinding mechanism for grinding the soil blocks on the inner wall of the foundation pit; the inner wall grinding mechanism is internally connected with a guide mechanism for conveying scraped soil blocks; the inner wall grinding mechanism is connected with a stirring mechanism for stirring the scraped soil blocks.

2. The lifting type automobile wireless charging underground coil mounting foundation pit processor as claimed in claim 1, wherein the inner wall grinding mechanism comprises a rotary disc (301), a first electric push rod (302), a first fixing rod (303), a moving ring (304), a blocking ring (305), a protective wall (306), a loading bin (307), a support plate (308), a second electric push rod (309), a grinding rod (3010), a first support (3011), a rotating shaft (3012), a scraping plate (3013), a blocking cloth (3014), scraping teeth (3015) and metal reeds (3016); the left part of the traction arm (1) is rotatably connected with a rotating disc (301); the lower surface of the rotating disc (301) is fixedly connected with three first electric push rods (302) distributed in an annular array; the telescopic parts of the first electric push rods (302) are fixedly connected with first fixing rods (303); the left end of the first fixed rod (303) is fixedly connected with a movable ring (304); a blocking ring (305) penetrates through the middle part of the first fixing rod (303); a protective wall (306) is fixedly connected to the right end of the first fixed rod (303); a loading bin (307) is fixedly connected below the protective wall (306); a support plate (308) is fixedly connected to the rear part of the inner side of the protective wall (306); a second electric push rod (309) is fixedly connected to the rear part of the support plate (308); a scraper (3013) is rotatably connected to the telescopic part of the second electric push rod (309); the middle part of the scraper (3013) is connected with a rotating shaft (3012) in a rotating way; the rotary front part of the scraper (3013) is fixedly connected with a flat grinding rod (3010); the upper part and the lower part of the outer ring surface of the rotating shaft (3012) are fixedly connected with a first bracket (3011); the first bracket (3011) is fixedly connected with the protective wall (306); a cloth baffle (3014) is fixedly connected between the lower end of the scraper (3013) and the loading bin (307); the lower surface of the loading bin (307) is fixedly connected with a metal reed (3016).

3. The lifting type automobile wireless charging underground coil mounting foundation pit processor as claimed in claim 2, wherein a plurality of scraping teeth (3015) are fixedly connected below the barrier ring (305) for limiting large stones and breaking large soil blocks.

4. The lifting type automobile wireless charging underground coil mounting foundation pit processor as claimed in claim 3, wherein the guiding mechanism comprises a toothed ring (401), a connecting ring (402), a sliding block (403), a second bracket (404), a first transmission shaft (405), a first flat gear (406), a first roller (407), a third bracket (408), a second transmission shaft (409), a second flat gear (4010), a second roller (4011), a shifting plate (4012) and a second fixing rod (4013); the upper part of the moving ring (304) is connected with three sliding blocks (403) in a sliding way; the upper parts of the three sliding blocks (403) are fixedly connected with a connecting ring (402); three second fixing rods (4013) are equidistantly arranged on the outer annular surface of the connecting ring (402); a toothed ring (401) is fixedly connected to the second fixing rod (4013); a first transmission shaft (405) is connected to the loading bin (307) in a rotating way; a first roller (407) is fixedly connected to the outer ring surface of the first transmission shaft (405); a first flat gear (406) is fixedly connected to the upper end of the first transmission shaft (405); the upper end of the first transmission shaft (405) is rotatably connected with a second bracket (404), and the second bracket (404) is positioned above the first flat gear (406); the second bracket (404) is fixedly connected with the protective wall (306); the loading bin (307) is rotatably connected with a second transmission shaft (409), and the second transmission shaft (409) is positioned at the left of the first transmission shaft (405); a second roller (4011) is fixedly connected to the outer ring surface of the second transmission shaft (409); a second flat gear (4010) is fixedly connected to the upper end of the second transmission shaft (409); the upper end of the second transmission shaft (409) is rotatably connected with a third bracket (408), and the third bracket (408) is positioned above the second flat gear (4010); the third bracket (408) is fixedly connected with the protective wall (306); the second spur gear (4010) meshes with the first spur gear (406); the second flat gear (4010) meshes with the ring gear (401).

5. The lift type automobile wireless charging underground coil mounting foundation pit processor as claimed in claim 4, wherein a plurality of shifting plates (4012) are arranged on the outer surfaces of the first roller (407) and the second roller (4011) respectively and used for bringing scraped soil blocks into the loading bin (307).

6. The lifting type automobile wireless charging underground coil mounting foundation pit processor as claimed in claim 5, wherein the stirring mechanism comprises a screw rod (501), a connecting rod (502), a grinding rod (503) and a scraper (504); the lower surface of the rotating disc (301) is rotatably connected with a screw rod (501); the lower part of the screw rod (501) is fixedly connected with three connecting rods (502) distributed in an annular array; the lower part of the connecting rod (502) is fixedly connected with a rolling rod (503); two sides of the connecting rod (502) are respectively fixedly connected with a scraper (504).

7. The lifting type automobile wireless charging underground coil installation foundation pit processor as claimed in claim 6, wherein the rolling rod (503) is provided with a scraping blade for scraping the rolled soil particles.

8. The lifting type automobile wireless charging underground coil mounting foundation pit processor as claimed in claim 7, further comprising a fixing mechanism, wherein the fixing mechanism is connected below the stirring mechanism, and comprises a base (601), a net wall (602) and pins (603); the lower end of the screw rod (501) is rotatably connected with a base (601); the upper surface of the base (601) is fixedly connected with a net wall (602); six pins (603) are fixedly connected to the lower surface of the base (601).

9. The lifting type automobile wireless charging underground coil mounting foundation pit processor as claimed in claim 8, wherein the upper part of the base (601) is provided with six oil outlets for outputting asphalt permeable stratum oil.

10. The lifting type automobile wireless charging underground coil installation foundation pit processor as claimed in claim 8, wherein the base (601) is provided with a plurality of guide grooves on the upper surface thereof for guiding soil particles mixed with bitumen penetration layer oil to the bottom of the foundation pit.

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