CN112343034A - Waste water well treatment device capable of tamping backfilled soil - Google Patents

Waste water well treatment device capable of tamping backfilled soil Download PDF

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Publication number
CN112343034A
CN112343034A CN202011310769.5A CN202011310769A CN112343034A CN 112343034 A CN112343034 A CN 112343034A CN 202011310769 A CN202011310769 A CN 202011310769A CN 112343034 A CN112343034 A CN 112343034A
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China
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rod
fixedly connected
bevel gear
linkage
block
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CN202011310769.5A
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杨建民
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Individual
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    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02DFOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
    • E02D3/00Improving or preserving soil or rock, e.g. preserving permafrost soil
    • E02D3/02Improving by compacting
    • E02D3/046Improving by compacting by tamping or vibrating, e.g. with auxiliary watering of the soil
    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02BHYDRAULIC ENGINEERING
    • E02B15/00Cleaning or keeping clear the surface of open water; Apparatus therefor
    • E02B15/04Devices for cleaning or keeping clear the surface of open water from oil or like floating materials by separating or removing these materials
    • E02B15/10Devices for removing the material from the surface
    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02DFOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
    • E02D17/00Excavations; Bordering of excavations; Making embankments
    • E02D17/18Making embankments, e.g. dikes, dams

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Mining & Mineral Resources (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Civil Engineering (AREA)
  • Environmental & Geological Engineering (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Paleontology (AREA)
  • Soil Sciences (AREA)
  • Agronomy & Crop Science (AREA)
  • Mechanical Engineering (AREA)
  • Processing Of Solid Wastes (AREA)

Abstract

The invention relates to the field of underground water, in particular to a waste water well treatment device capable of tamping backfilling soil. The technical problems of the invention are as follows: provided is a waste water well treatment device capable of tamping backfilling soil. The technical implementation scheme of the invention is as follows: a waste water well treatment device capable of tamping backfilled soil comprises a bottom frame, a floater removing assembly, an iron removing product assembly, a backfilling assembly, a control screen and the like; the upper part of the underframe is connected with the control screen; the underframe is connected with the first electric slide rail; the floater removing component is connected with the iron removing product component; the floater removing assembly is connected with the backfilling assembly. When the invention is used, the garbage on the water surface of the waste water well is automatically removed and collected, then the waste iron at the bottom of the water well is removed and collected, then soil is uniformly poured into the water well, and the soil is tamped after a certain amount of soil is poured, thereby enhancing the structural stability and greatly improving the efficiency.

Description

Waste water well treatment device capable of tamping backfilled soil
Technical Field
The invention relates to the field of underground water, in particular to a waste water well treatment device capable of tamping backfilling soil.
Background
In the prior art, rural tap water is more and more popularized, a large amount of shallow wells are abandoned and stopped to be used, garbage falls into abandoned wells as time goes on, wood plastic bottles float on the water surface, ironwork sinks into the bottoms of the wells to cause water in the wells to be polluted, backfill treatment is carried out at the moment, when workers backfill the wells, the garbage floating on the water surface needs to be removed, then well water is pumped out, the ironwork at the bottoms of the wells is removed, then soil is backfilled into the wells, the operation process is complicated, the efficiency is low, meanwhile, when the workers remove the garbage on the water surface, the water surface in the wells is deeper from the ground, the workers need to enter the wells for construction, even if the workers wear safety ropes, the workers can slide into the upper parts of the water layers carelessly to cause water choking phenomenon, the water pollution in the abandoned wells is serious, the water enters the bodies of the workers to cause infection, and great potential safety hazards exist, in addition, when the soil is backfilled manually, the phenomenon of loose backfilled soil can occur due to the fact that a water well is deep, and the structure is unstable.
In summary, there is a need to develop a waste water well treatment device capable of compacting backfill soil to overcome the above problems.
Disclosure of Invention
In order to overcome the problems that tap water in rural areas is more and more popularized, a large amount of shallow wells are abandoned and stopped to be used, garbage falls into abandoned wells as time goes on, wood plastic bottles float on the water surface, iron products sink into the bottoms of the wells, so that water in the wells is polluted, backfill treatment is carried out, when workers backfill the wells, the garbage floating on the water surface needs to be removed, then well water is pumped out, then the iron products at the bottoms of the wells are removed, soil is backfilled into the wells, the operation process is complicated, the efficiency is low, meanwhile, when the workers remove the garbage on the water surface, the water surface in the wells is deeper from the ground, the workers need to enter the wells for construction, even if the workers wear safety ropes, the workers still slide into the upper parts of the water layers carelessly, water choking occurs, water pollution in the abandoned wells is serious, and water enters the bodies of the workers to be infected, the invention has great potential safety hazard, in addition, when the soil is backfilled manually, the backfilled soil is loosened due to the deep water well, which causes the defect of unstable structure, and the technical problem of the invention is as follows: provided is a waste water well treatment device capable of tamping backfilling soil.
The technical implementation scheme of the invention is as follows: a waste water well treatment device capable of tamping backfilled soil comprises a bottom frame, a floater removing assembly, an iron removing product assembly, a backfilling assembly, a control screen, a first electric slide rail, a first slide block and a first linkage rod; the underframe is connected with the floater removing assembly; the underframe is connected with the iron removal product component; the bottom frame is connected with a backfill component; the upper part of the underframe is connected with the control screen; the underframe is connected with the first electric slide rail; the floater removing component is connected with the iron removing product component; the floater removing assembly is connected with the backfilling assembly; the floater removing assembly is connected with the first linkage rod; the iron removal product component is connected with the first linkage rod; the backfill component is connected with the first linkage rod; the first electric sliding rail is in sliding connection with the first sliding block; the lower part of the first sliding block is fixedly connected with the first linkage rod.
Optionally, the floater removing assembly comprises a first multi-stage hydraulic rod, a first salvage assembly, a first sleeve rod, a first gear, a first ridge rod, a second sliding block, a second electric sliding rail, a first bevel gear, a second bevel gear, a first screw rod, a first guide rail block, a third sliding block and a first storage box; the lower part of the first multi-stage hydraulic rod is connected with the first fishing component; a first loop bar is arranged below the side edge of the first multi-stage hydraulic rod; the upper part of the first multistage hydraulic rod is fixedly connected with the first linkage rod; a first gear is fixedly connected to the outer surface of the upper part of the first sleeve rod; the inner part of the first sleeve rod is connected with the first prismatic rod; the outer surface of the first sleeve rod is connected with the bottom frame; the outer surface of the first sleeve rod is connected with an iron removal product component; the first gear is connected with the backfill component; the outer surface of the first prismatic rod is rotationally connected with the second sliding block; the outer surface of the first prismatic rod is fixedly connected with a first bevel gear; the second sliding block is in sliding connection with the second electric sliding rail; the second electric slide rail is connected with the underframe; a second bevel gear is arranged below the first bevel gear; the inner part of the second bevel gear is fixedly connected with the first screw rod; the outer surface of the first screw rod is in sliding connection with the third slide block; the outer surface of the first screw rod is rotationally connected with the first guide rail block; the lower part of the first guide rail block is connected with the bottom frame; the third sliding block is fixedly connected with the first storage box; the inside of the third slide block is connected with the first guide rail block in a sliding way.
Optionally, the first salvage component comprises a first motor, a first transmission rod, a third bevel gear, a fourth bevel gear, a second transmission rod, a first transmission wheel, a second transmission wheel, a third transmission rod, a first hopper, a fifth bevel gear, a fourth transmission rod, a third transmission wheel, a fourth transmission wheel, a fifth transmission rod, a second hopper and a first support frame; the lower part of the first motor is fixedly connected with the first transmission rod; the outer surface of the first transmission rod is rotationally connected with the first support frame; the outer surface of the lower part of the first transmission rod is fixedly connected with a third bevel gear; the lower part of the third bevel gear is sequentially meshed with a fourth bevel gear and a fifth bevel gear; the inner part of the fourth bevel gear is fixedly connected with the second transmission rod; the outer surface of the second transmission rod is rotationally connected with the first support frame; the outer surface of the second transmission rod is fixedly connected with the first transmission wheel; the outer ring surface of the first driving wheel is connected with the second driving wheel through a belt; the inner part of the second driving wheel is fixedly connected with a third driving rod; the outer surface of the third transmission rod is rotationally connected with the first support frame; the outer surface of the third transmission rod is fixedly connected with the first hopper; the first funnel is in contact with the second funnel; the inner part of the fifth bevel gear is fixedly connected with a fourth transmission rod; the outer surface of the fourth transmission rod is rotationally connected with the first support frame; the outer surface of the fourth transmission rod is fixedly connected with the third transmission wheel; the outer ring surface of the third driving wheel is connected with the fourth driving wheel through a belt; the inner part of the fourth driving wheel is fixedly connected with the fifth driving rod; the outer surface of the fifth transmission rod is rotationally connected with the first support frame; the outer surface of the fifth transmission rod is fixedly connected with the second hopper; the upper part of the first support frame is fixedly connected with the first multi-stage hydraulic rod.
Optionally, the iron removal product assembly comprises a second multistage hydraulic rod, a first electric magnet, a second motor, a second sleeve rod, a fifth transmission wheel, a sixth transmission wheel, a second ridge rod, a fourth sliding block, a third electric sliding rail, a sixth bevel gear, a seventh bevel gear, a second screw rod, a second guide rail block, a fifth sliding block and a second storage box; the lower part of the second multistage hydraulic rod is fixedly connected with the first electric magnet; a second motor is arranged on the side edge of the second multistage hydraulic rod; the upper part of the second multi-stage hydraulic rod is fixedly connected with the first linkage rod; the lower part of the second motor is fixedly connected with a second sleeve rod; the second motor is connected with the underframe; the outer surface of the second sleeve rod is fixedly connected with a fifth driving wheel; the inner part of the second sleeve rod is connected with the second prismatic rod; the outer surface of the second sleeve rod is connected with the underframe; the outer ring surface of the fifth driving wheel is connected with the sixth driving wheel through a belt; the interior of the sixth driving wheel is fixedly connected with the first sleeve rod; the outer surface of the second prismatic rod is rotationally connected with the fourth sliding block; the outer surface of the second prismatic rod is fixedly connected with a sixth bevel gear; the fourth sliding block is in sliding connection with the third electric sliding rail; the third electric sliding rail is connected with the underframe; a seventh bevel gear is arranged below the sixth bevel gear; the inner part of the seventh bevel gear is fixedly connected with the second screw rod; the outer surface of the second screw rod is rotationally connected with the second guide rail block; the outer surface of the second screw rod is in sliding connection with the fifth sliding block; the lower part of the second guide rail block is connected with the bottom frame; the fifth slide block is fixedly connected with the second storage box; the interior of the fifth slide block is connected with the second guide rail block in a sliding way.
Optionally, the backfill assembly comprises a third multistage hydraulic rod, a compaction assembly, a second gear, a third sleeve rod, a third prism, a sixth slider, a fourth electric slide rail, an eighth bevel gear, a ninth bevel gear, a third screw rod, a third guide rail block, a first linkage frame, a first push plate, a second push plate, a third storage box, a first electric push rod, a second electric push rod, a fourth storage box, a third electric push rod and a fourth electric push rod; the lower part of the third multi-stage hydraulic rod is connected with the compaction assembly; a second gear is arranged on the side edge of the third multi-stage hydraulic rod; the upper part of the third multi-stage hydraulic rod is fixedly connected with the first linkage rod; the inner part of the second gear is fixedly connected with the third sleeve rod; the second gear is meshed with the first gear; the inner part of the third sleeve rod is fixedly connected with the third prism; the outer surface of the third sleeve rod is connected with the underframe; the outer surface of the third prism is rotationally connected with the sixth sliding block; the outer surface of the third prism is fixedly connected with an eighth bevel gear; the sixth sliding block is in sliding connection with the fourth electric sliding rail; the fourth electric sliding rail is connected with the underframe; a ninth bevel gear is arranged below the eighth bevel gear; the inner part of the ninth bevel gear is fixedly connected with a third screw rod; the outer surface of the third screw rod is rotationally connected with the third guide rail block; the outer surface of the third screw rod is in sliding connection with the first linkage frame; the lower part of the third guide rail block is connected with the bottom frame; the inside of the first linkage frame is connected with the third guide rail block in a sliding way; the first linkage frame is fixedly connected with the first push plate and the second push plate in sequence; the first linkage frame is connected with the third storage box in a sliding mode; one side of the third storage box is fixedly connected with the first electric push rod, and the second electric push rod on the other side of the third storage box is fixedly connected; a fourth storage box is arranged on the side of the third storage box; the first electric push rod is connected with the underframe; the second electric push rod is connected with the underframe; the fourth storage box is fixedly connected with the third electric push rod and the fourth electric push rod in sequence; the third electric push rod is connected with the underframe; the fourth electric push rod is connected with the underframe.
Optionally, the compacting assembly comprises a first linkage plate, a second linkage rod, a first pressing block, a third linkage rod, a fourth linkage rod, a first spring, a second spring and a first annular pressing block; the lower part of the first linkage plate is in bone connection with the second linkage rod; the lower part of the first linkage plate is fixedly connected with a first spring; the lower part of the first linkage plate is fixedly connected with a second spring; the inner part of the first linkage plate is connected with the third linkage rod in a sliding way; the inner part of the first linkage plate is connected with the fourth linkage rod in a sliding manner; the upper part of the first linkage plate is fixedly connected with the first linkage rod; the lower part of the second linkage rod is fixedly connected with the first pressing block; the lower part of the third linkage rod is fixedly connected with the first circular pressing block; the lower part of the fourth linkage rod is fixedly connected with the first circular pressing block; the lower part of the first spring is fixedly connected with the first circular pressing block; the lower part of the second spring is fixedly connected with the first circular pressing block.
Optionally, the radius of the inner circular surface of the first funnel is equal to the radius of the outer circular surface of the second funnel.
Optionally, the inside equidistance of third receiver is provided with semi-circular ring groove, and the inside equidistance of fourth receiver is provided with semi-circular ring groove.
Optionally, the first pressing block is in a truncated cone shape, and a circular ring inclined plane is arranged on the inner side of the upper portion of the first circular pressing block.
The invention has the following advantages:
(1) in order to solve the problems that in the prior art, tap water in rural areas is more and more popularized, a large amount of shallow wells are abandoned and stopped to be used, garbage falls into abandoned wells along with the lapse of time, wood plastic bottles float on the water surface, iron products sink into the bottoms of the wells to cause water in the wells to be polluted, backfill treatment is carried out at the moment, when workers backfill the wells, the garbage floating on the water surface needs to be removed, then well water is pumped out, then the iron products at the bottoms of the wells are removed, then soil is backfilled into the wells, the operation process is complicated, the efficiency is low, meanwhile, when the workers remove the garbage on the water surface, the water surface in the wells is deeper from the ground, the workers need to enter the wells for construction, even if the workers wear safety ropes, the workers still slide into the upper parts of the water layers carelessly, the water choking phenomenon occurs, water in the abandoned wells is seriously polluted, and the water enters the bodies of the, there is very big potential safety hazard, in addition, when artifical backfill earth, because of the well is darker, can appear the backfill earth and loosen the caving phenomenon, lead to the unstable problem of structure.
(2) Designing a floater removing component, a deironing product component and a backfilling component; when the device is prepared for working, the device is placed above a waste water well, a power supply is switched on, then a control screen control device on a bottom frame is controlled to start to operate, part of assemblies except flotage assemblies enter the water well and are positioned above the water surface, then the flotage assemblies are fished out of garbage floating on the water surface and collect the garbage, then water in the waste water well is pumped out, then a first electric slide rail drives a first slide block to drive a first linkage rod to move, the first linkage rod drives part of assemblies except iron product assemblies to move to be right above the water well, then part of assemblies except iron product assemblies enter the bottom of the water well, iron products at the bottom of the water well are taken away from the water well, then the iron product assemblies are used for collecting waste iron, then the first linkage rod drives part of assemblies of a backfill assembly to move to be right above the water well, then a backfill assembly pours uniform soil into the water well, and tamps the soil when a certain soil backfill assembly is, until the well is filled.
(3) When the invention is used, the garbage on the water surface of the waste water well is automatically removed and collected, then the waste iron at the bottom of the water well is removed and collected, then soil is uniformly poured into the water well, and the soil is tamped after a certain amount of soil is poured, thereby enhancing the structural stability and greatly improving the efficiency.
Drawings
FIG. 1 is a schematic perspective view of a first embodiment of the present invention;
FIG. 2 is a schematic perspective view of a second embodiment of the present invention;
FIG. 3 is a schematic perspective view of the float removal assembly of the present invention;
FIG. 4 is a schematic perspective view of a first salvage assembly of the present invention;
FIG. 5 is a schematic perspective view of an assembly for removing iron articles according to the present invention;
FIG. 6 is a schematic perspective view of a backfill assembly according to the present invention;
fig. 7 is a perspective view of a compaction kit according to the invention.
The meaning of the reference symbols in the figures: 1: chassis, 2: float removal assembly, 3: iron-removing product component, 4: backfill component, 5: control screen, 6: first electronic slide rail, 7: first slider, 8: first linkage rod, 201: first multistage hydraulic lever, 202: first bailing assembly, 203: first loop bar, 204: first gear, 205: first prism bar, 206: second slider, 207: second electric slide, 208: first bevel gear, 209: second bevel gear, 2010: first lead screw, 2011: first rail block, 2012: third slider, 2013: first storage cassette, 20201: first motor, 20202: first drive lever, 20203: third bevel gear, 20204: fourth bevel gear, 20205: second transmission rod, 20206: first drive wheel, 20207: second transmission wheel, 20208: third transmission rod, 20209: first hopper, 20210: fifth bevel gear, 20211: fourth transmission rod, 20212: third transmission wheel, 20213: fourth transmission wheel, 20214: fifth transmission rod, 20215: second hopper, 20216: first support frame, 301: second multi-stage hydraulic lever, 302: first electromagnet, 303: second motor, 304: second loop bar, 305: fifth transmission wheel, 306: sixth transmission wheel, 307: second prism bar, 308: fourth slider, 309: third electric slide, 3010: sixth bevel gear, 3011: seventh bevel gear, 3012: second lead screw, 3013: second rail block, 3014: fifth slider, 3015: second storage box, 401: third multi-stage hydraulic lever, 402: compacting assembly, 403: second gear, 404: third loop bar, 405: third prism, 406: sixth slider, 407: fourth electric slide rail, 408: eighth bevel gear, 409: ninth bevel gear, 4010: third screw, 4011: third rail block, 4012: first link, 4013: first push plate, 4014: second push plate, 4015: third receiver box, 4016: first electric putter, 4017: second electric push rod, 4018: fourth receiver box, 4019: third electric pusher, 4020: fourth electric putter, 40201: first linkage plate, 40202: second linkage rod, 40203: first briquette, 40204: third link, 40205: fourth linkage rod, 40206: first spring, 40207: second spring, 40208: the first ring pressing block.
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. It is only noted that the invention is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the invention.
Example 1
A waste water well treatment device capable of tamping backfilled soil is shown in figures 1-7 and comprises a bottom frame 1, a floater removing assembly 2, an iron removing product assembly 3, a backfilling assembly 4, a control screen 5, a first electric slide rail 6, a first slide block 7 and a first linkage rod 8; the underframe 1 is connected with the floater removing assembly 2; the underframe 1 is connected with the iron removal product component 3; the underframe 1 is connected with a backfill component 4; the upper part of the underframe 1 is connected with a control screen 5; the underframe 1 is connected with a first electric slide rail 6; the floater removing component 2 is connected with the iron removing product component 3; the floater removing assembly 2 is connected with the backfilling assembly 4; the floater removing component 2 is connected with a first linkage rod 8; the iron removal product component 3 is connected with a first linkage rod 8; the backfill component 4 is connected with the first linkage rod 8; the first electric slide rail 6 is connected with the first slide block 7 in a sliding way; the lower part of the first sliding block 7 is fixedly connected with a first linkage rod 8.
The working principle is as follows: when the device is prepared for work, the device is placed above a waste water well, a power supply is switched on, then a control screen 5 on a bottom frame 1 is controlled to control the device to start to operate, part of assemblies of a floater removing assembly 2 enter the water well and are positioned above the water surface, then the floater removing assembly 2 is used for fishing out garbage floating on the water surface and collecting the garbage, then water in the waste water well is pumped out, then a first electric slide rail 6 drives a first slide block 7 to drive a first linkage rod 8 to move, the first linkage rod 8 drives part of assemblies of an iron removing product assembly 3 to move to be right above the water well, then part of assemblies of the iron removing product assembly 3 enter the bottom of the water well, iron products at the bottom of the water well are taken away from the water well, then the iron removing product assembly 3 is used for collecting waste iron, then the first linkage rod 8 drives part of assemblies of a backfill assembly 4 to move to be right above the water well, and then the backfill assembly 4, when the invention is used, the garbage on the water surface of the waste water well is automatically removed and collected, then the waste iron at the bottom of the water well is removed and collected, then the soil is uniformly poured into the water well, and the soil is tamped after a certain amount of soil is poured, thereby enhancing the structural stability and greatly improving the efficiency.
The floater removing assembly 2 comprises a first multi-stage hydraulic rod 201, a first salvage assembly 202, a first sleeve rod 203, a first gear 204, a first ridge rod 205, a second sliding block 206, a second electric sliding rail 207, a first bevel gear 208, a second bevel gear 209, a first screw rod 2010, a first guide rail block 2011, a third sliding block 2012 and a first storage box 2013; the lower part of the first multi-stage hydraulic rod 201 is connected with a first dredging component 202; a first sleeve rod 203 is arranged below the side edge of the first multi-stage hydraulic rod 201; the upper part of the first multi-stage hydraulic rod 201 is fixedly connected with the first linkage rod 8; a first gear 204 on the outer surface of the upper part of the first sleeve rod 203 is fixedly connected; the first sleeve rod 203 is internally connected with a first prismatic rod 205; the outer surface of the first loop bar 203 is connected with the underframe 1; the outer surface of the first loop bar 203 is connected with an iron removal product component 3; the first gear 204 is connected with the backfill component 4; the outer surface of the first prismatic rod 205 is rotatably connected with the second sliding block 206; the outer surface of the first prismatic rod 205 is fixedly connected with a first bevel gear 208; the second sliding block 206 is connected with a second electric sliding rail 207 in a sliding manner; the second electric slide rail 207 is connected with the chassis 1; a second bevel gear 209 is arranged below the first bevel gear 208; the inner part of the second bevel gear 209 is fixedly connected with a first screw 2010; the outer surface of the first screw 2010 is in sliding connection with the third slider 2012; the outer surface of the first lead screw 2010 is rotatably connected with a first guide rail block 2011; the lower part of the first guide rail block 2011 is connected with the underframe 1; the third slider 2012 is fixedly connected with the first storage box 2013; the inside of the third slider 2012 is slidably connected to the first rail block 2011.
When the device is ready to work, the device is placed above a waste well, the first fishing component 202 is positioned right above the waste well, then the first multistage hydraulic rod 201 drives the first fishing component 202 to enter the well, the first fishing component 202 is positioned above the water surface, then the garbage floating on the water surface is collected, then the first multistage hydraulic rod 201 drives the first fishing component 202 to move back to the original position, the first fishing component 202 takes the garbage on the water surface out of the well, then the sixth driving wheel 306 drives the first sleeve rod 203 to drive the first gear 204 to rotate, the first sleeve rod 203 drives the first ridge rod 205 to drive the first bevel gear 208 to rotate, then the second electric sliding rail 207 drives the second sliding block 206 to move downwards, the second sliding block 206 drives the first ridge rod 205 to drive the first bevel gear 208 to move downwards, the first bevel gear 208 is meshed with the second bevel gear 209, then the first bevel gear 208 drives the second bevel gear 2010 to drive the first lead screw 209 to rotate, the first screw 2010 drives the third sliding block 2012 to move towards the first fishing component 202 on the first guide rail block 2011, so that the third sliding block 2012 drives the first storage box 2013 to move to a position under the first fishing component 202, then the first fishing component 202 puts garbage into the first storage box 2013, then the sixth driving wheel 306 rotates reversely, so that the first storage box 2013 moves back to the original position, then the second electric sliding rail 207 drives the second sliding block 206 to move upwards to the original position, so that the first bevel gear 208 and the second bevel gear 209 stop meshing with each other, and when the garbage collecting device is used, the garbage floating on the water surface of the well is automatically removed and collected.
According to the invention, the first fishing assembly 202 comprises a first motor 20201, a first transmission rod 20202, a third bevel gear 20203, a fourth bevel gear 20204, a second transmission rod 20205, a first transmission wheel 20206, a second transmission wheel 20207, a third transmission rod 20208, a first hopper 20209, a fifth bevel gear 20210, a fourth transmission rod 20211, a third transmission wheel 20212, a fourth transmission wheel 20213, a fifth transmission rod 20214, a second hopper 20215 and a first support frame 20216; the lower part of the first motor 20201 is fixedly connected with the first transmission rod 20202; the outer surface of the first transmission rod 20202 is rotatably connected with the first support 20216; the outer surface of the lower part of the first transmission rod 20202 is fixedly connected with a third bevel gear 20203; the lower part of the third bevel gear 20203 is meshed with a fourth bevel gear 20204 and a fifth bevel gear 20210 in sequence; the inside of the fourth bevel gear 20204 is fixedly connected with a second transmission rod 20205; the outer surface of the second transmission rod 20205 is rotationally connected with the first support 20216; the outer surface of the second transmission rod 20205 is fixedly connected with the first transmission wheel 20206; the outer ring surface of the first transmission wheel 20206 is connected with the second transmission wheel 20207 through a belt; the inside of the second driving wheel 20207 is fixedly connected with a third driving rod 20208; the outer surface of the third transmission rod 20208 is rotatably connected with the first support 20216; the outer surface of the third transmission rod 20208 is fixedly connected with the first hopper 20209; the first funnel 20209 is in contact with the second funnel 20215; the interior of the fifth bevel gear 20210 is fixedly connected with a fourth transmission rod 20211; the outer surface of the fourth transmission rod 20211 is rotatably connected with the first support 20216; the outer surface of the fourth transmission rod 20211 is fixedly connected with the third transmission wheel 20212; the outer annular surface of the third driving wheel 20212 is connected with the fourth driving wheel 20213 through a belt; the interior of the fourth driving wheel 20213 is fixedly connected with a fifth driving rod 20214; the outer surface of the fifth transmission rod 20214 is rotatably connected with the first support 20216; the outer surface of the fifth transmission rod 20214 is fixedly connected with the second hopper 20215; the upper part of the first support 20216 is fixedly connected to the first multi-stage hydraulic rod 201.
When the first fishing assembly 202 is located above the water surface, the first motor 20201 on the first support frame 20216 drives the first transmission rod 20202 to drive the third bevel gear 20203 to rotate, the third bevel gear 20203 drives the fourth bevel gear 20204 and the fifth bevel gear 20210 to rotate at the same time, the fourth bevel gear 20204 drives the second transmission rod 20205 to drive the first transmission wheel 20206 to rotate, the first transmission wheel 20206 drives the second transmission wheel 20207 to drive the third transmission rod 20208 to rotate, the third transmission rod 20208 drives the first funnel 20209 to rotate, the fifth bevel gear 20210 drives the fourth transmission rod 20211 to drive the third transmission wheel 20212 to rotate, the third transmission wheel 20212 drives the fourth transmission wheel 20213 to drive the fifth transmission rod 20214 to rotate, the fifth transmission rod 20214 drives the second funnel 20215 to rotate, at this time, the rotation directions of the first funnel 20209 and the second funnel 20215 are opposite, the first funnel 20209 and the second funnel 20215 both rotate by one hundred and thirty-five degrees, so that the first funnel 20209 and the second funnel 20215 are combined to present a bowl shape, and the opening is located the top, and first funnel 20209 and second funnel 20215 all are located the surface of water lower part this moment, and the rubbish of surface of water is located first funnel 20209 and second funnel 20215 top, then first fishing subassembly 202 moves back the normal position, and when first receiver 2013 moved to under first fishing subassembly 202, first motor 20201 reversed, made first funnel 20209 and second funnel 20215 move back the normal position to make rubbish pour into first receiver 2013, realized collecting the rubbish on the surface of water during the use, the structure is simplified, and the maintenance is simple.
The iron removal product component 3 comprises a second multi-stage hydraulic rod 301, a first electric magnet 302, a second motor 303, a second loop bar 304, a fifth driving wheel 305, a sixth driving wheel 306, a second ridge bar 307, a fourth sliding block 308, a third electric sliding rail 309, a sixth bevel gear 3010, a seventh bevel gear 3011, a second lead screw 3012, a second guide rail block 3013, a fifth sliding block 3014 and a second storage box 3015; the lower part of the second multi-stage hydraulic rod 301 is fixedly connected with the first electric magnet 302; a second motor 303 is arranged on the side edge of the second multi-stage hydraulic rod 301; the upper part of the second multi-stage hydraulic rod 301 is fixedly connected with the first linkage rod 8; the lower part of the second motor 303 is fixedly connected with a second sleeve rod 304; the second motor 303 is connected with the underframe 1; the outer surface of the second loop bar 304 is fixedly connected with a fifth driving wheel 305; the second sleeve rod 304 is internally connected with a second prismatic rod 307; the outer surface of the second loop bar 304 is connected with the underframe 1; the outer annular surface of the fifth driving wheel 305 is connected with a sixth driving wheel 306 through a belt; the interior of the sixth driving wheel 306 is fixedly connected with the first sleeve rod 203; the outer surface of the second prismatic rod 307 is rotatably connected with the fourth sliding block 308; the outer surface of the second prismatic rod 307 is fixedly connected with a sixth bevel gear 3010; the fourth slider 308 is connected with the third electric slide rail 309 in a sliding manner; the third electric slide rail 309 is connected with the chassis 1; a seventh bevel gear 3011 is arranged below the sixth bevel gear 3010; the inside of the seventh bevel gear 3011 is fixedly connected to the second lead screw 3012; the outer surface of the second lead screw 3012 is rotatably connected with the second guide rail block 3013; the outer surface of the second lead screw 3012 is in sliding connection with the fifth slider 3014; the lower part of the second guide rail block 3013 is connected with the underframe 1; the fifth slider 3014 is fixedly connected to the second storage box 3015; the fifth slider 3014 is connected to the second rail block 3013 in a sliding manner.
After the floater removing component 2 removes the garbage on the water surface, water in the well is pumped, then the first linkage rod 8 drives the second multistage hydraulic rod 301 to move right above the well, then the second multistage hydraulic rod 301 drives the first electric magnet 302 to move downwards to the bottom of the well, then the first electric magnet 302 sucks up the iron product at the bottom of the well, then the second multistage hydraulic rod 301 drives the first electric magnet 302 to move upwards to the upper side of the well, so that the first electric magnet 302 takes the iron product out of the well, then the first linkage rod 8 drives the second multistage hydraulic rod 301 to drive the first electric magnet 302 to move to the side of the second storage box 3015, then the second motor 303 drives the second sleeve rod 304 to drive the second ridge rod 307 to rotate, the second ridge rod 307 drives the sixth bevel gear 3010 to rotate, the second sleeve rod 304 drives the fifth driving wheel 305 to drive the sixth driving wheel 306 to rotate, then the third electric slide rail 309 drives the fourth slide block 308 to move downwards, the fourth sliding block 308 drives the second prismatic bar 307 to drive the sixth bevel gear 3010 to move downwards, so that the sixth bevel gear 3010 is meshed with the seventh bevel gear 3011, then the sixth bevel gear 3010 drives the seventh bevel gear 3011 to drive the second lead screw 3012 to rotate, the second lead screw 3012 drives the fifth sliding block 3014 to slide on the second guide rail block 3013, so that the fifth sliding block 3014 drives the second storage box 3015 to move to the position below the first electric magnet 302, then the first electric magnet 302 puts the scrap iron into the second storage box 3015, then the second motor 303 rotates reversely, so that the second storage box 3015 moves back to the original position, then the third electric sliding rail 309 drives the fourth sliding block 308 to move back to the original position, so that the sixth bevel gear 3010 and the seventh bevel gear 3011 stop being meshed, so that when in use, the scrap iron at the bottom of the water well is automatically removed and collected.
The backfill component 4 comprises a third multistage hydraulic rod 401, a compaction component 402, a second gear 403, a third sleeve rod 404, a third prism 405, a sixth slider 406, a fourth electric slide rail 407, an eighth bevel gear 408, a ninth bevel gear 409, a third screw 4010, a third guide rail block 4011, a first linkage frame 4012, a first push plate 4013, a second push plate 4014, a third storage box 4015, a first electric push rod 4016, a second electric push rod 4017, a fourth storage box 4018, a third electric push rod 4019 and a fourth electric push rod 4020; a compacting assembly 402 is connected below the third multi-stage hydraulic rod 401; a second gear 403 is arranged on the side edge of the third multistage hydraulic rod 401; the upper part of the third multi-stage hydraulic rod 401 is fixedly connected with the first linkage rod 8; the inside of the second gear 403 is fixedly connected with the third sleeve rod 404; the second gear 403 is meshed with the first gear 204; the inside of the third sleeve rod 404 is fixedly connected with a third prism 405; the outer surface of the third loop bar 404 is connected with the underframe 1; the outer surface of the third prism 405 is rotatably connected with the sixth slider 406; the outer surface of the third prism 405 is fixedly connected with an eighth bevel gear 408; the sixth sliding block 406 is connected with the fourth electric sliding rail 407 in a sliding manner; the fourth electric slide rail 407 is connected with the chassis 1; a ninth bevel gear 409 is arranged below the eighth bevel gear 408; the interior of the ninth bevel gear 409 is fixedly connected with a third screw 4010; the outer surface of the third screw rod 4010 is rotatably connected with a third guide rail block 4011; the outer surface of the third screw 4010 is in sliding connection with the first linkage frame 4012; the lower part of the third guide rail block 4011 is connected with the underframe 1; the inside of the first linkage frame 4012 is connected with the third guide rail block 4011 in a sliding way; the first linkage frame 4012 is fixedly connected with the first push plate 4013 and the second push plate 4014 in sequence; the first linkage frame 4012 is slidably connected to the third storage box 4015; one side of the third storage box 4015 is fixedly connected to the first electric push rod 4016, and the other side of the third storage box 4015 is fixedly connected to the second electric push rod 4017; a fourth storage box 4018 is arranged on the side of the third storage box 4015; the first electric push rod 4016 is connected with the underframe 1; the second electric push rod 4017 is connected with the underframe 1; the fourth storage box 4018 is fixedly connected with a third electric push 4019 rod and a fourth electric push rod 4020 in sequence; the third electric push 4019 rod is connected with the underframe 1; the fourth electric push bar 4020 is connected to the chassis 1.
When the iron removing product component 3 removes the scrap iron at the bottom of the water well, the first linkage rod 8 drives the third multi-stage hydraulic rod 401 to move to the position right above the water well, the third multi-stage hydraulic rod 401 drives the compacting component 402 to move to the position right above the water well, then the third multi-stage hydraulic rod 401 drives the compacting component 402 to move to the bottom of the water well, then the third electric push 4019 rod and the fourth electric push rod 4020 simultaneously perform telescopic motion to drive the fourth storage box 4018 to move, the first electric push rod 4016 and the second electric push rod 4017 simultaneously perform telescopic motion to drive the third storage box 4015 to move, so that the third storage box 4015 and the fourth storage box 4018 move in opposite directions until the third storage box 4015 and the fourth storage box are contacted, then soil is poured into the third storage box 4015 and the fourth storage box 4018, then the first gear 204 drives the second gear 403 to drive the third sleeve rod 404 to rotate, the third sleeve 404 drives the third prism 405 to drive the eighth bevel, then a fourth electric slide rail 407 drives a sixth slide block 406 to move downwards, the sixth slide block 406 drives a third prism 405 to drive an eighth bevel gear 408 to move downwards, so that the eighth bevel gear 408 is meshed with a ninth bevel gear 409, then the eighth bevel gear 408 drives a ninth bevel gear 409 to drive a third screw 4010 to rotate, the third screw 4010 drives a first linkage rack 4012 to slide on a third guide rail block 4011, the first linkage rack 4012 drives a first push plate 4013 and a second push plate 4014 to move away from the ninth bevel gear 409, so that the first push plate 4013 and the second push plate 4014 push soil in a third storage box 4015 and a fourth storage box 4018, the soil uniformly falls into a water well from through holes of the third 4015 and the fourth storage box 4018, the soil slides into the bottom of the water well through a compacting assembly 402, then a third multi-stage hydraulic rod 401 drives the compacting assembly 402 to reciprocate up and down to compact the soil, and then the water well storage box is filled up by repeating the operations, when in use, the soil is evenly poured into the water well, and the soil is tamped after a certain amount of soil is poured, so that the structural stability is enhanced.
According to the invention, the compacting assembly 402 comprises a first linkage plate 40201, a second linkage rod 40202, a first pressing block 40203, a third linkage rod 40204, a fourth linkage rod 40205, a first spring 40206, a second spring 40207 and a first annular pressing block 40208; the lower part of the first linkage plate 40201 is in bone connection with a second linkage rod 40202; the lower part of the first linkage plate 40201 is fixedly connected with a first spring 40206; the lower part of the first linkage plate 40201 is fixedly connected with a second spring 40207; the inside of the first linkage plate 40201 is connected with a third linkage rod 40204 in a sliding manner; the inside of the first linkage plate 40201 is connected with a fourth linkage rod 40205 in a sliding manner; the upper part of the first linkage plate 40201 is fixedly connected with a first linkage rod 8; the lower part of the second linkage rod 40202 is fixedly connected with a first pressing block 40203; the lower part of the third linkage rod 40204 is fixedly connected with a first annular pressing block 40208; the lower part of the fourth linkage rod 40205 is fixedly connected with a first annular pressing block 40208; the lower part of the first spring 40206 is fixedly connected with a first annular pressing block 40208; the lower part of the second spring 40207 is fixedly connected with a first annular pressing block 40208.
When soil falls into a well, the soil slides from the first pressing block 40203 to the first annular pressing block 40208, then slides from the first annular pressing block 40208 to the bottom of the well, then the third multi-stage hydraulic rod 401 drives the compacting assembly 402 to reciprocate up and down, at the moment, the compacting assembly 402 moves downwards, the first annular pressing block 40208 compacts the soil extending out of the well, then the first linkage plate 40201 drives the second linkage rod 40202 to drive the first pressing block 40203 to move downwards, so that the first pressing block 40203 compacts the soil in the middle of the bottom of the well, in the process, the first linkage plate 40201 compresses the first spring 40206 and the second spring 40207, the first linkage plate 40201 slides on the third linkage rod 40204 and the fourth linkage rod 40205, when the compacting assembly 402 moves upwards, the first spring 40206 and the second spring 40207 simultaneously drive the third linkage rod 40204, the fourth linkage rod 40205 and the first annular pressing block 40208 to move downwards, so that the first annular pressing block 40208 is separated from the first annular pressing block 40208, so that the soil falling from the back can slide into the bottom of the well from the first ring pressing block 40208, and then the well is filled by repeating the operation, so that the soil is transported to the bottom of the well and tamped when in use.
In the invention, the radius of the inner circle surface of the first funnel 20209 is equal to the radius of the outer circle surface of the second funnel 20215.
The first and second hoppers 20209 and 20215 can be rotated without interference.
In the invention, the third storage box 4015 is provided with semi-circular grooves at equal intervals, and the fourth storage box 4018 is provided with semi-circular grooves at equal intervals.
The mud can be evenly dropped into the water well through the groove.
In the invention, the first pressing block 40203 is in a cone frustum shape, and the inner side of the upper part of the first circular pressing block 40208 is provided with a circular inclined surface.
When the soil falls to the upper part of the first pressing block 40203, the soil slides to the upper part of the first circular pressing block 40208, and then slides to the bottom of the well from the inclined surface of the first circular pressing block 40208.
While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims (9)

1. A waste water well treatment device capable of tamping backfilled soil comprises a control screen (5), a first electric slide rail (6), a first slide block (7) and a first linkage rod (8); the device is characterized by also comprising a bottom frame (1), a floater removing component (2), an iron removing product component (3) and a backfilling component (4); the underframe (1) is connected with the floater removing component (2); the underframe (1) is connected with the iron removal product component (3); the bottom frame (1) is connected with a backfill component (4); the upper part of the bottom frame (1) is connected with a control screen (5); the underframe (1) is connected with a first electric slide rail (6); the floater removing component (2) is connected with the iron removing product component (3); the floater removing assembly (2) is connected with the backfilling assembly (4); the floater removing component (2) is connected with a first linkage rod (8); the iron removal product component (3) is connected with a first linkage rod (8); the backfill component (4) is connected with the first linkage rod (8); the first electric slide rail (6) is in sliding connection with the first slide block (7); the lower part of the first sliding block (7) is fixedly connected with a first linkage rod (8).
2. The waste water well treatment device capable of compacting the backfill soil according to claim 1, wherein the floater removing assembly (2) comprises a first multi-stage hydraulic rod (201), a first fishing assembly (202), a first loop bar (203), a first gear (204), a first ridge bar (205), a second sliding block (206), a second electric sliding rail (207), a first bevel gear (208), a second bevel gear (209), a first screw rod (2010), a first guide rail block (2011), a third sliding block (2012) and a first storage box (2013); the lower part of the first multi-stage hydraulic rod (201) is connected with a first dredging component (202); a first loop bar (203) is arranged below the side edge of the first multi-stage hydraulic rod (201); the upper part of the first multi-stage hydraulic rod (201) is fixedly connected with a first linkage rod (8); a first gear (204) is fixedly connected to the outer surface of the upper part of the first loop bar (203); the inner part of the first loop bar (203) is connected with the first prismatic bar (205); the outer surface of the first loop bar (203) is connected with the chassis (1); the outer surface of the first loop bar (203) is connected with an iron removal product component (3); the first gear (204) is connected with the backfill component (4); the outer surface of the first prismatic rod (205) is rotationally connected with the second sliding block (206); the outer surface of the first prismatic rod (205) is fixedly connected with a first bevel gear (208); the second sliding block (206) is in sliding connection with the second electric sliding rail (207); the second electric sliding rail (207) is connected with the underframe (1); a second bevel gear (209) is arranged below the first bevel gear (208); the inner part of the second bevel gear (209) is fixedly connected with a first screw rod (2010); the outer surface of the first screw rod (2010) is in sliding connection with the third sliding block (2012); the outer surface of the first screw rod (2010) is rotationally connected with a first guide rail block (2011); the lower part of the first guide rail block (2011) is connected with the bottom frame (1); the third slider (2012) is fixedly connected with the first storage box (2013); the inside of the third slide block (2012) is connected with the first guide rail block (2011) in a sliding way.
3. The abandoned water well treatment device capable of compacting the backfilling soil according to the claim 2, wherein the first fishing component (202) comprises a first motor (20201), a first transmission rod (20202), a third bevel gear (20203), a fourth bevel gear (20204), a second transmission rod (20205), a first transmission wheel (20206), a second transmission wheel (20207), a third transmission rod (20208), a first hopper (20209), a fifth bevel gear (20210), a fourth transmission rod (20211), a third transmission wheel (20212), a fourth transmission wheel (20213), a fifth transmission rod (20214), a second hopper (20215) and a first supporting frame (20216); the lower part of the first motor (20201) is fixedly connected with the first transmission rod (20202); the outer surface of the first transmission rod (20202) is rotationally connected with the first support frame (20216); the outer surface of the lower part of the first transmission rod (20202) is fixedly connected with a third bevel gear (20203); the lower part of the third bevel gear (20203) is meshed with the fourth bevel gear (20204) and the fifth bevel gear (20210) in sequence; the inner part of the fourth bevel gear (20204) is fixedly connected with a second transmission rod (20205); the outer surface of the second transmission rod (20205) is rotationally connected with the first support frame (20216); the outer surface of the second transmission rod (20205) is fixedly connected with the first transmission wheel (20206); the outer ring surface of the first transmission wheel (20206) is connected with the second transmission wheel (20207) through a belt; the inside of the second driving wheel (20207) is fixedly connected with a third driving rod (20208); the outer surface of the third transmission rod (20208) is rotationally connected with the first support frame (20216); the outer surface of the third transmission rod (20208) is fixedly connected with the first hopper (20209); the first funnel (20209) is in contact with the second funnel (20215); the interior of the fifth bevel gear (20210) is fixedly connected with a fourth transmission rod (20211); the outer surface of the fourth transmission rod (20211) is rotationally connected with the first support frame (20216); the outer surface of the fourth transmission rod (20211) is fixedly connected with the third transmission wheel (20212); the outer annular surface of the third driving wheel (20212) is connected with a fourth driving wheel (20213) through a belt; the inner part of the fourth driving wheel (20213) is fixedly connected with a fifth driving rod (20214); the outer surface of the fifth transmission rod (20214) is rotationally connected with the first support frame (20216); the outer surface of the fifth transmission rod (20214) is fixedly connected with the second hopper (20215); the upper part of the first support frame (20216) is fixedly connected with a first multistage hydraulic rod (201).
4. The waste water well treatment device capable of compacting the backfilled soil according to claim 3, wherein the iron removing component (3) comprises a second multistage hydraulic rod (301), a first electric magnet (302), a second motor (303), a second loop bar (304), a fifth transmission wheel (305), a sixth transmission wheel (306), a second ridge bar (307), a fourth sliding block (308), a third electric sliding rail (309), a sixth bevel gear (3010), a seventh bevel gear (3011), a second lead screw (3012), a second guide rail block (3013), a fifth sliding block (3014) and a second storage box (3015); the lower part of the second multi-stage hydraulic rod (301) is fixedly connected with the first electric magnet (302); a second motor (303) is arranged on the side edge of the second multi-stage hydraulic rod (301); the upper part of the second multi-stage hydraulic rod (301) is fixedly connected with the first linkage rod (8); the lower part of the second motor (303) is fixedly connected with a second loop bar (304); the second motor (303) is connected with the underframe (1); the outer surface of the second loop bar (304) is fixedly connected with a fifth driving wheel (305); the inside of the second sleeve rod (304) is connected with a second prismatic rod (307); the outer surface of the second loop bar (304) is connected with the underframe (1); the outer ring surface of the fifth driving wheel (305) is connected with a sixth driving wheel (306) through a belt; the interior of the sixth driving wheel (306) is fixedly connected with the first loop bar (203); the outer surface of the second prismatic rod (307) is rotationally connected with the fourth sliding block (308); the outer surface of the second prismatic rod (307) is fixedly connected with a sixth bevel gear (3010); the fourth sliding block (308) is in sliding connection with the third electric sliding rail (309); the third electric sliding rail (309) is connected with the underframe (1); a seventh bevel gear (3011) is arranged below the sixth bevel gear (3010); the interior of the seventh bevel gear (3011) is fixedly connected with a second screw rod (3012); the outer surface of the second screw rod (3012) is rotatably connected with a second guide rail block (3013); the outer surface of the second screw rod (3012) is in sliding connection with a fifth sliding block (3014); the lower part of the second guide rail block (3013) is connected with the underframe (1); the fifth sliding block (3014) is fixedly connected with the second storage box (3015); the interior of the fifth slide block (3014) is connected with the second guide rail block (3013) in a sliding way.
5. The waste water well treatment device capable of compacting the backfilled soil according to claim 4, wherein the backfilling component (4) comprises a third multi-stage hydraulic rod (401), a compacting component (402), a second gear (403), a third sleeve rod (404), a third prism rod (405), a sixth slider (406), a fourth electric slide rail (407), an eighth bevel gear (408), a ninth bevel gear (409), a third screw rod (4010), a third guide rail block (4011), a first linkage frame (4012), a first push plate (4013), a second push plate (4014), a third storage box (4015), a first electric push rod (4016), a second electric push rod (4017), a fourth storage box (4018), a third electric push rod (4019) and a fourth electric push rod (4020); the lower part of the third multi-stage hydraulic rod (401) is connected with the compacting assembly (402); a second gear (403) is arranged on the side edge of the third multi-stage hydraulic rod (401); the upper part of the third multi-stage hydraulic rod (401) is fixedly connected with the first linkage rod (8); the inner part of the second gear (403) is fixedly connected with the third loop bar (404); the second gear (403) is meshed with the first gear (204); the inner part of the third sleeve rod (404) is fixedly connected with a third prism (405); the outer surface of the third loop bar (404) is connected with the underframe (1); the outer surface of the third prism (405) is rotationally connected with the sixth sliding block (406); the outer surface of the third prism (405) is fixedly connected with an eighth bevel gear (408); the sixth sliding block (406) is in sliding connection with a fourth electric sliding rail (407); the fourth electric sliding rail (407) is connected with the underframe (1); a ninth bevel gear (409) is arranged below the eighth bevel gear (408); the interior of the ninth bevel gear (409) is fixedly connected with a third screw rod (4010); the outer surface of the third screw rod (4010) is rotationally connected with a third guide rail block (4011); the outer surface of the third screw rod (4010) is in sliding connection with the first linkage frame (4012); the lower part of the third guide rail block (4011) is connected with the underframe (1); the inside of the first linkage frame (4012) is connected with the third guide rail block (4011) in a sliding way; the first linkage frame (4012) is fixedly connected with the first push plate (4013) and the second push plate (4014) in sequence; the first linkage frame (4012) is connected with the third storage box (4015) in a sliding manner; one side of the third storage box (4015) is fixedly connected with the first electric push rod (4016), and the other side of the third storage box (4015) is fixedly connected with the second electric push rod (4017); a fourth storage box (4018) is arranged on the side of the third storage box (4015); the first electric push rod (4016) is connected with the underframe (1); the second electric push rod (4017) is connected with the underframe (1); the fourth storage box (4018) is fixedly connected with a third electric push rod (4019) and a fourth electric push rod (4020) in sequence; the third electric push (4019) rod is connected with the underframe (1); the fourth electric push rod (4020) is connected with the bottom frame (1).
6. The abandoned water well treatment device capable of compacting the backfilling soil according to the claim 5, wherein the compacting assembly (402) comprises a first linkage plate (40201), a second linkage rod (40202), a first pressing block (40203), a third linkage rod (40204), a fourth linkage rod (40205), a first spring (40206), a second spring (40207) and a first annular pressing block (40208); the lower part of the first linkage plate (40201) is in bone connection with a second linkage rod (40202); the lower part of the first linkage plate (40201) is fixedly connected with a first spring (40206); the lower part of the first linkage plate (40201) is fixedly connected with a second spring (40207); the inside of the first linkage plate (40201) is connected with a third linkage rod (40204) in a sliding manner; the inside of the first linkage plate (40201) is in sliding connection with a fourth linkage rod (40205); the upper part of the first linkage plate (40201) is fixedly connected with a first linkage rod (8); the lower part of the second linkage rod (40202) is fixedly connected with the first pressing block (40203); the lower part of the third linkage rod (40204) is fixedly connected with a first ring pressing block (40208); the lower part of the fourth linkage rod (40205) is fixedly connected with a first ring pressing block (40208); the lower part of the first spring (40206) is fixedly connected with a first annular pressing block (40208); the lower part of the second spring (40207) is fixedly connected with the first annular pressing block (40208).
7. The apparatus for treating a abandoned water well capable of compacting the backfilling soil according to claim 6, wherein the radius of the inner circle surface of the first hopper (20209) is equal to the radius of the outer circle surface of the second hopper (20215).
8. The apparatus for treating a abandoned water well capable of compacting the backfilled soil according to claim 7, wherein the third receiving box (4015) is provided with semi-circular grooves at equal intervals therein, and the fourth receiving box (4018) is provided with semi-circular grooves at equal intervals therein.
9. The apparatus for treating a abandoned water well capable of compacting the backfilling soil according to claim 8, wherein the first pressing block (40203) has a truncated cone shape, and an annular inclined surface is provided on the inner side of the upper portion of the first annular pressing block (40208).
CN202011310769.5A 2020-11-20 2020-11-20 Waste water well treatment device capable of tamping backfilled soil Pending CN112343034A (en)

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CN113134100A (en) * 2021-03-11 2021-07-20 杨辉辉 Culture medium preprocessing device based on lime disinfection function
CN113431487A (en) * 2021-07-26 2021-09-24 中铁建工集团有限公司 Underground continuous wall grooving construction device
CN113882204A (en) * 2021-09-27 2022-01-04 蓝海建设集团有限公司 High-fill embankment filling construction process

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