CN111330729B - Swamp mud stone and yellow sand separating device - Google Patents

Swamp mud stone and yellow sand separating device Download PDF

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Publication number
CN111330729B
CN111330729B CN202010143725.1A CN202010143725A CN111330729B CN 111330729 B CN111330729 B CN 111330729B CN 202010143725 A CN202010143725 A CN 202010143725A CN 111330729 B CN111330729 B CN 111330729B
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wheel
plate
top end
transmission
transmission gear
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CN111330729A (en
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牛彩云
韩峰
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牛彩云
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03BSEPARATING SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS
    • B03B7/00Combinations of wet processes or apparatus with other processes or apparatus, e.g. for dressing ores or garbage
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03BSEPARATING SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS
    • B03B5/00Washing granular, powdered or lumpy materials; Wet separating
    • B03B5/28Washing granular, powdered or lumpy materials; Wet separating by sink-float separation
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03BSEPARATING SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS
    • B03B5/00Washing granular, powdered or lumpy materials; Wet separating
    • B03B5/48Washing granular, powdered or lumpy materials; Wet separating by mechanical classifiers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B07SEPARATING SOLIDS FROM SOLIDS; SORTING
    • B07BSEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
    • B07B1/00Sieving, screening, sifting, or sorting solid materials using networks, gratings, grids, or the like
    • B07B1/28Moving screens not otherwise provided for, e.g. swinging, reciprocating, rocking, tilting or wobbling screens
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B07SEPARATING SOLIDS FROM SOLIDS; SORTING
    • B07BSEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
    • B07B1/00Sieving, screening, sifting, or sorting solid materials using networks, gratings, grids, or the like
    • B07B1/42Drive mechanisms, regulating or controlling devices, or balancing devices, specially adapted for screens

Abstract

The invention relates to a stone and sand extraction device, in particular to a marsh mud stone and sand separation device. The invention aims to provide a marsh mud stone and yellow sand separation device. A marsh mud stone and yellow sand separation device comprises an elevated working plate, a climbing ladder, a fixed rectangular column, a first I-shaped connecting frame, a real-time control screen, a marsh aquatic plant intercepting mechanism, a stone and substance separation mechanism, a second T-shaped connecting frame and a sediment settling and separating mechanism; a marsh aquatic plant intercepting mechanism is arranged on the right side of the top end of the elevated working plate; the middle lower part of the right end of the fixed rectangular column is welded with the first I-shaped connecting frame. The invention realizes the efficient and uniform separation of aquatic plants in the marsh mud, effectively screens stone impurities with larger particle sizes, and separates the marsh mud from the stone yellow sand in the marsh mud by a sedimentation layering method to obtain the effect of the stone yellow sand buried in the marsh mud.

Description

Swamp mud stone and yellow sand separating device
Technical Field
The invention relates to a stone and sand extraction device, in particular to a marsh mud stone and sand separation device.
Background
The marsh in the broad sense refers to all wetlands, a large amount of peat is accumulated in the marsh, the marsh has great biological production efficiency, plants continuously absorb CO2 and other gases, particularly harmful gases, in the process of forming organic matters, the marsh has the functions of moistening climate and purifying environment, plays an important role in storing water, adjusting river runoff, supplying underground water and maintaining regional water balance, and is helpful for slowing down the speed of water flow.
Due to the fact that a part of marsh has river passing and the river carries a lot of silt and soil, when the river passes through a marsh area, the flow rate becomes slow, the silt can be deposited in the marsh land, and most of the silt of the river can be remained in the marsh land and deposited to the depth of the marsh, so that the interior of the marsh land not only contains a lot of peat resources, but also contains a lot of silt resources, due to the crushing effect of the river, the silt contains a lot of stone and yellow sand, and further impurity sands such as stone and yellow sand can not be separated when the marsh mud is dug out to extract the peat resources, the peat resources are impure, the combustion rate is low, the energy utilization rate is low, and meanwhile, a lot of stone and yellow sand resources are wasted, and the problem of material circulation is influenced.
In summary, there is a need to develop a marsh mud stone and sand separator to overcome the above problems.
Disclosure of Invention
The invention aims to overcome the defects that due to the fact that partial marsh has rivers passing through, the rivers carry a lot of silt and soil, when the rivers pass through the marsh zone, the flow rate is slow, the silt is deposited in the marsh land, and most of the silt of the rivers is remained in the marsh land and is deposited to the depth of the marsh, so that the interior of the marsh land contains a lot of peat resources and a lot of silt resources, and due to the crushing effect of the rivers, the silt contains a lot of lime and yellow sand, and further when the marsh mud is excavated to extract the peat resources, impurity sands such as lime and yellow sand cannot be separated, the peat resources are impure, the combustion rate is low, the energy utilization rate is low, and meanwhile, a lot of lime and yellow sand resources are wasted, and the material circulation is influenced.
The invention is achieved by the following specific technical means:
a marsh mud stone and yellow sand separation device comprises an elevated working plate, a climbing ladder, a fixed rectangular column, a first I-shaped connecting frame, a real-time control screen, a marsh aquatic plant intercepting mechanism, a stone and substance separation mechanism, a second T-shaped connecting frame and a sediment settling and separating mechanism; welding the left front side of the bottom end of the elevated working plate with the climbing ladder; the middle part of the bottom end of the elevated working plate is welded with the fixed rectangular column; a marsh aquatic plant intercepting mechanism is arranged on the right side of the top end of the elevated working plate; the middle lower part of the right end of the fixed rectangular column is welded with the first I-shaped connecting frame; a real-time control screen is arranged in the front middle part of the top end of the first I-shaped connecting frame; the right side of the top end of the first I-shaped connecting frame is separated from the stone material; the bottom of the right end of the first I-shaped connecting frame is connected with a sediment settling and separating mechanism, and the middle part of the top end of the sediment settling and separating mechanism is connected with a stone separating mechanism; the bottom end of the stone material separating mechanism is connected with a second T-shaped connecting frame, and the top of the left end of the second T-shaped connecting frame is connected with the sediment settling and separating mechanism;
the marsh aquatic plant intercepting mechanism comprises a first conveying motor, a first driving wheel, a first conveying mechanism, a diversion channel plate, a first supporting plate, a second supporting plate, a first driving gear, a second gear control motor, a second driving gear, a third driving gear, a fourth driving gear, a fifth driving gear, a sixth driving gear, a fourth driving gear, a fifth driving gear, a seventh driving gear, an eighth driving gear, a ninth driving gear, a first intercepting wheel, a second intercepting wheel, a third intercepting wheel, a fourth intercepting wheel, a fifth intercepting wheel, a sixth intercepting wheel, a seventh intercepting wheel, an eighth intercepting wheel, a ninth intercepting wheel, a rectangular water drain valve, a water storage tank and a water tank side frame; the middle part of the front end of the first transmission motor is in transmission connection with the first transmission wheel; the middle part of the front end of the first transmission wheel is in transmission connection with the first transmission mechanism; the right side of the bottom end of the first conveying mechanism is connected with a diversion channel plate through a bolt; the left side of the bottom end of the flow guide channel plate is welded with the first supporting plate; the right side of the bottom end of the flow guide channel plate is welded with the second supporting plate; a rectangular water drain valve is arranged above the top end of the flow guide channel plate; a first transmission gear is arranged on the left front side of the bottom end of the diversion channel plate; the middle part of the bottom end of the first transmission gear is in transmission connection with a second gear control motor, and the bottom of the left end of the second gear control motor is connected with a first supporting plate; the middle part of the rear end of the first transmission gear is meshed with the second transmission gear, and the top end of the outer surface of the second transmission gear is connected with the flow guide channel plate; the middle part of the top end of the first transmission gear is in transmission connection with the first intercepting wheel; the middle part of the rear end of the second transmission gear is meshed with a third transmission gear, and the top end of the outer surface of the third transmission gear is connected with a flow guide channel plate; the middle part of the top end of the second transmission gear is in transmission connection with the second intercepting wheel; the middle part of the bottom end of the third transmission gear is in transmission connection with a second transmission wheel; the middle part of the top end of the third transmission gear is in transmission connection with a third intercepting wheel; the right side of the second driving wheel is in transmission connection with a third driving wheel; the middle part of the top end of the third driving wheel is in transmission connection with a fourth transmission gear, and the top end of the outer surface of the fourth transmission gear is connected with the flow guide channel plate; the middle part of the front end of the fourth transmission gear is meshed with the fifth transmission gear, and the top end of the outer surface of the fifth transmission gear is connected with the flow guide channel plate; the middle part of the top end of the fourth transmission gear is in transmission connection with the sixth intercepting wheel; the middle part of the front end of the fifth transmission gear is meshed with the sixth transmission gear, and the top end of the outer surface of the sixth transmission gear is connected with the flow guide channel plate; the middle part of the top end of the fifth transmission gear is in transmission connection with a fifth intercepting wheel; the middle part of the bottom end of the sixth transmission gear is in transmission connection with a fourth transmission wheel; the middle part of the top end of the sixth transmission gear is in transmission connection with the fourth intercepting wheel; the right side of the fourth driving wheel is in transmission connection with the fifth driving wheel; the middle part of the top end of the fifth driving wheel is in transmission connection with a seventh transmission gear, and the top end of the outer surface of the seventh transmission gear is connected with the flow guide channel plate; the middle part of the rear end of the seventh transmission gear is meshed with the eighth transmission gear, and the top end of the outer surface of the eighth transmission gear is connected with the flow guide channel plate; the middle part of the top end of the seventh transmission gear is in transmission connection with the seventh intercepting wheel; the middle part of the rear end of the eighth transmission gear is meshed with the ninth transmission gear, and the top end of the outer surface of the ninth transmission gear is connected with the flow guide channel plate; the middle part of the top end of the eighth transmission gear is in transmission connection with the eighth intercepting wheel; the middle part of the top end of the ninth transmission gear is in transmission connection with the ninth intercepting wheel; the top end of the rectangular water drain valve is welded with the water storage tank; the middle part of the rear end of the water storage tank is welded with the side frame of the water tank; the bottom end of the side frame of the water tank is connected with an elevated working plate; the bottom end of the first supporting plate is connected with the elevated working plate; the bottom end of the second supporting plate is connected with the elevated working plate; the bottom end of the first conveying motor is connected with the elevated working plate; the left side of the bottom end of the first conveying mechanism is connected with an elevated working plate;
the stone material separating mechanism comprises a shaking screen, a first triangular sliding strip, a second triangular sliding strip, a vertical sliding groove plate, a sliding connecting plate, an intercepting and protecting plate, a double-sided toothed rail, a rectangular sliding rail, a first sector gear, a first rotary shaft column, a first bearing seat, a second bearing seat, a sixth driving wheel, a seventh driving wheel, an eighth driving wheel, a third power motor, a second rotary shaft column, a third bearing seat, a second sector gear, a fourth bearing seat, a first bearing plate and a second bearing plate; the right side of the bottom end of the shaking screen is welded with the first triangular sliding strip; the left side of the bottom end of the screen is shaken to be welded with a second triangular sliding strip; the bottom end of the first triangular sliding strip is welded with the sliding connecting plate; the bottom of the left end of the first triangular sliding strip is welded with the intercepting protection plate; the bottom end of the second triangular sliding strip is in sliding connection with the vertical sliding groove plate; the bottom end of the sliding connecting plate is welded with the double-sided rack; the bottom end of the double-sided toothed rail is in sliding connection with the rectangular sliding rail; the middle part of the left end of the double-sided rack is meshed with the first sector gear; the inner middle part of the first sector gear is spliced with the first rotating shaft column; the top end of the outer surface of the first rotating shaft column is sleeved with a first bearing seat; the middle lower part of the outer surface of the first rotating shaft column is sleeved with the second bearing seat; the middle part of the bottom end of the first rotating shaft column is in transmission connection with a sixth transmission wheel; the left end of the first bearing seat is in bolted connection with the second bearing plate, and the bottom of the right end of the second bearing plate is connected with the second bearing seat; the middle part of the bottom end of the sixth driving wheel is in transmission connection with the seventh driving wheel; the right side of the sixth driving wheel is in transmission connection with the eighth driving wheel; the middle part of the bottom end of the eighth driving wheel is connected with a third power motor; the middle part of the top end of the eighth transmission wheel is in transmission connection with the second rotating shaft column; the bottom end of the outer surface of the second rotating shaft column is sleeved with a third bearing seat; the top end of the outer surface of the second rotating shaft column is sleeved with a fourth bearing seat; the right end of the third bearing seat is connected with the first bearing plate through a bolt, and the top of the left end of the first bearing plate is connected with the fourth bearing seat; the bottom end of the vertical sliding groove plate is connected with the first I-shaped connecting frame; the bottom end of the second bearing plate is connected with a second T-shaped connecting frame; the bottom end of the rectangular sliding rail is connected with a second T-shaped connecting frame; the bottom end of the first bearing plate is connected with the second T-shaped connecting frame; the left side of the seventh driving wheel is connected with a sediment settling and separating mechanism;
the silt settling and separating mechanism comprises a water tank fixing plate, a settling water tank, vortex fan blades, a third rotating shaft column, a fifth bearing seat, a third bearing frame, a ninth driving wheel, a first communicating pipe, a first centrifugal water pump, a water pump table and a second communicating pipe; a sedimentation water tank is arranged at the top end of the water tank fixing plate; vortex fan blades are arranged in the middle of the sedimentation water tank; a first communicating pipe is arranged at the rear side in the sedimentation water tank; the middle part of the top end of the vortex fan blade is in transmission connection with the third rotating shaft column; the middle lower part of the outer surface of the third rotating shaft column is sleeved with a fifth bearing seat; the top end of the third rotating shaft column is in transmission connection with a ninth transmission wheel; the left end of the fifth bearing seat is in bolted connection with a third bearing frame; the top of the rear end of the first communicating pipe is connected with a first centrifugal water pump; the bottom end of the first centrifugal water pump is connected with a water pump platform; the middle part of the right end of the first centrifugal water suction pump is connected with a second communicating pipe; the left end of the water tank fixing plate is connected with the first I-shaped connecting frame; the top end of the outer surface of the third rotating shaft column is connected with a second T-shaped connecting frame; the right side of the ninth driving wheel is connected with a seventh driving wheel.
Preferably, the real-time control screen is provided with two, and the two are respectively located in the front middle part of the top end of the first H-shaped connecting frame and on the front right side of the top end of the elevated working plate.
Preferably, two columns are arranged on the front left side of the top end of the elevated working plate.
Preferably, the top ends of the first interception wheel, the second interception wheel, the third interception wheel, the fourth interception wheel, the fifth interception wheel, the sixth interception wheel, the seventh interception wheel, the eighth interception wheel and the ninth interception wheel are all provided with three-branch rolling forks.
Compared with the prior art, the invention has the following beneficial effects:
the method aims to solve the problems that due to the fact that partial marsh exists, rivers pass through and carry a lot of silt and soil, when the rivers pass through a marsh zone, the flow rate is slow, the silt is deposited in the marsh land, most of the silt of the rivers is retained in the marsh land and is deposited to the depth of the marsh, therefore, the interior of the marsh land contains a lot of peat resources and a lot of silt resources, due to the crushing effect of the rivers, the silt contains a lot of lime and yellow sand, when the marsh mud is excavated to extract the peat resources, impurity sands such as lime and yellow sand cannot be separated, the peat resources are impure, the combustion rate is low, the energy utilization rate is low, meanwhile, a lot of lime and yellow sand resources are wasted, and the material circulation is influenced;
the marsh water plant intercepting mechanism, the stone material separating mechanism and the sediment settling and separating mechanism are designed, when the marsh water plant intercepting mechanism is used, water plants in marsh mud are intercepted and collected under the flushing of water flow, then substances with larger particle sizes such as stones and the like in the marsh mud are screened out through the stone material separating mechanism, then a mixture of the marsh mud and stone yellow sand enters the sediment settling and separating mechanism, due to the difference of gravity and resistance, the stone yellow sand firstly settles to the bottom end, the marsh mud is positioned above the stone yellow sand, and the marsh mud is separated after layering;
the method realizes the efficient and uniform separation of aquatic plants in the marsh mud, effectively screens stone impurities with larger particle sizes, and separates the marsh mud from the internal stone yellow sand by a sedimentation layering method to obtain the effect of the stone yellow sand buried in the marsh mud.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural view of the marsh aquatic plant intercepting mechanism of the present invention;
FIG. 3 is a schematic bottom structure view of the diversion channel plate of the present invention;
FIG. 4 is a top view of a flow guide channel plate according to the present invention;
FIG. 5 is a schematic structural view of a stone separating mechanism according to the present invention;
fig. 6 is a schematic structural view of a silt settling separation mechanism of the present invention.
The labels in the figures are: 1-elevated working plate, 2-climbing ladder, 3-fixed rectangular column, 4-first I-shaped connecting frame, 5-real-time control screen, 6-marsh aquatic plant intercepting mechanism, 7-stone separating mechanism, 8-second T-shaped connecting frame, 9-silt settling separating mechanism, 601-first transmission motor, 602-first transmission wheel, 603-first transmission mechanism, 604-diversion channel plate, 605-first supporting plate, 606-second supporting plate, 607-first transmission gear, 608-second gear control motor, 609-second transmission gear, 6010-third transmission gear, 6011-second transmission wheel, 6012-third transmission wheel, 6013-fourth transmission gear, 6014-fifth transmission gear, 6015-sixth transmission gear, 6016-fourth driving wheel, 6017-fifth driving wheel, 6018-seventh driving gear, 6019-eighth driving gear, 6020-ninth driving gear, 6021-first intercepting wheel, 6022-second intercepting wheel, 6023-third intercepting wheel, 6024-fourth intercepting wheel, 6025-fifth intercepting wheel, 6026-sixth intercepting wheel, 6027-seventh intercepting wheel, 6028-eighth intercepting wheel, 6029-ninth intercepting wheel, 6030-rectangular water drain valve, 6031-water storage tank, 6032-water tank side frame, 701-shaking screen, 702-first triangular slide bar, 703-second triangular slide bar, 704-vertical sliding chute plate, 705-sliding connection plate, 706-protecting plate, 707-double-faced toothed rail, 708-rectangular sliding rail, 709-first sector gear, 7010-first rotating shaft column, 7011-first bearing seat, 7012-second bearing seat, 7013-sixth driving wheel, 7014-seventh driving wheel, 7015-eighth driving wheel, 7016-third power motor, 7017-second rotating shaft column, 7018-third bearing seat, 7019-second sector gear, 7020-fourth bearing seat, 7021-first bearing plate, 7022-second bearing plate, 901-water tank fixing plate, 902-sedimentation water tank, 903-vortex fan blade, 904-third rotating shaft column, 905-fifth bearing seat, 906-third bearing frame, 907-ninth driving wheel, 908-first communicating pipe, 909-first centrifugal water pump, 9010-water pump table, 9011-second communicating pipe.
Detailed Description
The invention is further described below with reference to the figures and examples.
Examples
A marsh mud stone and yellow sand separation device is shown in figures 1-6 and comprises an elevated working plate 1, a climbing ladder 2, a fixed rectangular column 3, a first I-shaped connecting frame 4, a real-time control screen 5, a marsh aquatic plant intercepting mechanism 6, a stone separation mechanism 7, a second T-shaped connecting frame 8 and a sediment sedimentation separation mechanism 9; the left front side of the bottom end of the elevated working plate 1 is welded with the climbing ladder 2; the middle part of the bottom end of the elevated working plate 1 is welded with the fixed rectangular column 3; the right side of the top end of the elevated working plate 1 is provided with a marsh aquatic plant intercepting mechanism 6; the middle lower part of the right end of the fixed rectangular column 3 is welded with the first I-shaped connecting frame 4; a real-time control screen 5 is arranged in the front middle part of the top end of the first I-shaped connecting frame 4; the right side of the top end of the first I-shaped connecting frame 4 is connected with the stone separating mechanism 7; the bottom of the right end of the first I-shaped connecting frame 4 is connected with a sediment settling and separating mechanism 9, and the middle part of the top end of the sediment settling and separating mechanism 9 is connected with a stone separating mechanism 7; the bottom end of the stone separating mechanism 7 is connected with a second T-shaped connecting frame 8, and the top of the left end of the second T-shaped connecting frame 8 is connected with a sediment settling and separating mechanism 9.
The marsh aquatic plant intercepting mechanism 6 comprises a first conveying motor 601, a first driving wheel 602, a first conveying mechanism 603, a diversion channel plate 604, a first supporting plate 605, a second supporting plate 606, a first driving gear 607, a second gear control motor 608, a second driving gear 609, a third driving gear 6010, a second driving gear 6011, a third driving gear 6012, a fourth driving gear 6013, a fifth driving gear 6014, a sixth driving gear 6015, a fourth driving gear 6016, a fifth driving gear 6017, a seventh driving gear 6018, an eighth driving gear 6019, a ninth driving gear 6020, a first intercepting wheel 6021, a second intercepting wheel 6022, a third intercepting wheel 6023, a fourth intercepting wheel 6024, a fifth intercepting wheel 6025, a sixth intercepting wheel 6026, a seventh intercepting wheel 6027, an eighth intercepting wheel 6028, a ninth intercepting wheel 6029, a rectangular water drain valve 6030, a water storage tank 6031 and a side frame water tank 6032; the middle part of the front end of the first transmission motor 601 is in transmission connection with the first transmission wheel 602; the middle part of the front end of the first transmission wheel 602 is in transmission connection with a first transmission mechanism 603; the right side of the bottom end of the first conveying mechanism 603 is connected with a diversion channel plate 604 through bolts; the left side of the bottom end of the diversion channel plate 604 is welded with the first supporting plate 605; the right side of the bottom end of the diversion channel plate 604 is welded with the second support plate 606; a rectangular water drain valve 6030 is arranged above the top end of the diversion channel plate 604; a first transmission gear 607 is arranged at the left front side of the bottom end of the diversion channel plate 604; the middle part of the bottom end of the first transmission gear 607 is in transmission connection with a second gear control motor 608, and the bottom of the left end of the second gear control motor 608 is connected with a first supporting plate 605; the middle part of the rear end of the first transmission gear 607 is meshed with a second transmission gear 609, and the top end of the outer surface of the second transmission gear 609 is connected with the diversion channel plate 604; the middle part of the top end of the first transmission gear 607 is in transmission connection with the first interception wheel 6021; the middle part of the rear end of the second transmission gear 609 is meshed with a third transmission gear 6010, and the top end of the outer surface of the third transmission gear 6010 is connected with the diversion channel plate 604; the middle part of the top end of the second transmission gear 609 is in transmission connection with a second intercepting wheel 6022; the middle part of the bottom end of the third transmission gear 6010 is in transmission connection with a second transmission wheel 6011; the middle part of the top end of the third transmission gear 6010 is in transmission connection with a third intercepting wheel 6023; the right side of the second driving wheel 6011 is in driving connection with a third driving wheel 6012; the middle of the top end of the third driving wheel 6012 is in driving connection with a fourth driving gear 6013, and the top end of the outer surface of the fourth driving gear 6013 is connected with a flow guide channel plate 604; the middle part of the front end of the fourth transmission gear 6013 is meshed with a fifth transmission gear 6014, and the top end of the outer surface of the fifth transmission gear 6014 is connected with a flow guide channel plate 604; the middle part of the top end of the fourth transmission gear 6013 is in transmission connection with a sixth intercepting wheel 6026; the middle part of the front end of the fifth transmission gear 6014 is meshed with the sixth transmission gear 6015, and the top end of the outer surface of the sixth transmission gear 6015 is connected with the diversion channel plate 604; the middle part of the top end of the fifth transmission gear 6014 is in transmission connection with a fifth intercepting wheel 6025; the middle part of the bottom end of the sixth transmission gear 6015 is in transmission connection with a fourth transmission wheel 6016; the middle part of the top end of the sixth transmission gear 6015 is in transmission connection with a fourth intercepting wheel 6024; the right side of the fourth driving wheel 6016 is in driving connection with a fifth driving wheel 6017; the middle part of the top end of the fifth transmission wheel 6017 is in transmission connection with a seventh transmission gear 6018, and the top end of the outer surface of the seventh transmission gear 6018 is connected with a flow guide channel plate 604; the middle part of the rear end of the seventh transmission gear 6018 is meshed with an eighth transmission gear 6019, and the top end of the outer surface of the eighth transmission gear 6019 is connected with the flow guide channel plate 604; the middle part of the top end of the seventh transmission gear 6018 is in transmission connection with a seventh intercepting wheel 6027; the middle part of the rear end of the eighth transmission gear 6019 is engaged with the ninth transmission gear 6020, and the top end of the outer surface of the ninth transmission gear 6020 is connected with the flow guide channel plate 604; the middle part of the top end of the eighth transmission gear 6019 is in transmission connection with an eighth intercepting wheel 6028; the middle part of the top end of the ninth transmission gear 6020 is in transmission connection with the ninth intercepting wheel 6029; the top end of the rectangular water drain valve 6030 is welded with a water storage tank 6031; the middle part of the rear end of the water storage tank 6031 is welded with a water tank side frame 6032; the bottom end of a water tank side frame 6032 is connected with an elevated working plate 1; the bottom end of the first supporting plate 605 is connected with the elevated working plate 1; the bottom end of the second supporting plate 606 is connected with the elevated working plate 1; the bottom end of the first conveying motor 601 is connected with the elevated working plate 1; the left side of the bottom end of the first conveying mechanism 603 is connected with the elevated working plate 1.
The stone separation mechanism 7 comprises a shaking screen 701, a first triangular slide bar 702, a second triangular slide bar 703, a vertical sliding groove plate 704, a sliding connection plate 705, an intercepting protection plate 706, a double-sided rack 707, a rectangular sliding rail 708, a first sector gear 709, a first rotating shaft column 7010, a first bearing block 7011, a second bearing block 7012, a sixth driving wheel 7013, a seventh driving wheel 7014, an eighth driving wheel 7015, a third power motor 7016, a second rotating shaft column 7017, a third bearing block 7018, a second sector gear 7019, a fourth bearing block 7020, a first bearing plate 7021 and a second bearing plate 7022; the right side of the bottom end of the shaking screen 701 is welded with a first triangular sliding strip 702; the left side of the bottom end of the shaking screen 701 is welded with a second triangular sliding strip 703; the bottom end of the first triangular sliding strip 702 is welded with a sliding connecting plate 705; the bottom of the left end of the first triangular sliding strip 702 is welded with the intercepting protection plate 706; the bottom end of the second triangular sliding strip 703 is connected with the vertical sliding groove plate 704 in a sliding manner; the bottom end of the sliding connection plate 705 is welded with a double-sided rack 707; the bottom end of the double-sided rack rail 707 is connected with the rectangular slide rail 708 in a sliding way; the middle part of the left end of the double-sided rack 707 is meshed with a first sector gear 709; the inner middle part of the first sector gear 709 is spliced with the first rotating shaft column 7010; the top end of the outer surface of the first rotating shaft column 7010 is sleeved with a first bearing block 7011; the middle lower part of the outer surface of the first rotating shaft column 7010 is sleeved with a second bearing block 7012; the middle part of the bottom end of the first rotating shaft column 7010 is in transmission connection with a sixth transmission wheel 7013; the left end of the first bearing block 7011 is bolted to the second bearing plate 7022, and the bottom of the right end of the second bearing plate 7022 is connected to the second bearing block 7012; the middle part of the bottom end of the sixth driving wheel 7013 is in driving connection with a seventh driving wheel 7014; the right side of the sixth driving wheel 7013 is in driving connection with an eighth driving wheel 7015; the middle part of the bottom end of the eighth driving wheel 7015 is connected with a third power motor 7016; the middle part of the top end of the eighth driving wheel 7015 is in driving connection with the second rotating shaft column 7017; the bottom end of the outer surface of the second rotating shaft column 7017 is sleeved with a third bearing block 7018; the top end of the outer surface of the second rotating shaft column 7017 is sleeved with a fourth bearing seat 7020; the right end of the third bearing block 7018 is bolted to the first bearing plate 7021, and the top of the left end of the first bearing plate 7021 is connected to the fourth bearing block 7020; the bottom end of the vertical sliding groove plate 704 is connected with the first I-shaped connecting frame 4; the bottom end of the second bearing plate 7022 is connected to the second T-shaped connecting frame 8; the bottom end of the rectangular slide rail 708 is connected with a second T-shaped connecting frame 8; the bottom end of the first bearing plate 7021 is connected with the second T-shaped connecting frame 8; the left side of the seventh driving wheel 7014 is connected with a silt settling separation mechanism 9.
The silt settling and separating mechanism 9 comprises a water tank fixing plate 901, a settling water tank 902, vortex fan blades 903, a third rotating shaft column 904, a fifth bearing seat 905, a third bearing frame 906, a ninth driving wheel 907, a first communicating pipe 908, a first centrifugal water pump 909, a water pump table 9010 and a second communicating pipe 9011; a sedimentation water tank 902 is arranged at the top end of the water tank fixing plate 901; vortex fan blades 903 are arranged in the middle of the sedimentation water tank 902; a first communicating pipe 908 is arranged at the rear side in the sedimentation water tank 902; the middle part of the top end of the vortex fan blade 903 is in transmission connection with a third rotating shaft column 904; the middle lower part of the outer surface of the third rotating shaft column 904 is sleeved with a fifth bearing seat 905; the top end of the third rotating shaft column 904 is in transmission connection with a ninth transmission wheel 907; the left end of a fifth bearing seat 905 is in bolted connection with a third bearing frame 906; the top of the rear end of the first communicating pipe 908 is connected with a first centrifugal water pump 909; the bottom end of the first centrifugal water pump 909 is connected with the water pump platform 9010; the middle part of the right end of the first centrifugal water pump 909 is connected with a second communicating pipe 9011; the left end of the water tank fixing plate 901 is connected with the first I-shaped connecting frame 4; the top end of the outer surface of the third rotating shaft column 904 is connected with a second T-shaped connecting frame 8; the right side of the ninth driving wheel 907 is connected with a seventh driving wheel 7014.
The real-time control screen 5 is provided with two, and the two are respectively located in the front middle part of the top end of the first I-shaped connecting frame 4 and on the front right side of the top end of the elevated working plate 1.
The front left side of the top end of the elevated working plate 1 is provided with two cylinders.
The top ends of the first interception wheel 6021, the second interception wheel 6022, the third interception wheel 6023, the fourth interception wheel 6024, the fifth interception wheel 6025, the sixth interception wheel 6026, the seventh interception wheel 6027, the eighth interception wheel 6028 and the ninth interception wheel 6029 are all provided with three-branch rolling forks.
The working principle is as follows: when the marsh mud stone and yellow sand separation device is used, firstly, the marsh mud stone and yellow sand separation device is fixed to a stable working plane, sufficient water for washing silt is added into the marsh aquatic plant intercepting mechanism 6, then, the marsh mud to be treated is firstly shoveled to the left side of the elevated working plate 1, the real-time control screen 5 is manually opened, then, the power system in the device is connected through the real-time control screen 5, then, the marsh mud is added into the marsh aquatic plant intercepting mechanism 6, water is added for washing, the aquatic plants carried in the marsh mud are removed, then, the marsh mud passes through the stone separation mechanism 7 along with the water, the stone heads and other substances with larger particle sizes in the marsh mud are screened out, then, the silt mixture enters the silt sedimentation and separation mechanism 9, then, the stone yellow sand is settled, the marsh mud is extracted and separated, the efficient and uniform separation of the aquatic plants in the marsh mud is realized, and the stone impurities with larger particle sizes are effectively screened, and separating the marsh mud from the internal stone yellow sand by a settling and layering method to obtain the effect of burying the stone yellow sand in the marsh mud.
The marsh aquatic plant intercepting mechanism 6 comprises a first conveying motor 601, a first driving wheel 602, a first conveying mechanism 603, a diversion channel plate 604, a first supporting plate 605, a second supporting plate 606, a first driving gear 607, a second gear control motor 608, a second driving gear 609, a third driving gear 6010, a second driving gear 6011, a third driving gear 6012, a fourth driving gear 6013, a fifth driving gear 6014, a sixth driving gear 6015, a fourth driving gear 6016, a fifth driving gear 6017, a seventh driving gear 6018, an eighth driving gear 6019, a ninth driving gear 6020, a first intercepting wheel 6021, a second intercepting wheel 6022, a third intercepting wheel 6023, a fourth intercepting wheel 6024, a fifth intercepting wheel 6025, a sixth intercepting wheel 6026, a seventh intercepting wheel 6027, an eighth intercepting wheel 6028, a ninth intercepting wheel 6029, a rectangular water drain valve 6030, a water storage tank 6031 and a side frame water tank 6032; the middle part of the front end of the first transmission motor 601 is in transmission connection with the first transmission wheel 602; the middle part of the front end of the first transmission wheel 602 is in transmission connection with a first transmission mechanism 603; the right side of the bottom end of the first conveying mechanism 603 is connected with a diversion channel plate 604 through bolts; the left side of the bottom end of the diversion channel plate 604 is welded with the first supporting plate 605; the right side of the bottom end of the diversion channel plate 604 is welded with the second support plate 606; a rectangular water drain valve 6030 is arranged above the top end of the diversion channel plate 604; a first transmission gear 607 is arranged at the left front side of the bottom end of the diversion channel plate 604; the middle part of the bottom end of the first transmission gear 607 is in transmission connection with a second gear control motor 608, and the bottom of the left end of the second gear control motor 608 is connected with a first supporting plate 605; the middle part of the rear end of the first transmission gear 607 is meshed with a second transmission gear 609, and the top end of the outer surface of the second transmission gear 609 is connected with the diversion channel plate 604; the middle part of the top end of the first transmission gear 607 is in transmission connection with the first interception wheel 6021; the middle part of the rear end of the second transmission gear 609 is meshed with a third transmission gear 6010, and the top end of the outer surface of the third transmission gear 6010 is connected with the diversion channel plate 604; the middle part of the top end of the second transmission gear 609 is in transmission connection with a second intercepting wheel 6022; the middle part of the bottom end of the third transmission gear 6010 is in transmission connection with a second transmission wheel 6011; the middle part of the top end of the third transmission gear 6010 is in transmission connection with a third intercepting wheel 6023; the right side of the second driving wheel 6011 is in driving connection with a third driving wheel 6012; the middle of the top end of the third driving wheel 6012 is in driving connection with a fourth driving gear 6013, and the top end of the outer surface of the fourth driving gear 6013 is connected with a flow guide channel plate 604; the middle part of the front end of the fourth transmission gear 6013 is meshed with a fifth transmission gear 6014, and the top end of the outer surface of the fifth transmission gear 6014 is connected with a flow guide channel plate 604; the middle part of the top end of the fourth transmission gear 6013 is in transmission connection with a sixth intercepting wheel 6026; the middle part of the front end of the fifth transmission gear 6014 is meshed with the sixth transmission gear 6015, and the top end of the outer surface of the sixth transmission gear 6015 is connected with the diversion channel plate 604; the middle part of the top end of the fifth transmission gear 6014 is in transmission connection with a fifth intercepting wheel 6025; the middle part of the bottom end of the sixth transmission gear 6015 is in transmission connection with a fourth transmission wheel 6016; the middle part of the top end of the sixth transmission gear 6015 is in transmission connection with a fourth intercepting wheel 6024; the right side of the fourth driving wheel 6016 is in driving connection with a fifth driving wheel 6017; the middle part of the top end of the fifth transmission wheel 6017 is in transmission connection with a seventh transmission gear 6018, and the top end of the outer surface of the seventh transmission gear 6018 is connected with a flow guide channel plate 604; the middle part of the rear end of the seventh transmission gear 6018 is meshed with an eighth transmission gear 6019, and the top end of the outer surface of the eighth transmission gear 6019 is connected with the flow guide channel plate 604; the middle part of the top end of the seventh transmission gear 6018 is in transmission connection with a seventh intercepting wheel 6027; the middle part of the rear end of the eighth transmission gear 6019 is engaged with the ninth transmission gear 6020, and the top end of the outer surface of the ninth transmission gear 6020 is connected with the flow guide channel plate 604; the middle part of the top end of the eighth transmission gear 6019 is in transmission connection with an eighth intercepting wheel 6028; the middle part of the top end of the ninth transmission gear 6020 is in transmission connection with the ninth intercepting wheel 6029; the top end of the rectangular water drain valve 6030 is welded with a water storage tank 6031; the middle part of the rear end of the water storage tank 6031 is welded with a water tank side frame 6032; the bottom end of a water tank side frame 6032 is connected with an elevated working plate 1; the bottom end of the first supporting plate 605 is connected with the elevated working plate 1; the bottom end of the second supporting plate 606 is connected with the elevated working plate 1; the bottom end of the first conveying motor 601 is connected with the elevated working plate 1; the left side of the bottom end of the first conveying mechanism 603 is connected with the elevated working plate 1.
Firstly, sufficient water for washing silt is added into a water storage tank 6031, then a power supply of a first conveying motor 601 is connected through a real-time control screen 5, then the first conveying motor 601 drives a first driving wheel 602 to rotate, then the first driving wheel 602 drives a first conveying mechanism 603 to rotate, then the first conveying mechanism 603 conveys marsh mud to a diversion channel plate 604 through the first conveying mechanism 603, simultaneously sufficient water is discharged through a rectangular water discharge valve 6030 to wash the marsh mud, then the marsh mud flows down along the diversion channel plate 604 along with water, simultaneously a second gear control motor 608 is connected through the real-time control screen 5, then the second gear control motor 608 drives a first transmission gear 607 to rotate, then the first transmission gear 607 drives a second transmission gear 609 to rotate, then the second transmission gear 609 drives a third transmission gear 6010 to rotate, and then the third transmission gear 6010 drives a second transmission gear 6011, then the second driving wheel 6011 drives the third driving wheel 6012 to rotate through a belt, then the top end of the third driving wheel 6012 drives the fourth driving wheel 6013 to rotate, then the fourth driving wheel 6013 drives the fifth driving wheel 6014 to rotate, then the fifth driving wheel 6014 drives the sixth driving wheel 6015 to rotate, then the bottom end of the sixth driving wheel 6015 drives the fourth driving wheel 6016 to rotate, then the fourth driving wheel 6016 drives the fifth driving wheel 6017 to rotate through a belt, then the fifth driving wheel 6017 drives the seventh driving wheel 6018 to rotate, then the seventh driving wheel 6018 drives the eighth driving wheel 6019 to rotate, then the eighth driving wheel 6019 drives the ninth driving wheel 6020 to rotate, and at the same time the first driving wheel 607, the second driving wheel 609 and the third driving wheel 6010 drive the first intercepting wheel 6021, the second intercepting wheel 6022 and the third intercepting wheel 6023 to rotate respectively, and the fourth driving wheel 6013, a fifth transmission gear 6014 and a sixth transmission gear 6015 respectively drive a sixth interception wheel 6026, a fifth interception wheel 6025 and a fourth interception wheel 6024 to rotate, a seventh transmission gear 6018, an eighth transmission gear 6019 and a ninth transmission gear 6020 respectively drive a seventh interception wheel 6027, an eighth interception wheel 6028 and a ninth interception wheel 6029 to rotate, then the first interception wheel 6021, the second interception wheel 6022, the third interception wheel 6023, the fourth interception wheel 6024, the fifth interception wheel 6025, the sixth interception wheel 6026, the seventh interception wheel 6027, the eighth interception wheel 6028 and the ninth interception wheel 6029 rotate simultaneously to break up the marsh mud and wind and collect and separate the aquatic plants in the marsh mud, thereby completing the separation of the aquatic plants in the marsh mud.
The stone separation mechanism 7 comprises a shaking screen 701, a first triangular slide bar 702, a second triangular slide bar 703, a vertical sliding groove plate 704, a sliding connection plate 705, an intercepting protection plate 706, a double-sided rack 707, a rectangular sliding rail 708, a first sector gear 709, a first rotating shaft column 7010, a first bearing block 7011, a second bearing block 7012, a sixth driving wheel 7013, a seventh driving wheel 7014, an eighth driving wheel 7015, a third power motor 7016, a second rotating shaft column 7017, a third bearing block 7018, a second sector gear 7019, a fourth bearing block 7020, a first bearing plate 7021 and a second bearing plate 7022; the right side of the bottom end of the shaking screen 701 is welded with a first triangular sliding strip 702; the left side of the bottom end of the shaking screen 701 is welded with a second triangular sliding strip 703; the bottom end of the first triangular sliding strip 702 is welded with a sliding connecting plate 705; the bottom of the left end of the first triangular sliding strip 702 is welded with the intercepting protection plate 706; the bottom end of the second triangular sliding strip 703 is connected with the vertical sliding groove plate 704 in a sliding manner; the bottom end of the sliding connection plate 705 is welded with a double-sided rack 707; the bottom end of the double-sided rack rail 707 is connected with the rectangular slide rail 708 in a sliding way; the middle part of the left end of the double-sided rack 707 is meshed with a first sector gear 709; the inner middle part of the first sector gear 709 is spliced with the first rotating shaft column 7010; the top end of the outer surface of the first rotating shaft column 7010 is sleeved with a first bearing block 7011; the middle lower part of the outer surface of the first rotating shaft column 7010 is sleeved with a second bearing block 7012; the middle part of the bottom end of the first rotating shaft column 7010 is in transmission connection with a sixth transmission wheel 7013; the left end of the first bearing block 7011 is bolted to the second bearing plate 7022, and the bottom of the right end of the second bearing plate 7022 is connected to the second bearing block 7012; the middle part of the bottom end of the sixth driving wheel 7013 is in driving connection with a seventh driving wheel 7014; the right side of the sixth driving wheel 7013 is in driving connection with an eighth driving wheel 7015; the middle part of the bottom end of the eighth driving wheel 7015 is connected with a third power motor 7016; the middle part of the top end of the eighth driving wheel 7015 is in driving connection with the second rotating shaft column 7017; the bottom end of the outer surface of the second rotating shaft column 7017 is sleeved with a third bearing block 7018; the top end of the outer surface of the second rotating shaft column 7017 is sleeved with a fourth bearing seat 7020; the right end of the third bearing block 7018 is bolted to the first bearing plate 7021, and the top of the left end of the first bearing plate 7021 is connected to the fourth bearing block 7020; the bottom end of the vertical sliding groove plate 704 is connected with the first I-shaped connecting frame 4; the bottom end of the second bearing plate 7022 is connected to the second T-shaped connecting frame 8; the bottom end of the rectangular slide rail 708 is connected with a second T-shaped connecting frame 8; the bottom end of the first bearing plate 7021 is connected with the second T-shaped connecting frame 8; the left side of the seventh driving wheel 7014 is connected with a silt settling separation mechanism 9.
Firstly, a third power motor 7016 is communicated to rotate through a real-time control screen 5, then the top end of the third power motor 7016 drives an eighth driving wheel 7015 to rotate, then the left side of the eighth driving wheel 7015 drives a sixth driving wheel 7013 to rotate, then the top end of the sixth driving wheel 7013 drives a first rotating shaft column 7010 to rotate, further the first rotating shaft column 7010 drives a first sector gear 709 to rotate, then the first sector gear 709 drives a double-sided rack 707 with the right end meshed with the first sector gear to move forwards, meanwhile, the bottom end of the double-sided rack 707 slides forwards in a rectangular sliding rail 708, the top end of the double-sided rack 707 drives a shaking screen 701 to move forwards through a sliding connecting plate 705 and a first triangular sliding strip 702, meanwhile, a second triangular sliding strip 703 slides forwards at the top end of a vertical sliding groove plate 704, and when the first sector gear 709 is meshed with the double-sided rack 707, at this moment, the top end of the eighth driving wheel 7015 drives a second sector gear 7019 to rotate to the left side through a second rotating shaft 7017 to mesh position with the double-sided rack 707, then the second sector gear 7019 drives the double-sided rack 707 to move backwards, and similarly, the shaking screen 701 moves backwards, so that the back-and-forth movement of the shaking screen 701 is realized, the marsh mud separated from the aquatic plants comes to the top end of the shaking screen 701 along with water, then the back-and-forth movement of the shaking screen 701 penetrates through the sediment in the marsh mud, then other substances such as stones in the sediment are intercepted, the marsh mud falls down from the left side of the top end of the shaking screen 701, and then the mixture of the marsh mud and the lime sand enters the sediment settling separation mechanism 9, so that the separation of stones in the marsh mud is completed.
The silt settling and separating mechanism 9 comprises a water tank fixing plate 901, a settling water tank 902, vortex fan blades 903, a third rotating shaft column 904, a fifth bearing seat 905, a third bearing frame 906, a ninth driving wheel 907, a first communicating pipe 908, a first centrifugal water pump 909, a water pump table 9010 and a second communicating pipe 9011; a sedimentation water tank 902 is arranged at the top end of the water tank fixing plate 901; vortex fan blades 903 are arranged in the middle of the sedimentation water tank 902; a first communicating pipe 908 is arranged at the rear side in the sedimentation water tank 902; the middle part of the top end of the vortex fan blade 903 is in transmission connection with a third rotating shaft column 904; the middle lower part of the outer surface of the third rotating shaft column 904 is sleeved with a fifth bearing seat 905; the top end of the third rotating shaft column 904 is in transmission connection with a ninth transmission wheel 907; the left end of a fifth bearing seat 905 is in bolted connection with a third bearing frame 906; the top of the rear end of the first communicating pipe 908 is connected with a first centrifugal water pump 909; the bottom end of the first centrifugal water pump 909 is connected with the water pump platform 9010; the middle part of the right end of the first centrifugal water pump 909 is connected with a second communicating pipe 9011; the left end of the water tank fixing plate 901 is connected with the first I-shaped connecting frame 4; the top end of the outer surface of the third rotating shaft column 904 is connected with a second T-shaped connecting frame 8; the right side of the ninth driving wheel 907 is connected with a seventh driving wheel 7014.
The marsh mud from which the stone is removed enters the sedimentation water tank 902, and simultaneously, a sufficient amount of water is pumped from the outside through the second communicating pipe 9011 and the first communicating pipe 908 by the first centrifugal water pump 909 to the inside of the sedimentation water tank 902, then the left side of the seventh driving wheel 7014 drives the ninth driving wheel 907 to rotate, then the bottom end of the ninth driving wheel 907 drives the third rotating shaft column 904 to rotate, then the bottom end of the third rotating shaft column 904 drives the vortex fan 903 to rotate, because the stone yellow sand has larger particles and larger gravity, the stone yellow sand firstly settles to the bottom end in the settling water tank 902, then the sludge part is positioned above the stone yellow sand, at the moment, the vortex fan blade 903 rotates to stir the marsh sludge on the upper layer to float, then the upper layer is marsh sludge suspension, the upper layer suspension is pumped out through a first centrifugal water pump 909, then adding water, pumping out, and circulating until no marsh sludge exists at the top end of the stone yellow sand, thereby completing the sedimentation of the stone yellow sand and the separation of the marsh sludge.
The real-time control screen 5 is provided with two altogether, is located the front right side in middle part and the overhead working plate 1 top before 4 tops of first worker shape link respectively to the staff can both carry out real-time control to the device when overhead working plate 1 and bottom surface.
The left side is provided with two cylinders before 1 top of overhead working plate to the staff is climbing to climbing ladder 2 top through climbing ladder 2 when, can two hands gripping overhead working plate 1 top front left two cylinders climb to overhead working plate 1.
The top ends of the first interception wheel 6021, the second interception wheel 6022, the third interception wheel 6023, the fourth interception wheel 6024, the fifth interception wheel 6025, the sixth interception wheel 6026, the seventh interception wheel 6027, the eighth interception wheel 6028 and the ninth interception wheel 6029 are all provided with three branch rolling forks, so that the swamp mud can be fully dispersed, stirred and rolled up to form aquatic plants in the swamp mud.
The above description is provided only to illustrate the technical concept of the present invention, and those skilled in the art will appreciate that various changes and modifications can be made without changing the essential features of the present invention. Accordingly, the exemplary embodiments of the present invention are provided for illustrative purposes only, and are not intended to limit the technical concept of the present invention. The scope of the technical idea of the present disclosure is not limited thereto. Therefore, it should be understood that the above-described exemplary embodiments are illustrative in all respects, not restrictive of the disclosure. The scope of the present disclosure should be construed based on the claims, and all technical ideas within the equivalent scope thereof should be construed to fall within the scope of the present disclosure.

Claims (4)

1. A marsh mud stone and yellow sand separation device comprises an elevated working plate (1), a climbing ladder (2), a fixed rectangular column (3) and a first I-shaped connecting frame (4), and is characterized by further comprising a real-time control screen (5), a marsh aquatic plant intercepting mechanism (6), a stone separation mechanism (7), a second T-shaped connecting frame (8) and a sediment sedimentation separation mechanism (9); the left front side of the bottom end of the elevated working plate (1) is welded with the climbing ladder (2); the middle part of the bottom end of the elevated working plate (1) is welded with the fixed rectangular column (3); a swamp aquatic plant intercepting mechanism (6) is arranged on the right side of the top end of the elevated working plate (1); the middle lower part of the right end of the fixed rectangular column (3) is welded with the first H-shaped connecting frame (4); a real-time control screen (5) is arranged in the front middle part of the top end of the first I-shaped connecting frame (4); the right side of the top end of the first I-shaped connecting frame (4) is connected with a stone separating mechanism (7); the bottom of the right end of the first I-shaped connecting frame (4) is connected with a sediment settling and separating mechanism (9), and the middle of the top end of the sediment settling and separating mechanism (9) is connected with a stone separating mechanism (7); the bottom end of the stone separation mechanism (7) is connected with a second T-shaped connecting frame (8), and the top of the left end of the second T-shaped connecting frame (8) is connected with a sediment sedimentation separation mechanism (9);
the marsh water plant intercepting mechanism (6) comprises a first conveying motor (601), a first driving wheel (602), a first conveying mechanism (603), a diversion channel plate (604), a first supporting plate (605), a second supporting plate (606), a first driving gear (607), a second gear control motor (608), a second driving gear (609), a third driving gear (6010), a second driving wheel (6011), a third driving wheel (6012), a fourth driving gear (6013), a fifth driving gear (6014), a sixth driving gear (6015), a fourth driving gear (6016), a fifth driving gear (6017), a seventh driving gear (6018), an eighth driving gear (6019), a ninth driving gear (6020), a first intercepting wheel (6021), a second intercepting wheel (6022), a third intercepting wheel (6023), a fourth intercepting wheel (6024), a fifth intercepting wheel (6025) and a sixth intercepting wheel (6026), a seventh interception wheel (6027), an eighth interception wheel (6028), a ninth interception wheel (6029), a rectangular drain valve (6030), a water storage tank (6031) and a side frame of the water tank (6032); the middle part of the front end of the first conveying motor (601) is in transmission connection with the first driving wheel (602); the middle part of the front end of the first transmission wheel (602) is in transmission connection with the first transmission mechanism (603); the right side of the bottom end of the first conveying mechanism (603) is connected with a flow guide channel plate (604) through a bolt; the left side of the bottom end of the diversion channel plate (604) is welded with a first supporting plate (605); the right side of the bottom end of the diversion channel plate (604) is welded with a second supporting plate (606); a rectangular water drain valve (6030) is arranged above the top end of the diversion channel plate (604); a first transmission gear (607) is arranged at the left front side of the bottom end of the diversion channel plate (604); the middle part of the bottom end of the first transmission gear (607) is in transmission connection with a second gear control motor (608), and the bottom of the left end of the second gear control motor (608) is connected with a first supporting plate (605); the middle part of the rear end of the first transmission gear (607) is meshed with a second transmission gear (609), and the top end of the outer surface of the second transmission gear (609) is connected with a diversion channel plate (604); the middle part of the top end of the first transmission gear (607) is in transmission connection with the first interception wheel (6021); the middle part of the rear end of the second transmission gear (609) is meshed with a third transmission gear (6010), and the top end of the outer surface of the third transmission gear (6010) is connected with the flow guide channel plate (604); the middle part of the top end of the second transmission gear (609) is in transmission connection with a second interception wheel (6022); the middle part of the bottom end of the third transmission gear (6010) is in transmission connection with a second transmission wheel (6011); the middle part of the top end of the third transmission gear (6010) is in transmission connection with a third interception wheel (6023); the right side of the second driving wheel (6011) is in transmission connection with a third driving wheel (6012); the middle part of the top end of the third driving wheel (6012) is in transmission connection with a fourth transmission gear (6013), and the top end of the outer surface of the fourth transmission gear (6013) is connected with a flow guide channel plate (604); the middle part of the front end of the fourth transmission gear (6013) is meshed with a fifth transmission gear (6014), and the top end of the outer surface of the fifth transmission gear (6014) is connected with a flow guide channel plate (604); the middle part of the top end of the fourth transmission gear (6013) is in transmission connection with the sixth intercepting wheel (6026); the middle part of the front end of the fifth transmission gear (6014) is meshed with a sixth transmission gear (6015), and the top end of the outer surface of the sixth transmission gear (6015) is connected with a flow guide channel plate (604); the middle part of the top end of the fifth transmission gear (6014) is in transmission connection with a fifth interception wheel (6025); the middle part of the bottom end of the sixth transmission gear (6015) is in transmission connection with a fourth transmission wheel (6016); the middle part of the top end of the sixth transmission gear (6015) is in transmission connection with the fourth interception wheel (6024); the right side of the fourth driving wheel (6016) is in transmission connection with a fifth driving wheel (6017); the middle part of the top end of the fifth transmission wheel (6017) is in transmission connection with a seventh transmission gear (6018), and the top end of the outer surface of the seventh transmission gear (6018) is connected with a flow guide channel plate (604); the middle part of the rear end of the seventh transmission gear (6018) is meshed with an eighth transmission gear (6019), and the top end of the outer surface of the eighth transmission gear (6019) is connected with the flow guide channel plate (604); the middle part of the top end of the seventh transmission gear (6018) is in transmission connection with a seventh interception wheel (6027); the middle part of the rear end of the eighth transmission gear (6019) is meshed with the ninth transmission gear (6020), and the top end of the outer surface of the ninth transmission gear (6020) is connected with the flow guide channel plate (604); the middle part of the top end of the eighth transmission gear (6019) is in transmission connection with the eighth interception wheel (6028); the middle part of the top end of the ninth transmission gear (6020) is in transmission connection with the ninth interception wheel (6029); the top end of the rectangular water drain valve (6030) is welded with the water storage tank (6031); the middle part of the rear end of the water storage tank (6031) is welded with a side frame (6032) of the water tank; the bottom end of a water tank side frame (6032) is connected with an elevated working plate (1); the bottom end of the first supporting plate (605) is connected with the elevated working plate (1); the bottom end of the second supporting plate (606) is connected with the elevated working plate (1); the bottom end of the first conveying motor (601) is connected with the elevated working plate (1); the left side of the bottom end of the first conveying mechanism (603) is connected with an elevated working plate (1);
the stone material separating mechanism (7) comprises a shaking screen (701), a first triangular sliding strip (702), a second triangular sliding strip (703), a vertical sliding groove plate (704), a sliding connecting plate (705), an intercepting and protecting plate (706), a double-sided toothed rail (707), a rectangular sliding rail (708), a first sector gear (709), a first rotating shaft column (7010), a first bearing seat (7011), a second bearing seat (7012), a sixth driving wheel (7013), a seventh driving wheel (7014), an eighth driving wheel (7015), a third power motor (7016), a second rotating shaft column (7017), a third bearing seat (7018), a second sector gear (7019), a fourth bearing seat (7020), a first bearing plate (7021) and a second bearing plate (7022); the right side of the bottom end of the shaking screen (701) is welded with a first triangular sliding strip (702); the left side of the bottom end of the shaking screen (701) is welded with a second triangular sliding strip (703); the bottom end of the first triangular sliding strip (702) is welded with the sliding connecting plate (705); the bottom of the left end of the first triangular sliding strip (702) is welded with an intercepting protection plate (706); the bottom end of the second triangular sliding strip (703) is in sliding connection with the vertical sliding groove plate (704); the bottom end of the sliding connecting plate (705) is welded with the double-sided rack (707); the bottom end of the double-sided rack rail (707) is in sliding connection with the rectangular sliding rail (708); the middle part of the left end of the double-sided rack (707) is meshed with a first sector gear (709); the inner middle part of the first sector gear (709) is spliced with the first rotating shaft column (7010); the top end of the outer surface of the first rotating shaft column (7010) is sleeved with a first bearing seat (7011); the middle lower part of the outer surface of the first rotating shaft column (7010) is sleeved with a second bearing seat (7012); the middle part of the bottom end of the first rotating shaft column (7010) is in transmission connection with a sixth transmission wheel (7013); the left end of the first bearing seat (7011) is in bolted connection with the second bearing plate (7022), and the bottom of the right end of the second bearing plate (7022) is connected with the second bearing seat (7012); the middle part of the bottom end of the sixth driving wheel (7013) is in transmission connection with a seventh driving wheel (7014); the right side of the sixth driving wheel (7013) is in driving connection with the eighth driving wheel (7015); the middle part of the bottom end of the eighth driving wheel (7015) is connected with a third power motor (7016); the middle part of the top end of the eighth driving wheel (7015) is in transmission connection with a second rotating shaft column (7017); the bottom end of the outer surface of the second rotating shaft column (7017) is sleeved with a third bearing seat (7018); the top end of the outer surface of the second rotating shaft column (7017) is sleeved with a fourth bearing seat (7020); the right end of the third bearing seat (7018) is in bolted connection with the first bearing plate (7021), and the top of the left end of the first bearing plate (7021) is connected with the fourth bearing seat (7020); the bottom end of the vertical sliding groove plate (704) is connected with a first I-shaped connecting frame (4); the bottom end of the second bearing plate (7022) is connected with a second T-shaped connecting frame (8); the bottom end of the rectangular sliding rail (708) is connected with a second T-shaped connecting frame (8); the bottom end of the first bearing plate (7021) is connected with a second T-shaped connecting frame (8); the left side of a seventh driving wheel (7014) is connected with a silt settling separation mechanism (9);
the silt settling and separating mechanism (9) comprises a water tank fixing plate (901), a settling water tank (902), vortex fan blades (903), a third rotating shaft column (904), a fifth bearing seat (905), a third bearing frame (906), a ninth driving wheel (907), a first communicating pipe (908), a first centrifugal water pump (909), a water pump table (9010) and a second communicating pipe (9011); a sedimentation water tank (902) is arranged at the top end of the water tank fixing plate (901); vortex fan blades (903) are arranged in the middle of the sedimentation water tank (902); a first communicating pipe (908) is arranged at the rear side in the sedimentation water tank (902); the middle part of the top end of the vortex fan blade (903) is in transmission connection with a third rotating shaft column (904); the middle lower part of the outer surface of the third rotating shaft column (904) is sleeved with a fifth bearing seat (905); the top end of the third rotating shaft column (904) is in transmission connection with a ninth transmission wheel (907); the left end of the fifth bearing seat (905) is in bolted connection with a third bearing frame (906); the top of the rear end of the first communicating pipe (908) is connected with a first centrifugal water pump (909); the bottom end of the first centrifugal water pump (909) is connected with a water pump platform (9010); the middle part of the right end of the first centrifugal water pump (909) is connected with a second communicating pipe (9011); the left end of the water tank fixing plate (901) is connected with a first I-shaped connecting frame (4); the top end of the outer surface of the third rotating shaft column (904) is connected with a second T-shaped connecting frame (8); the right side of the ninth driving wheel (907) is connected with a seventh driving wheel (7014).
2. The marsh mud stone and yellow sand separating device as claimed in claim 1, wherein the real-time control screens (5) are provided in two, respectively located in the front middle part of the top end of the first I-shaped connecting frame (4) and on the front right side of the top end of the elevated working plate (1).
3. The marsh mud stone and sand separating device according to claim 2, wherein the front left side of the top end of the elevated working plate (1) is provided with two columns.
4. The marsh mud stone and sand separating device according to claim 3, wherein the top ends of the first interception wheel (6021), the second interception wheel (6022), the third interception wheel (6023), the fourth interception wheel (6024), the fifth interception wheel (6025), the sixth interception wheel (6026), the seventh interception wheel (6027), the eighth interception wheel (6028) and the ninth interception wheel (6029) are provided with three-branch rolling forks.
CN202010143725.1A 2020-03-04 2020-03-04 Swamp mud stone and yellow sand separating device Active CN111330729B (en)

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CN2730480Y (en) * 2004-03-15 2005-10-05 谢明明 Equipment for breaking bags of baged-garbage and sieving garbage
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CN206916014U (en) * 2017-05-16 2018-01-23 钟天伟 Silt particle separator based on sea sand desalting and the desalination ship using the device
CN210022471U (en) * 2019-06-06 2020-02-07 谢健 Environment-friendly ore dressing equipment

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US20150375236A1 (en) * 2014-06-25 2015-12-31 Brandon V. Dietrich Heavy metal recovery system and apparatus

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Publication number Priority date Publication date Assignee Title
CN2730480Y (en) * 2004-03-15 2005-10-05 谢明明 Equipment for breaking bags of baged-garbage and sieving garbage
CN203874889U (en) * 2014-06-10 2014-10-15 六安金龙矿山机械科技有限公司 Device for extracting mineral products from river sand
CN107115960A (en) * 2015-04-27 2017-09-01 乔风成 A kind of new log washer
CN206139325U (en) * 2016-09-23 2017-05-03 王楠 Old rubbish aquatic sorter
CN206916014U (en) * 2017-05-16 2018-01-23 钟天伟 Silt particle separator based on sea sand desalting and the desalination ship using the device
CN206810481U (en) * 2017-06-21 2017-12-29 李瑞静 A kind of building waste sorting unit
CN210022471U (en) * 2019-06-06 2020-02-07 谢健 Environment-friendly ore dressing equipment

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