CN111980095B - Irrigation ditch silt cleaning equipment for irrigation - Google Patents

Abstract

The invention relates to cleaning equipment, in particular to irrigation ditch sludge cleaning equipment for water conservancy irrigation. The technical problem who solves provides one kind and can remove easily on the irrigation canals and ditches, and can pour out the silt of shoveling automatically, irrigation canals and ditches silt cleaning equipment for the irrigation that the security performance is higher. An irrigation ditch silt clean-up equipment for irrigation, including: the supporting plate is provided with a first rotating shaft at two sides of the top of the supporting plate in a rotating manner; the two ends of the first rotating shaft are connected with the rollers; the handle, the handle welding is in one side on the backup pad. The ditch movable type automatic dumping device can easily move on a ditch, can automatically dump out shoveled sludge, and has high safety performance, and the ditch can continuously move under the auxiliary action of the moving assembly and the rollers on the periphery.

Description

Irrigation ditch silt cleaning equipment for irrigation

Technical Field

The invention relates to cleaning equipment, in particular to irrigation ditch sludge cleaning equipment for water conservancy irrigation.

Background

The ditch is a water channel dug out for irrigation and drainage, and in the process of irrigation or drainage, due to the fact that certain silt or dirt exists in water, silt accumulation can be generated in the ditch for a long time, and the drainage effect of the ditch is poor due to excessive silt.

In order to ensure that the ditch can normally operate, people need to clean the ditch with silt, at present, people manually shovel the ditch out or use some cleaning tools to clean the ditch, the manual cleaning of the silt in the ditch is very inconvenient, people need to stand in the silt for working, and the safety is low, and the existing silt cleaning mechanism, such as Chinese patent with patent publication No. CN210845377U, discloses a silt cleaning mechanism for sewage treatment, which comprises an installation cavity arranged inside an installation beam, and a ball screw is arranged between the side walls of two sides of the installation cavity; the patent has certain shortcoming, and this patent can only be placed and carry out silt clearance in fixed position, can not remove on the irrigation canals and ditches, can lead to work efficiency to reduce.

Therefore, how to design an irrigation ditch sludge cleaning device which can easily move on a ditch, can automatically pour out the shoveled sludge and has higher safety performance for irrigation, becomes the problem to be solved at present.

Disclosure of Invention

In order to overcome the defects that the cleaning equipment is difficult to move on a ditch and certain potential safety hazards exist in the prior art, the technical problem to be solved is as follows: the utility model provides a can remove easily on the irrigation canals and ditches, and can pour out the silt of shoveling automatically, irrigation canals and ditches silt cleaning equipment for the irrigation that the security performance is higher.

The technical scheme is as follows: an irrigation ditch silt clean-up equipment for irrigation, including: the supporting plate is provided with a first rotating shaft at two sides of the top of the supporting plate in a rotating manner; the two ends of the first rotating shaft are connected with the rollers; the handle is welded on one side of the supporting plate; the servo motor is arranged on one side, close to the handle, of the supporting plate; the moving assembly is arranged between the first rotating shaft and the supporting plate; the desilting subassembly, the desilting subassembly sets up in on the backup pad.

As a further preferable aspect, the moving member includes: the second rotating shaft is rotatably arranged on one side, close to the handle, of the supporting plate and is connected with the dredging component; the first gear is welded on the second rotating shaft; the second gear is connected to an output shaft of the servo motor and is meshed with the first gear; the clutch synchronizing wheel is rotationally arranged on the second rotating shaft; the clutch blocks are symmetrically connected to the middle part of the second rotating shaft, the clutch block on one side is matched with the clutch synchronizing wheel, and the clutch block on the other side is matched with the dredging component; the number of the second springs is two, and the second springs are connected between the clutch block and the second rotating shaft; the rotating rod is rotatably arranged in the middle of the second rotating shaft; the contact rod is arranged at the lower part of the rotating rod in a sliding manner; the number of the arc-shaped wedge blocks is two, the arc-shaped wedge blocks are arranged in the middle of the top of the supporting plate, and the arc-shaped wedge blocks are matched with two sides of the contact rod; the first synchronous wheel is connected to the middle part of the first rotating shaft at one side close to the handle; the synchronous belt is wound on the first synchronous wheel and the clutch synchronous wheel; and the compression spring is connected between the rotating rod and the supporting plate.

As a further preferred solution, the dredging component comprises: the third rotating shaft is rotatably arranged on one side, close to the handle, of the top of the supporting plate; reels symmetrically connected to the third rotating shaft; the first transmission wheel is connected to the third rotating shaft; the clutch driving wheel is rotatably connected to the second rotating shaft; the belt is wound on the clutch transmission wheel and the first transmission wheel; the guide rails are symmetrically arranged on the top of the support plate; the top of the guide rail is provided with two guide wheel supporting frames in a rotating mode, and the supporting frames are arranged between the guide rails on two sides in a sliding mode; the pull ropes are wound on the winding wheels and are connected with the top of the supporting frame by winding the guide wheels; the third spring is symmetrically connected between the guide rail and the supporting frame; the guide rod is fixedly connected to the bottom of the supporting frame; the connecting sleeves are symmetrically and slidably arranged on the guide rod; the shovel mud fill, the connecting sheathe in equal rotary type is provided with the shovel mud fill, the quantity of shovel mud fill is two.

As a further preferable embodiment, the method further comprises: the fourth rotating shaft is rotatably arranged in the middle of the supporting frame; the rotary disc is rotatably arranged on the fourth rotating shaft; the third gear is welded at one end of the fourth rotating shaft; the connecting rods are hinged to two sides of the rotary table, and the mud bucket is hinged to the connecting rods; the fourth gears are welded on the mud shoveling buckets; the contact blocks are fixedly connected to the two ends of the supporting frame; the first rack is fixedly connected to the middle of the top of the supporting plate and meshed with the third gear; the N-shaped rods are symmetrically and fixedly connected to the middle of the top of the supporting plate; the N-shaped rods are arranged on the first gear racks in a sliding mode, and the first gear racks are meshed with the fourth gear; and the fourth spring is symmetrically connected between the second rack and the N-shaped rod.

As a further preferable embodiment, the method further comprises: the movable plates are arranged on two sides of the supporting plate in a sliding mode; the contact wheels are rotatably arranged at the bottom of the movable plate, and the number of the contact wheels is at least four; and the fifth springs are symmetrically connected between the movable plate and the supporting plate.

As a further preferable embodiment, the method further comprises: the separating plate is fixedly connected to one side, far away from the handle, of the supporting plate, and the separating plate is located between the mud shovels on two sides.

Compared with the prior art, the invention has the following advantages: the ditch-type automatic dredging device can easily move on a ditch, can automatically pour out the shoveled sludge, and has higher safety performance; the mud shovel fill can shovel the silt in the irrigation canals and ditches, and the removal subassembly can drive the mud shovel fill rebound, and under the cooperation of third gear and first rack and fourth gear and second rack, the mud shovel fill can rebound and can open to the outside, outwards pours the silt in the mud shovel fill.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of another embodiment of the present invention.

Fig. 3 is a first partial structure diagram and a cross-sectional view of the present invention.

Fig. 4 is a second partial structure diagram and a sectional view of the present invention.

FIG. 5 is a third partial structural schematic view and a sectional view of the present invention.

FIG. 6 is a schematic diagram of a fourth partial structure of the present invention.

Fig. 7 is an enlarged view of portion a of the present invention.

Wherein: 1-support plate, 2-first rotating shaft, 3-roller, 4-handle, 5-servomotor, 6-moving component, 601-second rotating shaft, 602-first gear, 603-second gear, 604-clutch synchronizing wheel, 605-clutch block, 606-second spring, 607-rotating rod, 608-contact rod, 609-arc wedge block, 610-first synchronizing wheel, 611-synchronous belt, 612-compression spring, 7-desilting component, 701-third rotating shaft, 702-reel, 703-clutch transmission wheel, 704-guide rail, 705-guide wheel, 706-support frame, 707-pull rope, 708-third spring, 709-guide rod, 710-connecting sleeve, 711-mud shovel, 712-first transmission wheel, 713-belt, 8-channel, 9-fourth rotating shaft, 10-rotating disc, 11-third gear, 12-connecting rod, 13-fourth gear, 14-contact block, 15-first rack, 16-N-type rod, 17-second rack, 17-fourth rack, 18-fourth spring, 19-separating plate, 22-fifth spring, 21-separating plate, 21-fifth separating plate, and 21-separating plate.

Detailed Description

The following further describes the technical solution with reference to specific embodiments, and it should be noted that: the words upper, lower, left, right, etc. used herein to indicate orientation are simply for the location of the illustrated structure in the corresponding figures. The serial numbers of the parts are themselves numbered herein, for example: first, second, etc. are used only to distinguish the described objects, and do not have any sequential or technical meaning. What is said in this application is: the connection and coupling, unless otherwise stated, include both direct and indirect connections (couplings).

Example 1

The utility model provides a irrigation ditch silt clean-up equipment for irrigation, as shown in fig. 1-6, including backup pad 1, first pivot 2, gyro wheel 3, handle 4, servo motor 5, removal subassembly 6 and desilting subassembly 7, the equal rotary type in 1 top left and right sides of backup pad is equipped with first pivot 2, both ends all are connected with gyro wheel 3 around first pivot 2, the welding of 1 right part of backup pad has handle 4, servo motor 5 is installed to 1 right rear side of backup pad, be equipped with removal subassembly 6 between first pivot 2 and the backup pad 1, be equipped with desilting subassembly 7 in the backup pad 1.

The moving assembly 6 comprises a second rotating shaft 601, a first gear 602, a second gear 603, a clutch synchronizing wheel 604, a clutch block 605, a second spring 606, a rotating rod 607, a contact rod 608, an arc-shaped wedge block 609, a first synchronizing wheel 610, a synchronous belt 611 and a compression spring 612, the second rotating shaft 601 is rotatably arranged at the right part of the support plate 1, the first gear 602 is welded at the rear end of the second rotating shaft 601, the second gear 603 is connected to an output shaft of the servo motor 5, the second gear 603 is meshed with the first gear 602, the clutch synchronizing wheel 604 is rotatably connected to the rear part of the second rotating shaft 601, the clutch block 605 is symmetrically connected to the front and rear part of the middle part of the second rotating shaft 601, the clutch block 605 at the rear side is matched with the clutch synchronizing wheel 604, the front part of the second rotating shaft 601 is connected with the dredging assembly 7, the second spring 606 is connected to the outer side of the clutch block 605, the outer end of the second spring 606 is connected with the second rotating rod 606, the contact rod 608 is slidably arranged at the lower part of the rotating rod 607, two arc-shaped wedge blocks 609 are arranged at the middle part of the top of the support plate 1, the two arc-shaped wedge blocks 609 are matched with the contact rod 609, the first rotating wheel 610 is connected with the first rotating shaft 610 at the middle part of the first rotating shaft 611, the middle part of the first rotating shaft 610 and the synchronous wheel 610 at the right side of the synchronous wheel 610, the synchronous wheel 612 are connected with the synchronous wheel 612, and the synchronous wheel 612 are connected with the synchronous wheel 612.

In the initial state, the second spring 606 at the rear side is in a compressed state, the clutch block 605 at the rear side is in contact with the clutch synchronizing wheel 604, and the contact rod 608 is in contact with the arc wedge 609, when people need to assist the whole equipment to move through the moving assembly 6, the output shaft of the servo motor 5 can drive the second gear 603 to continuously rotate, because the second gear 603 is meshed with the first gear 602, the second gear 603 can drive the second rotating shaft 601 to continuously rotate, so as to drive the clutch synchronizing wheel 604 and the clutch block 605 at the rear side to continuously rotate, and drive the first rotating shaft 2 at the right side to continuously rotate through the first synchronizing wheel 610 and the synchronous belt 611, so that people can more conveniently push the whole equipment, when people need to pour out sludge, the rotating rod 607 is pressed downwards by hand, the compression spring 612 is compressed, so as to drive the contact rod 608 to rotate, under the cooperation of the arc wedge 609, the contact rod 608 moves to the front side, so as to drive the clutch block 605 at the front side to move forward, the second spring 606 at the front side is compressed and is matched with the dredging component 7, under the action of the second spring 606 at the rear side, the clutch block 605 at the rear side moves forward and is separated from the clutch synchronizing wheel 604, at the moment, the clutch synchronizing wheel 604 cannot rotate, the first rotating shaft 2 and the roller 3 cannot rotate, people cannot push the device any more, then sludge in the dredging component 7 is poured out, finally the rotating rod 607 is released, under the action of the compression spring 612, the rotating rod 607 can reset, so as to drive the contact rod 608 to reset, the clutch blocks 605 at the front side and the rear side can reset along with the contact rod, the clutch block 605 at the front side is not matched with the dredging component 7, and the servo motor 5 can continue to drive the first rotating shaft 2 and the roller 3 at the right side to rotate.

Can use this equipment when people need clear up the silt in the irrigation canals and ditches 8, at first place equipment on irrigation canals and ditches 8, then promote handle 4, make this equipment can remove on irrigation canals and ditches 8 under first pivot 2 and gyro wheel 3's effect, then start servo motor 5, servo motor 5's output shaft can drive removal subassembly 6 and operate, make this equipment of removal that people can be lighter, this equipment can shovel the silt in the irrigation canals and ditches 8 through desilting subassembly 7 when removing, later people drive desilting subassembly 7 through removal subassembly 6 and upwards remove, and close servo motor 5, manual 7 outwards turn over the desilting subassembly, make silt on the desilting subassembly 7 poured out, later drive desilting subassembly 7 through removal subassembly 6 and reset, and start servo motor 5 once more, make this equipment remove once more can.

The dredging component 7 comprises a third rotating shaft 701, a winding wheel 702, a clutch driving wheel 703, a guide rail 704, a guide wheel 705, a support frame 706, a pull rope 707, a third spring 708, a guide rod 709, a connecting sleeve 710, a mud bucket 711, a first driving wheel 712 and a belt 713, the third rotating shaft 701 is rotatably arranged on the right side of the top of the support plate 1, the winding wheel 702 is symmetrically connected to the front and the back of the third rotating shaft 701, the first driving wheel 712 is connected to the third rotating shaft 701, the clutch driving wheel 703 is rotatably connected to the second rotating shaft 601, the belt 713 is wound on the clutch driving wheel 703 and the first driving wheel 712, the guide rail 704 is symmetrically arranged on the front and the back of the right side of the top of the support plate 1, the two guide wheels 705 are rotatably arranged on the top of the guide rail 704, the support frame 706 is slidably arranged between the guide rails 704 on the two sides, the pull rope 707 is wound on the winding wheel 702, the pull rope 707 is connected to the top of the support frame 706, the third spring 708 is symmetrically connected between the guide rail 704 and the support frame 706, the guide rod 709 is fixedly connected to the guide rod 709, and the guide rod 709 is symmetrically arranged on the front and the back of the guide rod 710, and the mud bucket connecting sleeve 711 is arranged on the mud bucket.

When people need to scoop up the sludge through the dredging component 7 and pour the sludge out, the sludge bucket 711 moves leftwards to scoop up the sludge in the ditch 8, under the matching of the clutch block 605 at the front side and the clutch transmission wheel 703, the third rotating shaft 701 and the reel 702 are driven to rotate continuously through the first transmission wheel 712 and the belt 713, so that the support frame 706 is pulled upwards through the pull rope 707, the third spring 708 is compressed, the sludge bucket 711 and the sludge at the front side and the rear side are driven to move upwards, when the proper position is reached, the servo motor 5 is turned off, as the servo motor 5 has a self-locking function, the sludge bucket 711 and the support frame 706 cannot move downwards, at the moment, people manually turn the sludge bucket 711 to the front side and the rear side, the sludge in the sludge bucket can be poured out from the front side and the rear side, then the sludge bucket 711 is reset, the clutch block 605 at the front side is not matched with the clutch transmission wheel 703 any more, and under the action of the gravity and the third spring 708, the sludge bucket 711 and the support frame 706 can reset downwards.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 2, 3, 4, 6 and 7, the device further includes a fourth rotating shaft 9, a rotating disc 10, a third gear 11, a connecting rod 12, a fourth gear 13, a contact block 14, a first rack 15, an N-shaped rod 16, a second rack 17 and a fourth spring 18, the fourth rotating shaft 9 is rotatably disposed in the middle of the right portion of the supporting frame 706, the rotating disc 10 is connected to the fourth rotating shaft 9, the third gear 11 is welded to the right end of the fourth rotating shaft 9, the connecting rods 12 are hinged to the front and rear sides of the rotating disc 10, the fourth gear 13 is welded to the right portion of the shovel bucket 711, the right end of the shovel bucket 711 is hinged to the connecting rod 12, the contact block 14 is fixedly connected to the front and rear ends of the supporting frame 706, the first rack 15 is fixedly connected to the middle of the top of the supporting plate 1, the first rack 15 is meshed with the third gear 11, the N-shaped rod 16 is symmetrically and fixedly connected to the front and rear of the middle of the top of the supporting plate 1, the N-shaped rod 16 is provided with the sliding type rod 17, the second rack 17 is symmetrically connected to the fourth spring 18.

The device is characterized by further comprising a movable plate 19, contact wheels 20 and fifth springs 21, wherein the movable plate 19 is arranged on the front side and the rear side of the right portion of the supporting plate 1 in a sliding mode, the three contact wheels 20 are uniformly and rotatably arranged at the bottom of the movable plate 19, and the fifth springs 21 are symmetrically connected between the movable plate 19 and the supporting plate 1 in a left-right mode.

The mud shovel is characterized by further comprising a separating plate 22, the separating plate 22 is fixedly connected to the middle of the left portion of the supporting plate 1, and the separating plate 22 is located between the mud shoveling buckets 711 on the front side and the rear side.

When the supporting frame 706 moves upwards, the supporting frame can drive the fourth rotating shaft 9 and the components thereon to move upwards together, when the third gear 11 moves upwards, the third gear can be meshed with the first rack 15, the third gear 11 can rotate anticlockwise, so that the connecting sleeve 710 and the mud shovel 711 are driven by the first connecting rod 12 to move outwards, meanwhile, the contact block 14 moves upwards to be in contact with the second rack 17 and drive the second rack 17 to move upwards, the fourth spring 18 is stretched, the fourth gear 13 can be always meshed with the second rack 17 when moving upwards and downwards, so that the fourth gear 13 and the mud shovel 711 are driven to rotate, further, mud in the mud shovel 711 can be automatically poured outwards, when the supporting frame 706 moves downwards, under the matching of the third gear 11, the first rack 15, the fourth rack and the second rack 17, the mud shovel 711 can move inwards and rotate inwards to reset, the contact can be separated from the second rack 17, under the action of the fourth spring 18, the second rack 17 can automatically reset, and people do not need to manually turn the mud shovel 711 out.

When people use the equipment, need to pull movable plate 19 and contact wheel 20 outwards a bit earlier, fifth spring 21 is stretched, later place the equipment on irrigation canals and ditches 8, unclamp movable plate 19, under the effect of fifth spring 21, contact wheel 20 will reset to the inside, contact wheel 20 and irrigation canals and ditches 8 contact can make the removal of this equipment can not squint.

The separating plate 22 can cut off the sludge between the front and rear mud shoveling buckets 711, so that the sludge is prevented from being connected when the mud shoveling buckets 711 are turned outwards and falling into the ditch 8 again.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and shall cover the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (4)

1. The utility model provides a irrigation ditch silt clean-up equipment for irrigation which characterized in that: comprises the following steps:

the device comprises a supporting plate (1), wherein first rotating shafts (2) are rotatably arranged on two sides of the top of the supporting plate (1);

the two ends of the first rotating shaft (2) are connected with the rollers (3);

the handle (4), the said handle (4) is welded on one side of the said shoe plate (1);

the servo motor (5) is arranged on one side, close to the handle (4), of the supporting plate (1);

a moving assembly (6), said moving assembly (6) being arranged between said first rotating shaft (2) and said supporting plate (1);

the dredging component (7), the dredging component (7) is arranged on the supporting plate (1);

the moving assembly (6) comprises:

the second rotating shaft (601) is rotatably arranged on one side, close to the handle (4), of the supporting plate (1), and the second rotating shaft (601) is connected with the dredging component (7);

a first gear (602), the first gear (602) being welded to the second shaft (601);

a second gear (603), the second gear (603) being connected to an output shaft of the servo motor (5), the second gear (603) being engaged with the first gear (602);

the clutch synchronizing wheel (604) is rotatably arranged on the second rotating shaft (601);

the clutch blocks (605) are symmetrically connected to the middle part of the second rotating shaft (601), the clutch block (605) on one side is matched with the clutch synchronizing wheel (604), and the clutch block (605) on the other side is matched with the dredging component (7);

the number of the second springs (606) is two, and the second springs (606) are connected between the clutch block (605) and the second rotating shaft (601);

the rotating rod (607) is rotatably arranged in the middle of the second rotating shaft (601);

the contact rod (608), the said contact rod (608) is set up in the inferior part of the said rotary lever (607) slidably;

the number of the arc-shaped wedge blocks (609) is two, the arc-shaped wedge blocks (609) are installed in the middle of the top of the supporting plate (1), and the arc-shaped wedge blocks (609) are matched with two sides of the contact rod (608);

the first synchronous wheel (610), the first synchronous wheel (610) is connected to the middle part of the first rotating shaft (2) close to one side of the handle (4);

a synchronous belt (611), wherein the synchronous belt (611) is wound on the first synchronous wheel (610) and the clutch synchronous wheel (604);

a compression spring (612), the compression spring (612) being connected between the rotating lever (607) and the support plate (1);

the desilting subassembly (7) includes:

the third rotating shaft (701), the third rotating shaft (701) is rotatably arranged on one side of the top of the supporting plate (1) close to the handle (4);

reels (702), the reels (702) being symmetrically connected to the third rotating shaft (701);

a first transmission wheel (712), wherein the first transmission wheel (712) is connected to the third rotating shaft (701);

the clutch transmission wheel (703), the said clutch transmission wheel (703) is connected to the said second spindle (601) rotatably;

a belt (713), said belt (713) being wound around said clutch transmission (703) and said first transmission wheel (712);

the guide rails (704), the guide rails (704) are symmetrically arranged on the top of the support plate (1);

the top of the guide rail (704) is provided with two guide wheels (705) in a rotating mode;

a support frame (706), wherein the support frame (706) is arranged between the guide rails (704) on two sides in a sliding manner;

the pull ropes (707) are wound on the reels (702), and the pull ropes (707) are wound around the guide wheels (705) and connected with the top of the support frame (706);

a third spring (708), wherein the third spring (708) is symmetrically connected between the guide rail (704) and the support frame (706);

the guide rod (709) is fixedly connected to the bottom of the support frame (706);

the connecting sleeve (710), the connecting sleeve (710) is symmetrically and slidably arranged on the guide rod (709);

the connecting sleeve (710) is provided with the shovel mud bucket (711) in an equal rotating mode, and the number of the shovel mud bucket (711) is two.

2. An irrigation ditch sludge removal apparatus as claimed in claim 1, further comprising: also includes:

the fourth rotating shaft (9), the fourth rotating shaft (9) is rotatably arranged in the middle of the supporting frame (706);

the rotary table (10), the rotary table (10) is rotationally arranged on the fourth rotating shaft (9);

the third gear (11), the said third gear (11) is welded on one end of the said fourth spindle (9);

the connecting rod (12) is hinged to two sides of the rotary table (10), and the shovel hopper (711) is hinged to the connecting rod (12);

the fourth gears (13) are welded to the mud shoveling buckets (711);

the contact block (14), the said contact block (14) is fixedly connected to both ends of the said supporting frame (706);

the first rack (15), the first rack (15) is fixedly connected to the middle of the top of the support plate (1), and the first rack (15) is meshed with the third gear (11);

the N-shaped rods (16), the N-shaped rods (16) are symmetrically and fixedly connected to the middle of the top of the support plate (1);

the N-shaped rods (16) are all arranged on the second rack (17) in a sliding mode, and the second rack (17) is meshed with the fourth gear (13);

a fourth spring (18), the fourth spring (18) being symmetrically connected between the second rack (17) and the N-bar (16).

3. An irrigation ditch sludge removal apparatus as claimed in claim 2, further comprising: also includes:

the movable plates (19), the movable plates (19) are arranged on two sides of the supporting plate (1) in a sliding manner;

the contact wheels (20) are rotatably arranged at the bottom of the movable plate (19), and the number of the contact wheels (20) is at least four;

the movable plate (19) and the support plate (1) are symmetrically connected with the fifth spring (21).

4. An irrigation ditch sludge removal apparatus as claimed in claim 3 in which: also includes:

the separation plate (22), the separation plate (22) fixed connection is in the backup pad (1) keep away from one side of handle (4), separation plate (22) are located both sides between shovel hopper (711).

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