Disclosure of Invention
In order to overcome the defects that a large amount of clear water is poured into a cleaning tank to clean walnut green husks manually, so that the tail water utilization rate is low, the cost is high, the cleaning efficiency is low, and the crushed slag is required to be picked manually, the technical problem of the invention is as follows: the water-saving walnut green husk recycling device can automatically clean walnut green husks, tail water can be recycled, and broken residues of the walnut green husks can be filtered.
A walnut green husk recycling device for water conservation includes: the base, both sides all are provided with the clean water tank around the base top; the air cylinder is arranged at the front side of the left part of the base; the air duct is arranged at the rear side of the upper part of the air cylinder; the support block is arranged at the top of the left side of the base; the top of the supporting block is provided with a cleaning pool; the fixed ring is arranged at the front side of the cleaning pool; the fixed ring is provided with an aeration pump, and the tail end of the air duct is connected with the upper part of the aeration pump; the first support frames are arranged on the left side and the right side between the two water purifying tanks; the first spray pipes are arranged between the two first support frames and are positioned at the top of the cleaning pool; the top parts of the two water purifying tanks are respectively provided with a second supporting frame; the second spray pipes are arranged between the two second support frames; the top of the left side of the base is provided with the third support frames in a front-back symmetry way, and the top ends of the two third support frames are connected with the left side of the cleaning pool; a filter tank is arranged between the right ends of the two third support frames; the guide plate is connected between the left side of the top of the filter tank and the lower part of the right side of the cleaning tank, and the same guide plate is connected to the lower part of the right side of the filter tank; the bottom of the guide plate at the lower part of the tail water tank is provided with a tail water tank; the support plates are symmetrically arranged on the top of the tail water tank left and right; the first water pump is arranged between the tops of the two supporting plates, and the tail end of the first spray pipe is connected with the first water pump; the filter tank is internally provided with a second filter screen in a sliding manner; the top parts of the two water purifying tanks are respectively provided with a second water pump, and the end parts of the second spray pipes are connected with the upper parts of the second water pumps on the same side; a residue barrel, wherein the top of the base is provided with a residue barrel, and the residue barrel is positioned below the filtering pool; the right side of the filter tank is provided with first sliding rails in a front-back symmetrical manner; the first sliding plate is arranged between the two first sliding rails in a sliding manner; the first filter screen is arranged at the lower part of the first sliding plate; the second sliding plate is arranged on the right side of the cleaning pool in a sliding way; the top of the base is provided with a fourth support frame which is connected with the bottom of the filter tank, and the residue barrel is connected with the fourth support frame in a sliding manner; the left side of the cleaning pool is provided with a pushing mechanism; and the discharging mechanism is arranged on the inner wall on the right side of the cleaning pool, and the pushing mechanism is matched with the discharging mechanism.
Further, the pushing equipment includes: the cleaning pool comprises a first handle, wherein the left side of the cleaning pool is provided with the first handle in a sliding manner; the first springs are symmetrically connected between the right side of the left part of the first handle and the left side of the cleaning pool in a front-back mode; the push plate is arranged at the right part of the first handle and is positioned in the cleaning pool.
Further, the unloading mechanism includes: push rods are symmetrically arranged at the front and back of the top of the push plate; the first guide rods are symmetrically arranged on the front and back of the inner wall of the right side of the cleaning pool; the first fixing plate is arranged between the two first guide rods in a sliding mode and is connected with the second sliding plate; the second springs are connected between the front side and the rear side of the bottom of the first fixed plate and the cleaning pool, and the initial state of the second springs is a compression state; the cleaning pool comprises a cleaning pool, a first fixing block and a second fixing block, wherein the first fixing block is symmetrically arranged on the right side of the top of the cleaning pool front and back; the first rotating shaft is rotatably arranged between the two first fixed blocks; the ejector blocks are symmetrically arranged on the first rotating shaft front and back, the push rod is matched with the ejector blocks, and the ejector blocks are matched with the first fixing plate; and the first torsion springs are connected between the top blocks and the first fixed blocks at the same side.
Further, still include clamping mechanism, clamping mechanism includes: the front side and the rear side of the filter tank are provided with second handles in a sliding mode, and one side, opposite to the other side, of each second handle is provided with a clamping block which is matched with the second filter screen; the front side and the rear side of the filter tank are respectively provided with a second fixed block; and the third springs are symmetrically connected between the second handle and the second fixed block at the same side.
Further, still include manual blowdown mechanism, manual blowdown mechanism includes: the second rotating shaft is symmetrically arranged at the front and back of the bottom of the filter tank in a rotating way; the first baffle plates are arranged on the two second rotating shafts; the front side of the bottom of the first baffle at the rear side is provided with a third rotating shaft; the clamping block is rotatably arranged on the third rotating shaft; and the second fixing plate is arranged at the rear side of the bottom of the first baffle plate at the front side, and the clamping block is matched with the second fixing plate.
Further, still include drainage mechanism, drainage mechanism includes: the fifth support frame is provided with a second guide rod; the second baffle is symmetrically arranged on the second guide rod in a sliding mode, and the second baffle is matched with the tail water tank; the fourth springs are symmetrically connected between the opposite sides of the two second baffles; the left side and the right side of the tail water tank are respectively provided with a second sliding rail; the wedge-shaped blocks are arranged on the two second sliding rails in a sliding mode; a connecting rod is arranged between the two wedge blocks; and the fifth springs are symmetrically connected between the top of the wedge block and the upper part of the second sliding rail on the same side.
Further, still include automatic blowdown mechanism, automatic blowdown mechanism includes: the bottom of the second fixing plate is provided with a third fixing block; the clamping rod is arranged on the third fixed block in a sliding manner and is matched with the clamping block; the bottom end of the clamping rod is provided with a fixing rod; the top of the wedge-shaped block on the left side is provided with a third fixing plate; a sixth spring is connected between the top end of the clamping rod and the third fixed block; and a second torsion spring is connected between the bottom of the clamping block and the bottom end of the third rotating shaft, and the initial state of the second torsion spring is a deformation state.
Further, a handle is arranged on one side of the residue barrel.
Compared with the prior art, the invention has the following advantages: 1. the staff is poured into the clearance pond with the walnut green husk and is washd, and the walnut green husk after the washing drops in the filtering ponds and filters the broken slag, carries out the secondary through the second shower to the walnut green husk simultaneously, takes out the water after the use in the tailrace pool under first water pump effect, spouts water to the walnut green husk through first shower to cyclic utilization's purpose has been reached.
2. The push plate slides rightwards and can push out the walnut green husks, meanwhile, the push rod is used for extruding the ejector block to swing rightwards, the first fixing plate slides upwards under the action of the second spring, and then the second sliding plate is automatically opened when the push plate slides rightwards, so that the workload of workers is reduced.
3. The staff promotes the fixture block to rotate and no longer blocks the second fixed plate for first baffle rotates downwards under the effect of gravity and opens the filtering ponds bottom, and the broken bits drop to in the incomplete sediment bucket thereupon and concentrate the collection, make things convenient for the staff to clear up the broken bits.
4. The staff makes wedge slip extrusion second baffle back slip open the tailstock through pressing the connecting rod, makes things convenient for the staff to release waste water, no longer need use the instrument to plug up the tailstock.
5. The third fixed plate moves downwards and passes through the extrusion dead lever for the clamping rod no longer blocks the fixture block, under the effect of second torsional spring, and then realized that the fixture block automatic rotation no longer blocks the second fixed plate and opens first baffle, when avoiding the manual work to rotate the fixture block and opening first baffle, the broken slag drops to staff's hand.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic perspective view of a first part of the present invention.
Fig. 3 is a schematic perspective view of a second part of the present invention.
Fig. 4 is a schematic perspective view of a third portion of the present invention.
Fig. 5 is a schematic perspective view of a pushing mechanism of the present invention.
Fig. 6 is a schematic diagram of a first three-dimensional structure of the blanking mechanism of the present invention.
Fig. 7 is a schematic diagram of a second perspective structure of the blanking mechanism of the present invention.
Fig. 8 is an enlarged schematic view of the portion a of the present invention.
Fig. 9 is a schematic perspective view of the clamping mechanism of the present invention.
Fig. 10 is an enlarged schematic view of the part B of the present invention.
Fig. 11 is a schematic perspective view of the manual drain mechanism of the present invention.
Fig. 12 is an enlarged schematic view of the part C of the present invention.
Fig. 13 is a schematic perspective view of a drainage mechanism according to the present invention.
Fig. 14 is a schematic perspective view of an automatic sewage draining mechanism of the present invention.
Fig. 15 is an enlarged schematic view of the portion D of the present invention.
In the reference numerals: 1. base, 2, clean water tank, 3, air reservoir, 4, air duct, 5, aeration pump, 6, fixing ring, 7, cleaning tank, 8, first shower pipe, 9, first support frame, 10, first water pump, 11, support plate, 12, tailstock tank, 13, guide plate, 14, first slide plate, 15, first filter screen, 16, filter tank, 17, second filter screen, 18, second shower pipe, 19, second support frame, 20, support block, 21, third support frame, 22, second water pump, 23, residue bucket, 24, first slide rail, 25, second slide plate, 26, fourth support frame, 27, pushing mechanism, 271, first handle, 272, first spring, 273, push plate, 28, blanking mechanism, 281, push rod, 282, first guide rod, 283, second spring, 284, a first fixing plate, 285, a first fixing block, 286, a top block, 287, a first rotating shaft, 288, a first torsion spring, 29, a clamping mechanism, 291, a second handle, 292, a second fixing block, 293, a third spring, 30, a manual pollution discharge mechanism, 301, a second rotating shaft, 302, a first baffle, 303, a third rotating shaft, 304, a clamping block, 305, a second fixing plate, 31, a drainage mechanism, 311, a fifth supporting frame, 312, a second baffle, 313, a second guide rod, 314, a fourth spring, 315, a wedge block, 316, a connecting rod, 317, a second sliding rail, 318, a fifth spring, 32, an automatic pollution discharge mechanism, 321, a third fixing block, 322, a clamping rod, 323, a fixing rod, 324, a third fixing plate, 325, a sixth spring, 327 and a second torsion spring.
Detailed Description
It should be noted that in the various embodiments described, identical components are provided with identical reference numerals or identical component names, wherein the disclosure contained throughout the description can be transferred in a meaning to identical components having identical reference numerals or identical component names. The position specification, the upper, lower, lateral, etc. selected in the description are also referred to directly in the description and the figures shown and are transferred in the sense of a new position when the position is changed.
Example 1
As shown in figures 1, 2, 3 and 4, the water-saving walnut green husk recycling device comprises a base 1, a clean water tank 2, an air cylinder 3, an air duct 4, an aeration pump 5, a fixing ring 6, a cleaning tank 7, a first spray pipe 8, a first support frame 9, a first water pump 10, a support plate 11, a tail water tank 12, a guide plate 13, a first slide plate 14, a first filter screen 15, a filter tank 16, a second filter screen 17, a second spray pipe 18, a second support frame 19, a support block 20, a third support frame 21, a second water pump 22, a residue barrel 23, a first slide rail 24, a second slide plate 25, a fourth support frame 26, a pushing mechanism 27 and a discharging mechanism 28, wherein the clean water tank 2 is arranged on the front side and the rear side of the top of the base 1, the clean water tank 2 is used for storing clean water, the air cylinder 3 is arranged on the front side of the left part of the base 1, the air duct 4 is arranged on the rear side of the upper part of the air cylinder 3, the top of the left side of the base 1 is provided with a supporting block 20, the top of the supporting block 20 is welded with a cleaning pool 7, the cleaning pool 7 is used for cleaning walnut green husks, the front side of the cleaning pool 7 is provided with a fixed ring 6, an aeration pump 5 is arranged on the fixed ring 6, the tail end of an air duct 4 is connected with the upper part of the aeration pump 5, the left side and the right side of the two water purifying tanks 2 are respectively provided with a first supporting frame 9 in a screw connection mode, a first spray pipe 8 is arranged between the two first supporting frames 9, the first spray pipe 8 is positioned at the top of the cleaning pool 7, the tops of the two water purifying tanks 2 are respectively welded with a second supporting frame 19, a second spray pipe 18 is arranged between the two second supporting frames 19, the second spray pipe 18 is used for spraying clean water, the top of the left side of the base 1 is provided with a third supporting frame 21 in a screw connection mode, the top ends of the two third supporting frames 21 are connected with the left side of the cleaning pool 7, a filter tank 16 is arranged between the right ends of the two third supporting frames 21, a guide plate 13 is connected between the left side of the top of the filter tank 16 and the lower part of the right side of the cleaning tank 7, the lower part of the right side of the filter tank 16 is connected with the same guide plate 13, the bottom of the lower guide plate 13 is provided with a tail water tank 12, the top of the tail water tank 12 is symmetrically provided with supporting plates 11 left and right, a first water pump 10 is arranged between the tops of the two supporting plates 11, the tail end of a first spray pipe 8 is connected with the first water pump 10, a second filter screen 17 is arranged in the filter tank 16 in a sliding manner, the second filter screen 17 is used for filtering the crushed slag, the tops of the two water purifying tanks 2 are both provided with second water pumps 22, the end parts of the second spray pipe 18 are connected with the upper parts of the second water pumps 22 on the same side, a residue barrel 23 is arranged at the top of the base 1, one side of the residue barrel 23 is provided with a handle, the residue bucket 23 is located filtering ponds 16 below, residue bucket 23 is used for collecting the broken bits, filtering ponds 16 right side front and back symmetry is provided with first slide rail 24, be provided with first slide 14 between two first slide rails 24, first slide 14 lower part is provided with first filter screen 15, the clearance pond 7 right side sliding is provided with second slide 25, base 1 top is provided with fourth support frame 26, fourth support frame 26 is connected with filtering ponds 16 bottom, residue bucket 23 is connected with fourth support frame 26 sliding, clearance pond 7 left side is provided with pushing mechanism 27, pushing mechanism 27 is used for pushing out the walnut green husk that washs the completion, be provided with unloading mechanism 28 on the clearance pond 7 right side inner wall, pushing mechanism 27 cooperates with unloading mechanism 28, unloading mechanism 28 is used for opening clearance pond 7.
When the walnut green husk is required to be cleaned, a certain amount of clean water is added into the clean water tank 2 by a worker, after the cleaning, the walnut green husk is poured into the cleaning tank 7 by the worker, then the clean water is poured into the cleaning tank 7, after the cleaning, the clean water is blocked by the worker by using a tool, because the second filter screen 17 is sliding, in order to avoid the second filter screen 17 sliding downwards under the action of gravity, the second filter screen 17 is fixed in the middle of the filter tank 16 by the worker by using the tool again, then the worker restarts the aeration pump 5, the aeration pump 5 operates to discharge the gas in the gas storage cylinder 3 into the cleaning tank 7 through the gas guide pipe 4, so that the clean water is rolled to clean the walnut green husk, after the cleaning, the worker pushes the pushing mechanism 27 to slide rightwards, so that the blanking mechanism 28 slides upwards to drive the second slide plate 25 to slide upwards so as to open the cleaning tank 7, the pushing mechanism 27 slides rightwards to push the cleaned walnut green shells and water together, the walnut green shells and water drop onto the second filter screen 17 through the guide plate 13 at the upper part, after the walnut green shells are completely pushed out, a worker releases the pushing mechanism 27, the pushing mechanism 27 slides leftwards to reset, then the worker pushes the blanking mechanism 28 to slide downwards to reset to drive the second sliding plate 25 to slide downwards to reset to close the cleaning pool 7, after the walnut green shells drop onto the second filter screen 17, the worker starts the second water pump 22 to pump clean water in the clean water tank 2 into the second spray pipe 18, the second spray pipe 18 sprays clean water onto the walnut green shells for secondary cleaning, after the completion, the worker turns off the second water pump 22, then the worker removes tools, then removes the second filter screen 17 to collect the cleaned walnut green shells, after completion, the staff puts back the second filter screen 17, the second filter screen 17 can filter the broken bits of walnut green husk in filtering ponds 16, water in the filtering ponds 16 flows into the tailrace pool 12 through first filter screen 15 and deflector 13 of lower part thereupon, can filter tiny broken bits under the effect of first filter screen 15, avoid a large amount of tiny broken bits of water residue in the tailrace pool 12, when the staff pours the walnut green husk into in the clearance pond 7 again, the staff starts first water pump 10 and pumps the water after the use in the tailrace pool 12 into first shower 8, first shower 8 spouts water on the walnut green husk thereupon, thereby the purpose of cyclic utilization has been reached, after the use is accomplished, the staff closes first water pump 10 and aeration pump 5 and stops the operation, after the water cycle use in the tailrace pool 12, the staff takes down the instrument on the tailrace pool 12 and releases waste water. The device simple structure, the staff is poured the walnut green husk into and is washd in the clearance pond 7, and the walnut green husk after the washing drops in filtering ponds 16 and filters the disintegrating slag, carries out the secondary through second shower 18 to the walnut green husk simultaneously, takes out the water after using in the tailrace pool 12 under first water pump 10 effect, spouts water to the walnut green husk through first shower 8 to cyclic utilization's purpose has been reached.
Example 2
As shown in fig. 1, 2, 5, 6, 7 and 8, on the basis of embodiment 1, the pushing mechanism 27 includes a first handle 271, a first spring 272 and a pushing plate 273, the cleaning pool 7 is provided with the first handle 271 in a left sliding manner, the first spring 272 is symmetrically connected between the right side of the left part of the first handle 271 and the left side of the cleaning pool 7, the pushing plate 273 is welded on the right part of the first handle 271, the pushing plate 273 is located in the cleaning pool 7, and the pushing plate 273 is used for pushing the cleaned walnut green shells.
The blanking mechanism 28 comprises a push rod 281, a first guide rod 282, a second spring 283, a first fixing plate 284, a first fixing block 285, a top block 286, a first rotating shaft 287 and a first torsion spring 288, wherein the push rod 281 is symmetrically welded around the top of the push plate 273, the first guide rod 282 is symmetrically arranged around the right inner wall of the cleaning tank 7, the first fixing plate 284 is slidably arranged between the two first guide rods 282, the first fixing plate 284 is connected with the second slide plate 25, the second spring 283 is connected between the front side and the rear side of the bottom of the first fixing plate 284 and the cleaning tank 7, the second spring 283 is in a compressed state in an initial state, the first fixing block 285 is symmetrically arranged around the right side of the top of the cleaning tank 7, the top block 286 is symmetrically arranged around the first rotating shaft 287, the push rod 281 is matched with the top block 286, the top block 286 is matched with the first fixing plate 284, and the first torsion spring 288 is connected between the top block 286 and the first fixing block 285 on the same side.
After the walnut green husk is washed, the first handle 271 is pushed to slide rightwards by a worker, the first spring 272 is compressed, the first handle 271 slides rightwards to drive the push plate 273 to slide rightwards, the first spring 272 is compressed, the push plate 273 slides rightwards to drive the push rod 281 to move rightwards to press the push block 286 to swing rightwards, the first torsion spring 288 is deformed, the push block 286 swings rightwards and does not press the first fixing plate 284 any more, the second spring 283 resets to drive the first fixing plate 284 to slide upwards, the first fixing plate 284 slides upwards to drive the second slide plate 25 to slide upwards to open the cleaning pool 7, the push plate 273 slides rightwards to push the walnut green husk and water together, the walnut green husk and water fall onto the second filter screen 17 through the guide plate 13 on the upper portion, after the walnut green husk is completely pushed out, the worker releases the first handle 271, the first spring 272 resets to drive the first handle 271 to slide leftwards to reset, the push plate 273 slides leftwards to reset to drive the push plate 281 to press the push rod 281 no longer to press the push rod 271, then the first fixing plate 284 to slide leftwards, the second spring 284 slides leftwards to drive the push plate 284 to push the push plate 281 to slide downwards to close the first torsion spring 284, and then the first torsion spring 284 slides downwards to fix the cleaning pool 284 a certain distance downwards. The device simple structure, push pedal 273 slides right and can release the walnut green husk, extrudees kicking block 286 through push rod 281 simultaneously and swings right, makes first fixed plate 284 upwards slide under the effect of second spring 283, and then has realized that push pedal 273 opens the second slide 25 is automatic when sliding right, has reduced staff's work load.
Example 3
As shown in fig. 1, 2, 9, 10, 11, 12, 13, 14 and 15, on the basis of embodiment 2, the filter tank further comprises a clamping mechanism 29, the clamping mechanism 29 comprises a second handle 291, a second fixing block 292 and a third spring 293, the front side and the rear side of the filter tank 16 are both provided with the second handles 291 in a sliding mode, clamping blocks are welded on opposite sides of the two second handles 291 and are matched with the second filter screen 17, the clamping blocks are used for clamping the second filter screen 17, the front side and the rear side of the filter tank 16 are both provided with the second fixing blocks 292, and the third springs 293 are symmetrically connected between the second handles 291 and the second fixing blocks 292 on the same side.
The push plate 273 slides rightwards to push out the walnut green husks and water, then the walnut green husks and the water are dropped onto the second filter screen 17 through the guide plate 13 on the upper part, clean water in the clean water tank 2 is pumped into the second spray pipe 18 through the second water pump 22, the clean water is sprayed onto the walnut green husks by the second spray pipe 18 to carry out secondary cleaning, after the cleaning is finished, a worker pulls the second handle 291 to slide back, the third spring 293 is compressed, the second handle 291 slides back to not clamp the second filter screen 17 any more, then the worker removes the second filter screen 17 to collect the walnut green husks, after the collection is finished, the worker returns the second filter screen 17, then the worker releases the second handle 291 again, and the third spring 293 resets to drive the second handle 291 to slide back to clamp the second filter screen 17. The device is simple in structure, the second filter screen 17 can be limited under the action of the second handle 291, the second filter screen 17 is prevented from sliding downwards under the action of gravity, and workers are not required to fix by using tools.
The manual blowdown mechanism 30 comprises a second rotating shaft 301, a first baffle 302, a third rotating shaft 303, clamping blocks 304 and a second fixing plate 305, wherein the second rotating shaft 301 is symmetrically arranged at the bottom of the filter tank 16 in a rotating mode, the first baffle 302 is arranged on the two second rotating shafts 301, the first baffle 302 is used for opening and closing the filter tank 16, the third rotating shaft 303 is arranged at the front side of the bottom of the first baffle 302 at the rear side, the clamping blocks 304 are rotatably arranged on the third rotating shaft 303, the second fixing plate 305 is welded at the rear side of the bottom of the first baffle 302 at the front side, and the clamping blocks 304 are matched with the second fixing plate 305.
When more slag in the filtering pond 16 needs to be cleaned, the worker pushes the clamping block 304 to rotate and does not clamp the second fixing plate 305 any more, the first baffle plate 302 rotates downwards under the action of gravity to open the bottom of the filtering pond 16, the slag falls into the slag barrel 23 to be collected intensively, then the worker pulls the first sliding plate 14 to slide upwards to remove the first filter screen 15, fine impurities are prevented from blocking the first filter screen 15, after the completion, the worker puts the first sliding plate 14 back, then pushes the first sliding plate 14 to slide downwards for resetting, at the moment, the worker pushes the first baffle plate 302 to rotate upwards to close the bottom of the filtering pond 16, the worker pushes the clamping block 304 to rotate and clamp the second fixing plate 305 to limit the first baffle plate 302, and because a handle is arranged at the rear side of the slag barrel 23, the worker pulls the handle to drive the slag barrel 23 to slide backwards for removing the slag, and after the completion of the cleaning, the worker pushes the handle to drive the slag barrel 23 to push forwards for resetting. The device simple structure, the staff promotes fixture block 304 rotation and no longer blocks second fixed plate 305 for first baffle 302 rotates downwards under the effect of gravity and opens filtering ponds 16 bottom, and the broken bits drop to in the residue bucket 23 thereupon and concentrate the collection, make things convenient for the staff to clear up the broken bits.
The device further comprises a drainage mechanism 31, the drainage mechanism 31 comprises a fifth support frame 311, a second baffle 312, a second guide rod 313, a fourth spring 314, wedge blocks 315, connecting rods 316, second sliding rails 317 and fifth springs 318, the fifth support frame 311 is provided with the second guide rods 313, the second baffle 312 is arranged on the second guide rods 313 in a front-back symmetrical sliding mode, the second baffle 312 is matched with the tail water tank 12, the second baffle 312 is used for opening and closing the tail water tank 12, the fourth springs 314 are symmetrically connected between one opposite sides of the two second baffles 312, the left side and the right side of the tail water tank 12 are welded with the second sliding rails 317, the wedge blocks 315 are arranged on the two second sliding rails 317 in a sliding mode, the connecting rods 316 are arranged between the two wedge blocks 315, and the fifth springs 318 are symmetrically connected between the top of the wedge blocks 315 and the upper parts of the second sliding rails 317 on the same side.
When water in the tail water tank 12 is recycled for a plurality of times and needs to be released, a worker presses the connecting rod 316 to drive the wedge block 315 to slide downwards, the fifth spring 318 is stretched, the wedge block 315 slides downwards to press the second baffle plate 312 to slide back, the fourth spring 314 is stretched, the second baffle plate 312 slides back to open the tail water tank 12, waste water in the tail water tank 12 flows out along with the waste water, after the tail water tank 12 is completed, the worker releases the connecting rod 316, the fifth spring 318 resets along with the wedge block 315 to slide upwards to reset without pressing the second baffle plate 312, and the fourth spring 314 resets along with the second baffle plate 312 to slide in opposite directions to reset to block the tail water tank 12. The device simple structure, the staff makes wedge 315 slip extrusion second baffle 312 back to the slip open tailrace pool 12 downwards through pressing the connecting rod 316, makes things convenient for the staff to release waste water, no longer need use the instrument to plug up tailrace pool 12.
The automatic sewage disposal device comprises a first fixing block 321, a clamping rod 322, a fixing rod 323, a first fixing plate 324, a first spring 325 and a first torsion spring 327, wherein the first fixing block 321 is arranged at the bottom of the first fixing plate 305, the clamping rod 322 is arranged on the first fixing block 321 in a sliding mode, the clamping rod 322 is matched with the clamping block 304, the fixing rod 323 is arranged at the bottom end of the clamping rod 322, the first fixing plate 324 is welded at the top of the wedge-shaped block 315 on the left side, the first spring 325 is connected between the top end of the clamping rod 322 and the first fixing block 321, the first torsion spring 327 is connected between the bottom of the clamping block 304 and the bottom end of the third rotating shaft 303, and the initial state of the first torsion spring 327 is a deformation state.
The left wedge 315 slides downwards to drive the third fixing plate 324 to move downwards, the third fixing plate 324 moves downwards to press the fixing rod 323, so that the clamping rod 322 is driven to slide downwards, the sixth spring 325 is compressed, the clamping rod 322 slides downwards to not clamp the clamping block 304, the second torsion spring 327 returns to drive the clamping block 304 to rotate to not clamp the second fixing plate 305, the first baffle 302 rotates downwards under the action of gravity to open the bottom of the filter tank 16, the crushed slag falls into the residue barrel 23 to be collected intensively, the left wedge 315 slides upwards to drive the third fixing plate 324 to move upwards to reset, the sixth spring 325 returns to drive the clamping rod 322 to slide to reset, then the worker pushes the first baffle 302 to rotate upwards to close the bottom of the filter tank 16, the worker pulls the fixing rod 323 to drive the clamping rod 322 to slide downwards, the sixth spring 325 is compressed, the worker pushes the clamping block 304 to rotate to clamp the second fixing plate 305, the second torsion spring 327 deforms accordingly, then the worker releases the fixing rod 323, and the sixth spring 325 returns to drive the clamping rod 322 to slide upwards to clamp the clamping block 304. The device simple structure, the third fixed plate 324 moves down through extrusion dead lever 323 for clamping lever 322 no longer blocks fixture block 304, under the effect of second torsional spring 327, and then realized that fixture block 304 automatic rotation no longer blocks second fixed plate 305 and opens first baffle 302, when avoiding the manual work to rotate fixture block 304 and opening first baffle 302, the broken bits drop to staff's hand.
While the invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.