CN109354353A - A kind of hydraulic engineering silt sedimentation system and processing method - Google Patents
A kind of hydraulic engineering silt sedimentation system and processing method Download PDFInfo
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- CN109354353A CN109354353A CN201811371121.1A CN201811371121A CN109354353A CN 109354353 A CN109354353 A CN 109354353A CN 201811371121 A CN201811371121 A CN 201811371121A CN 109354353 A CN109354353 A CN 109354353A
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- cavity
- fixedly connected
- fixed
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- case
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F11/00—Treatment of sludge; Devices therefor
- C02F11/12—Treatment of sludge; Devices therefor by de-watering, drying or thickening
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F11/00—Treatment of sludge; Devices therefor
- C02F11/008—Sludge treatment by fixation or solidification
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F11/00—Treatment of sludge; Devices therefor
- C02F11/12—Treatment of sludge; Devices therefor by de-watering, drying or thickening
- C02F11/121—Treatment of sludge; Devices therefor by de-watering, drying or thickening by mechanical de-watering
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- Engineering & Computer Science (AREA)
- Life Sciences & Earth Sciences (AREA)
- Hydrology & Water Resources (AREA)
- Environmental & Geological Engineering (AREA)
- Water Supply & Treatment (AREA)
- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Mechanical Engineering (AREA)
- Treatment Of Sludge (AREA)
Abstract
The invention discloses a kind of hydraulic engineering silt sedimentation systems and processing method, are related to hydraulic engineering technical field, including agitator tank, and treatment box is placed on the right side of the agitator tank, solidification case is placed on the right side for the treatment of box.The hydraulic engineering silt sedimentation system and processing method, achieve the effect that drive fixed frame rotation by motor, has the function that separation is stirred to silt, and to the function that the first cavity inner wall is cleared up, have the advantages that silt sedimentation effect is good, the case where preventing residual sludge in the first cavity simultaneously generation, achieve the effect that separate muddy water with sand, has the function of being handled silt, the case where preventing silt that can not take out through moisture using angle tilt, have the advantages that silt sedimentation effect is good, achieve the effect that move left and right baffle, the function of having support fixed case, it ensure that the stabilization of fixed case, muddy water can be made smoothly to be solidified.
Description
Technical field
The present invention relates to hydraulic engineering technical field, specially a kind of hydraulic engineering silt sedimentation system.
Background technique
Hydraulic engineering is the surface water and groundwater for controlling and deploying nature, reaches and removes the evil emerging sharp purpose and build
Engineering, also referred to as Hydraulic Projects, water is human being's production and essential precious resources of living, but the state of its naturally occurring is simultaneously
Not in full conformity with the needs of the mankind, hydraulic engineering is only built, just can control water flow, prevents flood, and carry out water
It adjusts and distributes, to meet people's lives and production to the needs of water resource.
During hydraulic engineering is harnessed the river, many silt can be filtered out, and sand contained in silt can recycle
It uses, needs the silt sedimentation system for separating to sand by silt sedimentation system, and often having, in separated sand
Still contain more sludge, and the mud isolated all is expelled directly out, and affects the clear water effect of water conservancy again, it cannot be effective
Sludge is handled, silt sedimentation effect is poor.
Summary of the invention
The object of the invention is in order to make up for the deficiencies of the prior art, provide a kind of hydraulic engineering silt sedimentation system
System and processing method, it has the advantages that silt sedimentation effect is preferable, solves existing silt sedimentation system silt sedimentation effect
The problem of fruit difference.
The present invention is in order to solve the above technical problems, provide the following technical solutions: a kind of hydraulic engineering silt sedimentation system,
Including agitator tank, it is placed with treatment box on the right side of the agitator tank, solidification case, the stirring are placed on the right side of the treatment box
The inside of case is equipped with rabbling mechanism, and the inside of the treatment box is equipped with filter mechanism, and the inside of the solidification case is equipped with
Curing mechanism.
The rabbling mechanism include water inlet pipe, the first water pump, outlet pipe, first bearing, the first cavity, sludge pipe, scraping blade,
Fixed frame, paddle, stirring rod, motor, first through hole, first gear, second gear and second bearing.
The filter mechanism includes the first input pipe, the first heater strip, threaded rod, the second water pump, the first efferent duct, second
Cavity, the first fixed block, screwed pipe, empty slot, the second fixed block and filter plate.
The curing mechanism includes the second input pipe, third water pump, the second efferent duct, pulling plate, groove, fixed case, second
Heater strip, baffle, notch, the second through-hole, sliding slot, sliding block, sliding panel, third cavity, reset spring, third through-hole, fixed link
With the 4th cavity.
Further, the inside of the agitator tank offers the first cavity, and the middle part of the first cavity inner roof wall is fixed
It is inlaid with second bearing, offers first through hole on the left of the first cavity inner roof wall, in the first cavity inner bottom wall
Portion is fixed to be inlaid with first bearing, and the inner ring of the first bearing is fixedly connected with stirring rod, the top of the stirring rod and the
The inner ring of two bearings is fixedly connected, and the top of the stirring rod outer surface is fixedly connected with second gear, table on the agitator tank
Motor is fixedly connected on the left of face, the bottom end of the motor output end through first through hole and extends in the first cavity, institute
The lower part for stating motor output end outer surface is fixedly connected with first gear, and first gear is meshed with the second gear, described to stir
The lower part for mixing rod outer surface is fixedly connected with fixed frame, and the left and right sides of the fixed frame are fixedly connected to scraping blade, described
The inner sidewall of fixed frame is fixedly connected with two groups of symmetrical paddles, the one side close to each other of paddle described in two groups with
The outer surface of stirring rod is fixedly connected, and first cavity is communicated with sludge pipe far from the top fixation of processing box inner wall, and
Sludge pipe runs through agitator tank and extends to the left side of agitator tank, is fixedly connected with the first water on the right side of the agitator tank upper surface
Pump, the input terminal of first water pump is fixed to be communicated with water inlet pipe, and the output end fixation of first water pump is communicated with outlet pipe,
And the bottom end of outlet pipe through agitator tank and extends in the first cavity.
By using above-mentioned technical proposal, uniformly mud can be stirred with sand and separated, be next step sand with
The filtering of mud provides advantageous condition, meanwhile, by scraping blade can the inner wall effectively to the first cavity clear up, prevent
Mud is only retained, whole practical function is improved.
Further, the inside of the treatment box offers the second cavity, and the upper surface of the treatment box is fixedly connected with
Second water pump, the input terminal of second water pump is fixed to be communicated with the first input pipe, and the output end of second water pump is fixed to be connected
It is connected with the first efferent duct, the bottom end of first efferent duct through treatment box and extends in the second cavity, the treatment box
Inside is opened up there are two symmetrical empty slot, and the inner bottom wall of each empty slot is fixedly connected to the first heater strip, two institutes
The top for stating the first heater strip is fixedly connected with the inner roof wall of two empty slots respectively, and second cavity is close to the inside of agitator tank
Wall is fixedly connected with the second fixed block, and second cavity is fixedly connected with the first fixed block far from the inner sidewall of agitator tank, and
First fixed block is located at the lower section of the second fixed block, and the inside of second cavity is placed with filter plate, a left side for the filter plate bottom surface
Side is in contact with the upper surface of the second fixed block, and the right side of the filter plate bottom surface is in contact with the upper surface of the first fixed block, and
Filter plate is located at the lower section of empty slot, and second cavity is inlaid with screwed pipe, the spiral shell close to the inner sidewall fixation of the first fixed block
The right end of line pipe is threaded with threaded rod.
By using above-mentioned technical proposal, effectively silt can be filtered by filter plate, pass through the first heater strip
Silt is dried, prevents silt humidity from can not effectively take out using angle tilt, improves whole practical effect
Fruit takes out sand more convenient.
Further, the inside of the solidification case offers the 4th cavity, and the upper surface of the solidification case is fixedly connected with
Third water pump, the input terminal of the third water pump is fixed to be communicated with the second input pipe, and the one of the separate solidification case of the second input pipe
End is through treatment box and extends in the second cavity, and the output end of the third water pump, which is fixed, is communicated with the second efferent duct, and the
The bottom end of three efferent ducts case and extends in the 4th cavity through solidification, there are two the inner bottom wall of the 4th cavity is fixedly connected
The second symmetrical heater strip, the inner bottom wall of the 4th cavity open up it is jagged, and notch be located at two the second heater strips it
Between, the inside of the solidification case is opened up there are two symmetrical third cavity, and two third cavitys are located at a left side for notch
Right two sides, the inner roof wall of each third cavity and the inner bottom wall of each third cavity offer sliding slot, and each described the
The inside of three cavitys is placed with sliding panel, and the upper surface of each sliding panel and the bottom surface of each sliding panel are fixedly connected with
There is sliding block compatible with sliding slot, and sliding block is connected in sliding slot, two third cavity inner sidewalls close to each other are opened
Equipped with the second through-hole, and each second through-hole is connected with notch, and the inner sidewall that two third cavitys are located remotely from each other is equal
Third through-hole is offered, two sliding panel one sides close to each other are fixedly connected to baffle, two baffle phases
Mutually close one end extends through two the second through-holes and extends in notch, the one side that two sliding panels are located remotely from each other
It is fixedly connected to fixed link, one end that two fixed links are located remotely from each other extends through two third through-holes and extends to solidifying
Gu the outside of case, the one side that two fixed links are located remotely from each other are fixedly connected to pulling plate, each fixed link it is outer
Surface is socketed with reset spring, and two reset springs one end close to each other is located remotely from each other with two sliding panels respectively
One side is fixedly connected, the inside that one end that two reset springs are located remotely from each other is located remotely from each other with two third cavitys respectively
Wall is fixedly connected, and the inside of the notch is placed with fixed case, the upper surface of each baffle with the bottom surface phase of fixed case
Contact, the top of the fixed case is through notch and extends in the 4th cavity, the upper surface of the fixed case open up it is fluted,
And groove is located at the underface of the second efferent duct.
By using above-mentioned technical proposal, muddy water can be evaporated by the second heater strip, make muddy water solid state, prevented
Water channel is polluted in only muddy water discharge again, by the support of baffle, can guarantee the stabilization of fixed case, meanwhile, it is capable to more convenient
Taking-up clod, have the effect of be easy to use.
Further, the bottom surface of the agitator tank is fixedly connected with two groups of first symmetrical supporting legs, and each described
The bottom surface of one supporting leg is fixedly connected to the first clump weight, and the bottom surface of the treatment box is fixedly connected with two groups of symmetrical
Two supporting legs, the bottom surface of each second supporting leg are fixedly connected to the second clump weight, and the bottom surface of the solidification case is fixed
Two groups of symmetrical third supporting legs are connected with, the bottom surface of each third supporting leg is fixedly connected to third clump weight,
There are gaps between the inner sidewall of the first cavity respectively for the one side that two scraping blades are located remotely from each other, and the distance in gap is not
Greater than 1cm, the fixed link is cylindrical, and the diameter value of fixed link is less than the diameter value of third through-hole.
By using above-mentioned technical proposal, has the whole effect of support, ensure that whole stabilization, it is therefore prevented that is whole
The case where toppling over can effectively be cleared up by inner wall of the scraping blade to the first cavity, placed mud and retained, it is therefore prevented that
The case where rubbing is generated between fixed link and third through-hole.
Further, processing method includes the following steps:
S1, the silt that hydraulic engineering is generated by being pumped into the first cavity at sludge pipe, by the first water pump and municipal power supply into
Row is connected, and twitches water using the first water pump and enters in the first cavity, mixes water with silt, by motor and municipal power supply
It is connected, the revolving speed of motor is controlled by the way that retarder is arranged, stirring rod rotation is driven by motor, to drive
Paddle carries out uniform stirring to water and silt, by silt mud and husky initial gross separation, meanwhile, pass through the rotation of fixed frame
It drives scraping blade to clear up the inner wall of the first cavity, prevents the inner wall of the first cavity from retaining sludge;
Second water pump is connected by S2 with municipal power supply, the sewage that will be stirred evenly in the first cavity using the second water pump
It is pumped into the second cavity, at filter plate, muddy water is separated with sand, sand stays in the upper surface of filter plate by filtering, and muddy water flows into
First heater strip is connected by the lower section of filter plate with municipal power supply.Moist to filter plate upper surface by the first heater strip
Sand is dried, and after sand drying, by unscrewing threaded rod, is taken out;
Third water pump is connected with municipal power supply, the sewage in the second cavity is pumped into groove using third water pump by S3
It is interior, the second heater strip is connected with municipal power supply, muddy water is evaporated by the second heater strip, makes muddy water solid-state
Change, is pulled two pulling plates to the side being located remotely from each other by manpower, reset spring is in compressive state at this time, loses baffle
Support, fixed case are skidded off by indentation, there, soil are taken out, be placed again into the 4th cavity, unclamped two pulling plates, utilize reset
The reseting performance of spring drives two baffles mobile to side close to each other, to support fixed case, again so that next time makes
With.
Compared with prior art, the hydraulic engineering silt sedimentation system and processing method have it is following the utility model has the advantages that
1, the present invention utilizes motor, stirring rod, paddle, first gear, second gear, fixation by being provided with rabbling mechanism
Being equipped between frame and scraping blade has achieved the effect that drive fixed frame rotation by motor, has had and stir silt
The function of separation is mixed, and to the function that the first cavity inner wall is cleared up, has the advantages that silt sedimentation effect is good, is prevented simultaneously
The case where having stopped residual sludge in the first cavity generation.
2, the present invention utilizes the first heater strip, the first fixed block, the second fixed block and filter plate by being provided with filter mechanism
Between be equipped with, achieved the effect that make muddy water to be separated with sand, had the function of being handled silt, prevent
The case where silt can not be taken out through moisture using angle tilt, has the advantages that silt sedimentation effect is good.
3, the present invention by being provided with curing mechanism, using pulling plate, fixed case, groove, baffle, notch, sliding slot, sliding block,
Being equipped between sliding panel, fixed link and reset spring has achieved the effect that move left and right baffle that it is solid to have support
The function of determining case ensure that the stabilization of fixed case, muddy water can be made smoothly to be solidified.
4, the present invention can effectively be evaporated muddy water by being provided with the second heater strip, make muddy water solid state, prevent
Muddy water discharge is stopped and has polluted water conservancy environment again, had the advantages that silt sedimentation effect is good, has connected by the way that the bottom surface of agitator tank is fixed
Connect there are two symmetrical the first supporting leg and the first clump weight, the second supporting leg, the second clump weight, third supporting leg and
Being equipped between third clump weight has the whole function of support, it is therefore prevented that whole the case where toppling over, ensure that
Whole stabilization.
Detailed description of the invention
Fig. 1 is agitator tank cross-sectional view of the present invention;
Fig. 2 is structure enlargement diagram at A in Fig. 1 of the present invention;
Fig. 3 is structure enlargement diagram at B in Fig. 1 of the present invention;
Fig. 4 is structure enlargement diagram at C in Fig. 1 of the present invention.
In figure: 1- rabbling mechanism, 101- water inlet pipe, the first water pump of 102-, 103- outlet pipe, 104- first bearing, 105-
First cavity, 106- sludge pipe, 107- scraping blade, 108- fixed frame, 109- paddle, 110- stirring rod, 111- motor, 112-
One through-hole, 113- first gear, 114- second gear, 115- second bearing, 2- filter mechanism, the first input pipe of 201-, 202-
First heater strip, 203- threaded rod, the second water pump of 204-, the first efferent duct of 205-, the second cavity of 206-, 207- first are fixed
Block, 208- screwed pipe, 209- empty slot, the second fixed block of 210-, 211- filter plate, 3- curing mechanism, the second input pipe of 301-, 302-
Third water pump, the second efferent duct of 303-, 304- pulling plate, 305- groove, 306- fixed case, the second heater strip of 307-, 308- baffle,
309- notch, the second through-hole of 310-, 311- sliding slot, 312- sliding block, 313- sliding panel, 314- third cavity, 315- reset spring,
316- third through-hole, 317- fixed link, the 4th cavity of 318-, 4- agitator tank, the first clump weight of 5-, the first supporting leg of 6-, 7-
Two supporting legs, 8- treatment box, the second clump weight of 9-, 10- solidify case, 11- third clump weight, 12- third supporting leg.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
Fig. 1-4 is please referred to, the present invention provides a kind of technical solution: a kind of hydraulic engineering silt sedimentation system, including stir
Case 4 is mixed, the right side of agitator tank 4 is placed with treatment box 8, and the right side for the treatment of box 8 is placed with solidification case 10, the inside peace of agitator tank 4
Equipped with rabbling mechanism 1, the inside for the treatment of box 8 is equipped with filter mechanism 2, and the inside of solidification case 10 is equipped with curing mechanism 3.
Rabbling mechanism 1 include water inlet pipe 101, the first water pump 102, outlet pipe 103, first bearing 104, the first cavity 105,
Sludge pipe 106, scraping blade 107, fixed frame 108, paddle 109, stirring rod 110, motor 111, first through hole 112, first gear
113, second gear 114 and second bearing 115.
Filter mechanism 2 is defeated including the first input pipe 201, the first heater strip 202, threaded rod 203, the second water pump 204, first
Outlet pipe 205, the second cavity 206, the first fixed block 207, screwed pipe 208, empty slot 209, the second fixed block 210 and filter plate 211.
Curing mechanism 3 include the second input pipe 301, third water pump 302, the second efferent duct 303, pulling plate 304, groove 305,
Fixed case 306, the second heater strip 307, baffle 308, notch 309, the second through-hole 310, sliding slot 311, sliding block 312, sliding panel
313, third cavity 314, reset spring 315, third through-hole 316, fixed link 317 and the 4th cavity 318.
Further, the inside of agitator tank 4 offers the first cavity 105, the fixed edge in the middle part of 105 inner roof wall of the first cavity
Embedded with second bearing 115, first through hole 112 is offered on the left of 105 inner roof wall of the first cavity, 105 inner bottom wall of the first cavity
Middle part fixation is inlaid with first bearing 104, and the inner ring of first bearing 104 is fixedly connected with stirring rod 110, the top of stirring rod 110
End is fixedly connected with the inner ring of second bearing 115, and the top of 110 outer surface of stirring rod is fixedly connected with second gear 114, stirring
Motor 111 is fixedly connected on the left of 4 upper surface of case, motor 111, which refers to, to be realized electric energy conversion according to the law of electromagnetic induction or pass
A kind of calutron passed, its main function is to generate driving torque, as electrical appliance or the power source of various machinery, motor
The bottom end of 111 equipment being well known from, 111 output end of motor through first through hole 112 and extends to the first cavity
In 105, the lower part of 111 output end outer surface of motor is fixedly connected with first gear 113, and first gear 113 and second gear
114 are meshed, and the lower part of 110 outer surface of stirring rod is fixedly connected with fixed frame 108, and the left and right sides of fixed frame 108 are solid
Surely it is connected with scraping blade 107, the inner sidewall of fixed frame 108 is fixedly connected with two groups of symmetrical paddles 109, two groups of paddles
109 one sides close to each other are fixedly connected with the outer surface of stirring rod 110, and the first cavity 105 is far from 8 inner sidewall for the treatment of box
Top it is fixed be communicated with sludge pipe 106, and sludge pipe 106 through agitator tank 4 and extends to the left side of agitator tank 4, agitator tank 4
It is fixedly connected with the first water pump 102 on the right side of upper surface, water pump is the machinery for conveying liquid or being pressurized liquid, it is by prime mover
Mechanical energy or other external energies send liquid to, increase liquid energy, be mainly used to convey liquid include water, oil, acid
Lye, emulsion, suspended emulsion and liquid metal etc., the equipment that water pump is well known from, the input terminal of the first water pump 102
Fixed to be communicated with water inlet pipe 101, the output end fixation of the first water pump 102 is communicated with outlet pipe 103, and the bottom end of outlet pipe 103
It through agitator tank 4 and extends in the first cavity 105, uniformly mud can be stirred with sand and separated, be next step
The husky filtering with mud provides advantageous condition, meanwhile, inner wall that can effectively to the first cavity 105 by scraping blade 107
It is cleared up, prevents from retaining mud, improve whole practical function.
Further, the inside for the treatment of box 8 offers the second cavity 206, and the upper surface for the treatment of box 8 is fixedly connected with second
Water pump 204, the input terminal of the second water pump 204 is fixed to be communicated with the first input pipe 201, and the output end of the second water pump 204 is fixed to be connected
It is connected with the first efferent duct 205, the bottom end of the first efferent duct 205 through treatment box 8 and extends in the second cavity 206, treatment box 8
Inside open up there are two symmetrical empty slot 209, the inner bottom wall of each empty slot 209 is fixedly connected to the first heater strip 202,
The top of two the first heater strips 202 is fixedly connected with the inner roof wall of two empty slots 209 respectively, and the second cavity 206 is close to stirring
The inner sidewall of case 4 is fixedly connected with the second fixed block 210, and the second cavity 206 is fixedly connected with far from the inner sidewall of agitator tank 4
One fixed block 207, and the first fixed block 207 is located at the lower section of the second fixed block 210, the inside of the second cavity 206 is placed with filter
Plate 211, the left side of 211 bottom surface of filter plate are in contact with the upper surface of the second fixed block 210, the right side and first of 211 bottom surface of filter plate
The upper surface of fixed block 207 is in contact, and filter plate 211 is located at the lower section of empty slot 209, and the second cavity 206 is close to the first fixed block
207 inner sidewall fixation is inlaid with screwed pipe 208, and the right end of screwed pipe 208 is threaded with threaded rod 203, can pass through filter
Plate 211 is effectively filtered silt, is dried by the first heater strip 202 to silt, prevents silt humidity can not
It is effectively taken out using angle tilt, improves whole practical function, take out sand more convenient.
Further, the inside for solidifying case 10 offers the 4th cavity 318, and the upper surface of solidification case 10 is fixedly connected with the
Three water pumps 302, the input terminal of third water pump 302 is fixed to be communicated with the second input pipe 301, and the second input pipe 301 is far from solidification
One end of case 10 is through treatment box 8 and extends in the second cavity 206, and the output end fixation of third water pump 302 is communicated with second
Efferent duct 303, and the bottom end of third efferent duct 303 through solidification case 10 and extends in the 4th cavity 318, the 4th cavity 318
Inner bottom wall be fixedly connected there are two the second symmetrical heater strip 307, the inner bottom wall of the 4th cavity 318 opens up jagged 309,
And notch 309 is located between two the second heater strips 307, the inside of solidification case 10 opens up that there are two symmetrical third cavitys
314, and two third cavitys 14 are located at the left and right sides of notch 309, the inner roof wall of each third cavity 14 and each the
The inner bottom wall of three cavitys 14 offers sliding slot 311, and the inside of each third cavity 14 is placed with sliding panel 313, each cunning
The upper surface of movable plate 313 is fixedly connected to sliding block 312 compatible with sliding slot 311 with the bottom surface of each sliding panel 313, and sliding
Block 312 is connected in sliding slot 311, and two third cavitys 14 inner sidewall close to each other offers the second through-hole 310, and each
Second through-hole 310 is connected with notch 309, and the inner sidewall that two third cavitys 14 are located remotely from each other offers third through-hole
316, two one sides close to each other of sliding panel 313 are fixedly connected to baffle 308, two baffles 308 it is close to each other one
End extends through two the second through-holes 310 and extends in notch 309, and the one side that two sliding panels 313 are located remotely from each other is solid
Surely it is connected with fixed link 317, one end that two fixed links 317 are located remotely from each other extends through two third through-holes 316 and extends to
The outside of case 10 is solidified, the one side that two fixed links 317 are located remotely from each other is fixedly connected to pulling plate 304, each fixed link 317
Outer surface be socketed with reset spring 315, two reset springs 315 one end close to each other respectively with two sliding panels 313
The one side being located remotely from each other is fixedly connected, one end that two reset springs 315 are located remotely from each other respectively with two 314 phases of third cavity
Mutual separate inner sidewall is fixedly connected, and the inside of notch 309 is placed with fixed case 306, and the upper surface of each baffle 308 is and solid
The bottom surface for determining case 306 is in contact, and the top of fixed case 306 through notch 309 and extends in the 4th cavity 318, fixed case 306
Upper surface open up fluted 305, and groove 305 is located at the underface of the second efferent duct 303, can pass through the second heater strip
307 pairs of muddy water are evaporated, and make muddy water solid state, are prevented muddy water discharge from polluting water channel again, are passed through the support of baffle 308, energy
Enough guarantee the stabilization of fixed case 306, meanwhile, it is capable to which more convenient taking-up clod, has the effect of being easy to use.
Further, the bottom surface of agitator tank 4 is fixedly connected with two groups of first symmetrical supporting legs 6, each first support
The bottom surface of leg 6 is fixedly connected to the first clump weight 5, and the bottom surface for the treatment of box 8 is fixedly connected with two groups of second symmetrical supports
Leg 7, the bottom surface of each second supporting leg 7 are fixedly connected to the second clump weight 9, and the bottom surface of solidification case 10 is fixedly connected with two groups
The bottom surface of symmetrical third supporting leg 12, each third supporting leg 12 is fixedly connected to third clump weight 11, has branch
Whole effect is supportted, ensure that whole stabilization, it is therefore prevented that whole the case where toppling over.
Further, the one side that two scraping blades 107 are located remotely from each other respectively between the inner sidewall of the first cavity 105 there are
Gap, and the distance in gap is not more than 1cm, can effectively be cleared up by inner wall of the scraping blade 107 to the first cavity 105,
Mud is placed to retain.
Further, fixed link 317 is cylindrical, and the diameter value of fixed link 317 is less than the diameter of third through-hole 316
Value, it is therefore prevented that the case where rubbing is generated between fixed link 317 and third through-hole 316.
Further, processing method includes the following steps:
S1, the silt that hydraulic engineering is generated at sludge pipe 106 by being pumped into the first cavity 105, by the first water pump 102 and city
Political affairs power supply is connected, and twitches water using the first water pump 102 and enters in the first cavity 105, mixes water with silt, will
Motor 111 is connected with municipal power supply, is controlled by the way that retarder is arranged the revolving speed of motor 111, passes through motor 111
Drive stirring rod 110 rotates, to drive paddle 109 to carry out uniform stirring to water and silt, by the mud and sand in silt
Initial gross separation, meanwhile, it drives scraping blade 107 to clear up the inner wall of the first cavity 105 by the rotation of fixed frame 108, prevents
The inner wall of first cavity 105 retains sludge;
Second water pump 204 is connected by S2 with municipal power supply, will be stirred in first cavity 105 using the second water pump 204 equal
Even sewage is pumped into the second cavity 206, and at filter plate 211, muddy water is separated with sand, and sand stays in filter plate 211 by filtering
Upper surface, muddy water flow into filter plate 211 lower section, by the first heater strip 202 with municipal administration power supply be connected.Add by first
Heated filament 202 dries the sand of 211 upper surface of filter plate humidity, after sand drying, by unscrewing threaded rod 203, takes out;
Third water pump 302 is connected by S3 with municipal power supply, using third water pump 302 by the sewage in the second cavity 206
It is pumped into groove 305, the second heater strip 307 is connected with municipal power supply, muddy water is carried out by the second heater strip 307
It is evaporated, makes muddy water solid state, pulled two pulling plates 304 to the side being located remotely from each other by manpower, at this time at reset spring 315
In compressive state, the support of baffle 308 is lost, soil is taken out by skidding off at notch 309, be placed again by fixed case 306
In four cavitys 318, two pulling plates 304 are unclamped, using the reseting performance of reset spring 315, drive two baffles 308 to mutually leaning on
Close side is mobile, to support fixed case 306 again, for use next time.
Working principle: the silt that hydraulic engineering is generated at sludge pipe 106 by being pumped into the first cavity 105, by first
Water pump 102 is connected with municipal power supply, twitches water using the first water pump 102 and enters in the first cavity 105, makes water and silt
It is mixed, motor 111 is connected with municipal power supply, the revolving speed of motor 111 is controlled by the way that retarder is arranged,
Stirring rod 110 is driven to rotate by motor 111, so that paddle 109 is driven to carry out uniform stirring to water and silt, it will be in silt
Mud and husky initial gross separation, meanwhile, drive scraping blade 107 to carry out the inner wall of the first cavity 105 by the rotation of fixed frame 108
Cleaning, prevents the inner wall of the first cavity 105 from retaining sludge, and the second water pump 204 is connected with municipal power supply, utilizes second
Water pump 204 by the sewage stirred evenly in the first cavity 105 be pumped into the second cavity 206 in, at filter plate 211, by muddy water with
Sand separation, sand stay in the upper surface of filter plate 211 by filtering, and muddy water flows into the lower section of filter plate 211, by the first heater strip 202 with
Municipal power supply is connected.It is dried by sand of first heater strip 202 to 211 upper surface of filter plate humidity, sand dries
After dry, by unscrewing threaded rod 203, take out, third water pump 302 is connected with municipal power supply, utilizes third water pump 302
Sewage in second cavity 206 is pumped into groove 305, the second heater strip 307 is connected with municipal administration power supply, by the
Two heater strips 307 are evaporated muddy water, make muddy water solid state, by manpower by two pulling plates 304 to the side being located remotely from each other
It pulls, reset spring 315 is in compressive state at this time, loses the support of baffle 308, and fixed case 306 passes through sliding at notch 309
Out, soil is taken out, is placed again into the 4th cavity 318, unclamped two pulling plates 304, utilize the reset of reset spring 315
Can, it is mobile to side close to each other to drive two baffles 308, to support fixed case 306, for use next time, energy again
Enough realize efficiently separates silt, effectively avoids that silt sedimentation effect is poor, and curing performance is preferable, effectively raises mud
Husky treatment effeciency.
In the description of the present invention, the terms "include", "comprise" or its any other variant are intended to nonexcludability
Include so that include a series of elements process, method, article or equipment not only include those elements, but also
Including other elements that are not explicitly listed, or further include for this process, method, article or equipment intrinsic want
Element.In the absence of more restrictions, the element limited by sentence " including a reference structure ", it is not excluded that including institute
State in the process, method, article or equipment of element that there is also other identical elements.It should be noted that, in this document, all
As the relational terms of " first ", " second " or the like are used merely to an entity or operation and another entity or operating space
It separates, without necessarily requiring or implying between these entities or operation, there are any actual relationship or orders.
It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with
A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding
And modification, the scope of the present invention is defined by the appended.
Claims (6)
1. a kind of hydraulic engineering silt sedimentation system, including agitator tank (4), processing is placed on the right side of the agitator tank (4)
Case (8), it is characterised in that: solidification case (10), the inside installation of the agitator tank (4) are placed on the right side of the treatment box (8)
Have rabbling mechanism (1), the inside of the treatment box (8) is equipped with filter mechanism (2), and the inside of solidification case (10) is equipped with
Curing mechanism (3);
The rabbling mechanism (1) includes water inlet pipe (101), the first water pump (102), outlet pipe (103), first bearing (104),
One cavity (105), sludge pipe (106), scraping blade (107), fixed frame (108), paddle (109), stirring rod (110), motor
(111), first through hole (112), first gear (113), second gear (114) and second bearing (115);
The filter mechanism (2) includes the first input pipe (201), the first heater strip (202), threaded rod (203), the second water pump
(204), the first efferent duct (205), the second cavity (206), the first fixed block (207), screwed pipe (208), empty slot (209),
Two fixed blocks (210) and filter plate (211);
The curing mechanism (3) includes the second input pipe (301), third water pump (302), the second efferent duct (303), pulling plate
(304), groove (305), fixed case (306), the second heater strip (307), baffle (308), notch (309), the second through-hole
(310), sliding slot (311), sliding block (312), sliding panel (313), third cavity (314), reset spring (315), third through-hole
(316), fixed link (317) and the 4th cavity (318).
2. a kind of hydraulic engineering silt sedimentation system according to claim 1, it is characterised in that: the agitator tank (4)
Inside offer the first cavity (105), the fixation of the middle part of the first cavity (105) inner roof wall is inlaid with second bearing
(115), it is offered first through hole (112) on the left of the first cavity (105) inner roof wall, the interior bottom of first cavity (105)
The middle part fixation of wall is inlaid with first bearing (104), and the inner ring of the first bearing (104) is fixedly connected with stirring rod (110),
The top of the stirring rod (110) is fixedly connected with the inner ring of second bearing (115), stirring rod (110) outer surface it is upper
Portion is fixedly connected with second gear (114), is fixedly connected with motor (111), the electricity on the left of agitator tank (4) upper surface
The bottom end of machine (111) output end is through first through hole (112) and extends in the first cavity (105), motor (111) output
The lower part of end outer surface is fixedly connected with first gear (113), and first gear (113) is meshed with second gear (114), institute
The lower part for stating stirring rod (110) outer surface is fixedly connected with fixed frame (108), and the left and right sides of the fixed frame (108) are equal
It being fixedly connected with scraping blade (107), the inner sidewall of the fixed frame (108) is fixedly connected with two groups of symmetrical paddles (109),
Paddle described in two groups (109) one side close to each other is fixedly connected with the outer surface of stirring rod (110), and described first is empty
Chamber (105) is communicated with sludge pipe (106) far from the top fixation for the treatment of box (8) inner sidewall, and sludge pipe (106) runs through agitator tank
(4) and the left sides of agitator tank (4) is extended to, is fixedly connected with the first water pump (102) on the right side of agitator tank (4) upper surface,
The input terminal fixation of first water pump (102) is communicated with water inlet pipe (101), and the output end of first water pump (102) is fixed
It is communicated with outlet pipe (103), and the bottom end of outlet pipe (103) through agitator tank (4) and extends in the first cavity (105).
3. a kind of hydraulic engineering silt sedimentation system according to claim 2, it is characterised in that: the treatment box (8)
Inside offer the second cavity (206), the upper surface of the treatment box (8) is fixedly connected with the second water pump (204), described
The input terminal fixation of two water pumps (204) is communicated with the first input pipe (201), and the output end of second water pump (204) is fixed to be connected
It is connected with the first efferent duct (205), the bottom end of first efferent duct (205) through treatment box (8) and extends to the second cavity
(206) in, the inside of the treatment box (8) is opened up there are two symmetrical empty slot (209), each empty slot (209) it is interior
Bottom wall is fixedly connected to the first heater strip (202), the top of two first heater strips (202) respectively with two empty slots
(209) inner roof wall is fixedly connected, and it is solid that inner sidewall of second cavity (206) close to agitator tank (4) is fixedly connected with second
To determine block (210), second cavity (206) is fixedly connected with the first fixed block (207) far from the inner sidewall of agitator tank (4), and
First fixed block (207) is located at the lower section of the second fixed block (210), and the inside of second cavity (206) is placed with filter plate
(211), the left side of filter plate (211) bottom surface is in contact with the upper surface of the second fixed block (210), filter plate (211) bottom
The right side in face is in contact with the upper surface of the first fixed block (207), and filter plate (211) is located at the lower section of empty slot (209), and described
Inner sidewall fixation of two cavitys (206) close to the first fixed block (207) is inlaid with screwed pipe (208), the screwed pipe (208)
Right end is threaded with threaded rod (203).
4. a kind of hydraulic engineering silt sedimentation system according to claim 3, it is characterised in that: the solidification case (10)
Inside offer the 4th cavity (318), the upper surface of solidification case (10) is fixedly connected with third water pump (302), described
The input terminal fixation of third water pump (302) is communicated with the second input pipe (301), and the second input pipe (301) is far from solidification case
(10) one end is through treatment box (8) and extends in the second cavity (206), and the output end of the third water pump (302) is fixed
It is communicated with the second efferent duct (303), and the bottom end of third efferent duct (303) through solidification case (10) and extends to the 4th cavity
(318) in, the inner bottom wall of the 4th cavity (318) is fixedly connected there are two symmetrical the second heater strip (307), and described the
The inner bottom wall of four cavitys (318) opens up jagged (309), and notch (309) is located between two the second heater strips (307), institute
The inside for stating solidification case (10) is opened up there are two symmetrical third cavity (314), and two third cavitys (14) are located at
The left and right sides of notch (309), the inner roof wall of each third cavity (14) and the inner bottom wall of each third cavity (14) are equal
It offers sliding slot (311), the inside of each third cavity (14) is placed with sliding panel (313), each sliding panel
(313) bottom surface of upper surface and each sliding panel (313) is fixedly connected to and sliding slot (311) compatible sliding block (312),
And sliding block (312) is connected in sliding slot (311), the two third cavity (14) inner sidewalls close to each other offer second
Through-hole (310), and each second through-hole (310) is connected with notch (309), two third cavitys (14) are located remotely from each other
Inner sidewall offer third through-hole (316), two sliding panel (313) one sides close to each other are fixedly connected to
Baffle (308), two baffle (308) one end close to each other extend through two the second through-holes (310) and extend to scarce
In mouth (309), the one side that two sliding panels (313) are located remotely from each other is fixedly connected to fixed link (317), described in two
One end that fixed link (317) is located remotely from each other extends through two third through-holes (316) and extends to the outside of solidification case (10), and two
The one side that a fixed link (317) is located remotely from each other is fixedly connected to pulling plate (304), each fixed link (317)
Outer surface is socketed with reset spring (315), and two reset springs (315) one end close to each other is slided with two respectively
The one side that plate (313) is located remotely from each other is fixedly connected, one end that two reset springs (315) are located remotely from each other respectively with two
The inner sidewall that third cavity (314) is located remotely from each other is fixedly connected, and the inside of the notch (309) is placed with fixed case (306), often
The upper surface of a baffle (308) is in contact with the bottom surface of fixed case (306), and the top of the fixed case (306) is run through
Notch (309) simultaneously extends in the 4th cavity (318), and the upper surface of the fixed case (306) opens up fluted (305), and recessed
Slot (305) is located at the underface of the second efferent duct (303).
5. a kind of hydraulic engineering silt sedimentation system according to claim 4, it is characterised in that: the agitator tank (4)
Bottom surface be fixedly connected with two groups of symmetrical first supporting legs (6), the bottom surface of each first supporting leg (6) is fixed to be connected
It is connected to the first clump weight (5), the bottom surface of the treatment box (8) is fixedly connected with two groups of symmetrical second supporting legs (7), each
The bottom surface of second supporting leg (7) is fixedly connected to the second clump weight (9), and the bottom surface of solidification case (10) is fixedly connected
There are two groups of symmetrical third supporting legs (12), the bottom surface of each third supporting leg (12) is fixedly connected to third counterweight
Block (11), the one side that two scraping blades (107) are located remotely from each other respectively between the inner sidewall of the first cavity (105) there are
Gap, and the distance in gap is not more than 1cm, the fixed link (317) is cylindrical, and the diameter value of fixed link (317) is less than the
The diameter value of three through-holes (316).
6. a kind of processing method of hydraulic engineering silt sedimentation system according to claim 1, it is characterised in that: processing
Method includes the following steps:
S1, the silt that hydraulic engineering is generated at sludge pipe (106) by being pumped into the first cavity (105), by the first water pump
(102) it is connected with municipal administration power supply, twitches water using the first water pump (102) and enter in the first cavity (105), make water and mud
Sand is mixed, and motor (111) is connected with municipal power supply, by setting retarder to the revolving speed of motor (111) into
Row control drives stirring rod (110) rotation by motor (111), so that it is uniform to drive paddle (109) to carry out water and silt
Stirring, by silt mud and husky initial gross separation, meanwhile, drive scraping blade (107) to first by the rotation of fixed frame (108)
The inner wall of cavity (105) is cleared up, and prevents the inner wall of the first cavity (105) from retaining sludge;
Second water pump (204) is connected by S2 with municipal power supply, will be in the first cavity (105) using the second water pump (204)
The sewage stirred evenly is pumped into the second cavity (206), and at filter plate (211), muddy water is separated with sand, and sand is stayed by filtering
In the upper surface of filter plate (211), muddy water flows into the lower section of filter plate (211), and the first heater strip (202) and municipal power supply are carried out phase
Connection, is dried by sand of the first heater strip (202) to filter plate (211) upper surface humidity, after sand drying, by twisting
It opens threaded rod (203), takes out;
Third water pump (302) is connected by S3 with municipal power supply, will be in the second cavity (206) using third water pump (302)
Sewage be pumped into groove (305) in, by the second heater strip (307) with municipal administration power supply be connected, pass through the second heater strip
(307) muddy water is evaporated, makes muddy water solid state, pulled two pulling plates (304) to the side being located remotely from each other by manpower,
Reset spring (315) is in compressive state at this time, loses the support of baffle (308), and fixed case (306) passes through at notch (309)
It skids off, soil is taken out, be placed again into the 4th cavity (318), unclamp two pulling plates (304), utilize reset spring (315)
It is mobile to side close to each other to drive two baffles (308) for reseting performance, so that fixed case (306) are supported again, so as under
Secondary use.
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CN201811371121.1A CN109354353A (en) | 2018-11-18 | 2018-11-18 | A kind of hydraulic engineering silt sedimentation system and processing method |
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CN111252874A (en) * | 2019-11-24 | 2020-06-09 | 胡双双 | Sewage sludge separation cyclic utilization equipment for building engineering |
CN114477696A (en) * | 2022-02-16 | 2022-05-13 | 上海杰堂环保科技有限公司 | Environment-friendly drying treatment device and method for sludge drying |
CN115215480A (en) * | 2022-07-22 | 2022-10-21 | 江西勇骏实业有限公司 | Environment-friendly is deplating separation and is used precipitate clearance separator |
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