CN115611392A

CN115611392A - Environment-friendly wastewater treatment device

Info

Publication number: CN115611392A
Application number: CN202211360871.5A
Authority: CN
Inventors: 王晶
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-11-02
Filing date: 2022-11-02
Publication date: 2023-01-17

Abstract

The invention relates to the field of wastewater treatment, in particular to an environment-friendly wastewater processor, which comprises a base plate, a vertical rod, a treatment bin, a flow dividing bin, a filter plate, a recovery pipe, a liquid discharge pipe, an injection pipe, an outer extension pipe, a power generation module and supporting legs, wherein the base plate is fixedly connected with the vertical rod; the invention solves the problems that the traditional wastewater processor is difficult to convert and utilize potential energy in the wastewater flowing process and needs continuous electric quantity transmission through external energy in the coal washing wastewater treatment process, the load intensity of external energy is increased, the traditional treatment mode is difficult to separate and discharge large-volume coal slag particles which cannot be coagulated independently, pipeline blockage caused by particle impurity accumulation is easily caused, the operation difficulty of subsequent cleaning and maintenance operation is increased, the problem that the flocculation space of a flocculating agent is limited due to collision or accumulation of large-volume solid impurities is solved, the flocculation volume and the effective utilization efficiency of the flocculating agent are reduced, and the time consumption of subsequent precipitation is increased.

Description

Environment-friendly wastewater treatment device

Technical Field

The invention relates to the field of wastewater treatment, in particular to an environment-friendly wastewater treatment device.

Background

The waste water is a general term of water and runoff rainwater drained in the process of activities of residents. It comprises domestic sewage, industrial wastewater and other non-useful water such as primary rainwater runoff into a drainage pipe canal, generally refers to water which can not be recycled after being treated by a certain technology or water which can not be purified to meet a certain standard after primary pollution, coal is used as one of important supporting energy sources for modern life and industrial production and is mainly applied to industries such as power generation, heating and smelting, and the coal can not be directly put into use after being taken out from a mine,

coal washing is an indispensable procedure for coal deep processing, coal directly mined from a mine is called raw coal, a plurality of impurities are mixed in the raw coal during mining, the quality of the coal is different, and the coal with small inherent ash content and the coal with large inherent ash content are mixed together. The coal washing is an industrial process for removing impurities in raw coal or classifying high-quality coal and low-quality coal, the raw coal with different components and different specific gravities is classified into different grades through the impact effect of water flow, dust and waste rocks are removed, the ash content and the sulfur content are reduced, the coal washing is called coal washing and is an essential link in coal processing, the coal after coal washing is clean coal, the purpose of environmental protection can be achieved through the coal washing, the utilization rate of the coal can be improved, and the like;

coal washing wastewater is industrial tail water of a coal mine wet coal washing processing technology, usually, one ton of coal needs three tons of water to be washed, the wastewater generated after washing contains a large amount of coal slime and silt, which causes serious pollution to the environment near an ore region, the coal washing wastewater is one of main pollution sources of the coal industry and is more and more emphasized by people, a coal washing wastewater treatment method generally adopts coagulation sedimentation or an air floatation method, the treated effluent can be reused for production, and the following problems often exist in the process of treating the coal washing wastewater by the coagulation sedimentation method:

(1) Because the demand and the usage amount of the coal washing wastewater are relatively high, the traditional wastewater processor is difficult to convert and utilize potential energy in the wastewater flowing process in the coal washing treatment and subsequent purification operation processes, continuous electric quantity transmission needs to be carried out through external energy, and the load strength of external energy is increased;

(2) In the process of wastewater treatment, large-volume coal slag particles which cannot be coagulated are difficult to separate and discharge independently, so that the particles and impurities are easy to accumulate to cause pipeline blockage, the operation difficulty of subsequent cleaning and maintenance operation is increased, the collision or accumulation of large-volume solid impurities limits the flocculation space after the subsequent flocculant is put in, the flocculation volume and the effective utilization efficiency of the flocculant are reduced, and the time required by subsequent precipitation is also increased.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an environment-friendly wastewater processor.

The technical scheme adopted by the invention for solving the technical problems is as follows: an environment-friendly wastewater processor comprises a substrate, vertical rods, a processing bin, a shunting bin, a filter plate, a recovery pipe, a liquid discharge pipe, a filling pipe, an outer extension pipe, a power generation module and support legs, wherein the support legs are uniformly arranged on the lower end face of the substrate;

handle storehouse middle part front and back symmetry and seted up waist type spout, install the filter between the waist type spout jointly, the turning all is connected through the inner wall lower extreme of vibrating spring with waist type spout all around of filter, the middle part of filter is provided with the rectangle notch, the lower extreme in reposition of redundant personnel storehouse is located the rectangle notch and shunts storehouse and rectangle notch sliding fit, bilateral symmetry is provided with two sets of filtration net on the filter, and two sets of filtration net are located the left and right sides in reposition of redundant personnel storehouse respectively, the up end bilateral symmetry of filter is installed and is kept off the board that flows, the well upper portion that keeps off the board is the slope structure, and the contained angle that keeps off between the well upper portion inclined plane that flows the board and the filter is the obtuse angle.

Preferably, the bottom bilateral symmetry in reposition of redundant personnel storehouse set up jaggedly, the inboard in reposition of redundant personnel storehouse is linked together through breach and processing storehouse, the lower extreme of breach and the up end parallel and level of filter, the swash plate is installed through the slope of articulated mode in the upper end of breach, the contained angle between swash plate and the reposition of redundant personnel storehouse lateral wall is the top that the well lower part of acute angle and swash plate is located the filter.

Preferably, the bottom position arc structure in reposition of redundant personnel storehouse, the inboard fixed mounting in bottom in reposition of redundant personnel storehouse has the leading truck, the leading truck is with the reposition of redundant personnel storehouse with the axle center, the left and right sides upper end of leading truck is the inclined plane, and contained angle between the inclined plane of the left and right sides is the obtuse angle, the recovery tube is installed through sliding fit's mode in the inclined plane bottom of leading truck, the axle center position that the overhanging tube is located the leading truck and the overhanging tube is linked together with the one end of recovery tube, the other end of recovery tube is located the outside of handling the storehouse and the recovery tube and the lateral wall seal cooperation of handling the storehouse, all be provided with the notch on the inclined plane of the left and right sides of leading truck, the weeping mouth has evenly been seted up along its circumference in the bottom in reposition of redundant personnel storehouse, and the weeping mouth communicates with the bottom of handling the storehouse.

Preferably, the material returning rotating shaft is installed at the bottom of the recovery pipe through a bearing, the spiral blade is installed on the material returning rotating shaft, the material returning motor is fixedly installed at the exposed end of the recovery pipe through a motor base, the output shaft of the material returning motor is connected with the material returning rotating shaft through a coupler, and the material returning motor is electrically connected with the power generation module.

Preferably, reposition of redundant personnel storehouse in the upper portion lateral wall install the reposition of redundant personnel pivot through normal running fit's mode bilateral symmetry, the central axis of reposition of redundant personnel pivot is located the lateral wall plane in reposition of redundant personnel storehouse, evenly install splitter blade along its axis direction in the reposition of redundant personnel pivot, the current-limiting ring is installed to the left and right sides lateral wall symmetry in processing storehouse, and current-limiting ring and splitter blade are coaxial, the both ends tip of reposition of redundant personnel pivot all is located the electricity generation module and the tip and the electricity generation module electric connection of reposition of redundant personnel pivot.

Preferably, handle storehouse lower extreme inner wall bilateral symmetry and install two sets of clearance slide rails, two sets of clearance slide rails are located the top that the both sides of controlling in reposition of redundant personnel storehouse and two sets of clearance slide rails all are located the filter respectively, all install a set of clearance slider through sliding fit's mode in every group clearance slide rail, all install the clearance pivot through normal running fit's mode between every group clearance slider, the lower part of clearance pivot is evenly pegged graft and is had the brush, and the brush supports the up end that leans on the filter.

Preferably, the outer wall of the treatment bin is fixedly provided with a dislocation ring, the dislocation ring is sleeved outside the shunt rotating shaft and coaxial with the shunt rotating shaft, an annular groove is formed in the dislocation ring, the end parts of two ends of the shunt rotating shaft are provided with poking rods through bearings, one side of each poking rod is connected with the side wall of the treatment bin through a tension spring, a limiting rod is fixedly arranged on the dislocation ring and abuts against the side wall of each poking rod, a stop rod is arranged at the upper end of each poking rod in a sliding fit manner and is connected with the poking rod through a stop spring, one end part of each stop rod abuts against the side wall of the dislocation ring in a sliding fit manner, the end part of the shunt rotating shaft is uniformly provided with a push rod along the circumferential direction of the shunt rotating shaft, the push rod is in abutting fit with one end part of the stop rod, and the lower end part of the poking rod is in sliding fit with the cleaning rotating shaft.

Preferably, annular groove one end be provided with the inclined plane, and the inclined plane is close to the gag lever post direction, the perpendicular interval between fender position pole tip and the push rod central axis is less than annular groove's notch degree of depth.

Preferably, the lower end of the poke rod is provided with a yielding notch, and the end part of the cleaning rotating shaft is abutted against the yielding notch in a sliding fit mode.

Preferably, clearance pivot tip and clearance slider all be provided with the permanent magnet of mutual absorption, the tip fixed mounting of clearance pivot has the switching lever, the equal fixed mounting of the left and right sides inner wall in processing storehouse has two dead levers, two dead levers are located the front and back both ends of clearance slide rail respectively, the switching lever is located between two adjacent dead levers, and the position that is close to processing storehouse middle part dead lever highly is higher than the position height that is close to processing storehouse border position dead lever.

The invention has the beneficial effects that:

(1) According to the environment-friendly wastewater processor, the influence caused by solute deposition in coal washing wastewater can be reduced through the drainage and filtering mechanisms arranged in the vertical direction, the uniform mixing degree between the solute and the solution in the conveying process of the coal washing wastewater system is improved, a flocculating agent can be adhered and combined with impurities in the surrounding solution to the maximum extent in the later period when being thrown in conveniently, the flocculation efficiency is improved, the centrally-conveyed wastewater can be separated through the centrally-arranged flow dividing bin, and meanwhile, the power generation is carried out by utilizing the flow and the flow velocity of the wastewater, so that the load strength of an external energy source is saved.

(2) According to the environment-friendly wastewater processor, the vibration plate is movably arranged, so that the blockage of the vibration plate can be avoided while the interception operation of large-volume impurities is carried out, the compression of a flocculation space of a flocculating agent caused by the mutual extrusion and accumulation of large-particle impurities is avoided by separately separating and discharging the large-volume impurities, the effective utilization rate of the flocculating agent is improved, the lumpy volume of the flocculating agent during the flocculation operation of the flocculating agent is also improved, the subsequent sedimentation is facilitated, the unidirectional intermittent cleaning operation is carried out through the hairbrush, the large-volume impurities intercepted on the vibration plate can be unidirectionally pushed and isolated, the effective service life of a filter plate and the passing rate of wastewater are improved, the concentration degree of filtering and collecting of solid impurities is also improved, the recovery pipe can push and discharge the impurities through the rotation of the helical blade, and the efficiency of the wastewater treatment operation and the later-stage cleaning and maintenance operation is also improved through the automatic cleaning operation mode while the utilization rate of coal cinder is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of a preferred embodiment of an environmental wastewater treatment apparatus provided by the present invention;

FIG. 2 is a top view of FIG. 1 in accordance with the present invention;

FIG. 3 isbase:Sub>A schematic cross-sectional view taken along line A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic cross-sectional view taken along line B-B of FIG. 2 in accordance with the present invention;

FIG. 5 is an enlarged view taken at C of FIG. 4 according to the present invention;

FIG. 6 is a schematic diagram showing the position relationship among the treatment chamber, the flow dividing chamber and the filter plate according to the present invention;

FIG. 7 is a longitudinal partial perspective view of the present invention;

FIG. 8 is an enlarged view taken at D of FIG. 7 in accordance with the present invention;

FIG. 9 is a partial perspective view of the filter plate and the recycling tube according to the present invention;

FIG. 10 is a schematic diagram showing the positional relationship among the pushing rod, the dislocation ring and the wave rod;

FIG. 11 is a schematic view of the position relationship between the pushing rod and the stop lever according to the present invention;

FIG. 12 is an enlarged view of FIG. 11 at E according to the present invention;

in the figure: 1. a substrate; 2. a vertical rod; 3. a processing bin; 4. a flow distribution bin; 5. a filter plate; 6. a recovery pipe; 7. a liquid discharge pipe; 8. a filling pipe; 9. an outer extension tube; 10. a power generation module; 11. supporting legs; 51. a vibration spring; 52. filtering the grids; 53. a flow baffle plate; 41. a sloping plate; 42. a guide frame; 61. a material returning rotating shaft; 62. a helical blade; 63. a material returning motor; 43. a shunt rotating shaft; 431. a splitter blade; 31. a flow-limiting ring; 32. cleaning the slide rail; 33. cleaning the sliding block; 34. cleaning the rotating shaft; 341. a brush; 35. a dislocation loop; 351. an annular groove; 44. a poke rod; 441. a tension spring; 352. a limiting rod; 442. a gear lever; 443. a gear spring; 432. a push rod; 343. a switch lever; 35. and (6) fixing the rod.

Detailed Description

The present invention will be further described with reference to the following detailed description so that the technical means, the creation features, the achievement purposes and the effects of the present invention can be easily understood.

Referring to fig. 1, 2 and 3, an environment-friendly wastewater treatment device comprises a substrate 1, a vertical rod 2, a treatment bin 3, a shunt bin 4, a filter plate 5, a recovery pipe 6, a liquid discharge pipe 7, a filling pipe 8, an extension pipe 9, a power generation module 10 and support legs 11, wherein the support legs 11 are uniformly installed on the lower end surface of the substrate 1, the vertical rod 2 is uniformly installed on the upper end surface of the substrate 1, the treatment bin 3 is jointly installed on the upper end of the vertical rod 2, the upper end of the treatment bin 3 is of an open structure, the shunt bin 4 is fixedly installed in the middle of the inner side of the treatment bin 3, the filter plate 5 is movably installed on the lower portion of the inner side of the treatment bin 3, the shunt bin 4 movably penetrates through the middle of the filter plate 5, the recovery pipe 6 is movably installed on the lower end of the shunt bin 4, the recovery pipe 6 is located below the filter plate 5, the extension pipe 9 is fixedly installed on the side wall of the treatment bin 3, the extension pipe 9 is communicated with the recovery pipe 6, the lower end of the treatment bin 3 is fixedly installed with the liquid discharge pipe 7, the liquid discharge pipe 7 is located below the filter plate 5, the liquid discharge pipe 8 is fixedly installed on the upper end of the liquid discharge pipe 7, the power generation module 8 is communicated with the power generation module 7, the power generation module 10 is fixedly installed on the side wall of the treatment bin 3, the side wall of the current treatment bin 10, and the current drainage pipe 10 is installed in the prior art.

Referring to fig. 4, 5, 7 and 8, an arc-shaped groove is formed in the upper side wall of the shunt bin 4, shunt rotating shafts 43 are symmetrically installed in the groove in a bilateral mode in a rotation fit manner, the central axis of the shunt rotating shaft 43 is located on the side wall plane of the shunt bin 4, shunt blades 431 are evenly installed on the shunt rotating shaft 43 along the axis direction of the shunt rotating shaft, current-limiting rings 31 are symmetrically installed on the side walls of the left side and the right side of the treatment bin 3, the current-limiting rings 31 and the shunt blades 431 are coaxial, the end portions of the two ends of the shunt rotating shaft 43 are located in the power generation module 10, the end portions of the shunt rotating shaft 43 are electrically connected with the power generation module 10, two groups of cleaning sliding rails 32 are symmetrically installed on the inner wall of the lower end of the treatment bin 3 in a bilateral mode, the two groups of cleaning sliding rails 32 are located on the left side and the right side of the shunt bin 4, the two groups of cleaning sliding rails 32 are located above the filter 5, a group of cleaning sliding blocks 33 are provided with cleaning rotating shafts 34, the lower portion of the cleaning shafts are evenly inserted with 341, and the brush head faces of the brush of the filter 5 are abutted against the brush.

When the wastewater treatment device works, firstly, a drainage pipe 7 is communicated with the existing wastewater sedimentation tank through a worker, a containing box is arranged outside an outward extending pipe 9, then, wastewater to be treated after coal washing is introduced into a treatment bin 3, then, the wastewater begins to naturally fall under the action of gravity, in the falling process of the wastewater, the wastewater is separated and shunted to two sides of the treatment bin 3 under the separation and shunting action of a shunting bin 4, when the wastewater in a shunting state flows through the position of a current-limiting ring 31, the flowing path of the wastewater is extruded and contracted, then, the flow speed of the wastewater passing through the position of the current-limiting ring 31 is increased, and as the current-limiting ring 31 is positioned at the outer edge position of the current-limiting blade 431, the current-limiting blade 431 immediately begins to rotate under the flow impact action of the wastewater, and drives the shunting rotating shaft 43 to synchronously rotate, then, the power generation module 10 starts to charge energy and is stored by a storage battery, then, the wastewater passing through the area position of the flow-limiting ring 31 further flows downwards under the action of gravity and reaches the upper end surface of the filter plate 5, when the wastewater reaches the upper end surface of the filter plate 5, the water and fine particle impurities doped in the water in the wastewater immediately pass through the filter plate 5 and further flow downwards under the action of gravity and finally reach the liquid discharge pipe 7 at the bottom of the treatment bin 3, then, a flocculating agent is put into the filling pipe 8 by a worker or an existing conveying mechanism, and then, when the wastewater flows through the port at the bottom of the filling pipe 8, the flocculating agent is mixed with the wastewater and synchronously flows into the sedimentation tank along with the wastewater.

Referring to fig. 4, 5 and 7, the middle part of the treatment chamber 3 is symmetrically provided with waist-shaped sliding grooves in the front and back direction, a filter plate 5 is installed between the waist-shaped sliding grooves, the corners around the filter plate 5 are connected with the lower end of the inner wall of the waist-shaped sliding grooves through a vibration spring 51, the middle part of the filter plate 5 is provided with a rectangular notch, the lower end of the flow dividing bin 4 is positioned in the rectangular notch, the flow dividing bin 4 is in sliding fit with the rectangular notch, two sets of filtering grids 52 are symmetrically arranged on the filter plate 5 in the left and right directions, the two sets of filtering grids 52 are respectively positioned on the left and right sides of the flow dividing bin 4, the flow blocking plate 53 is symmetrically installed on the upper end surface of the filter plate 5 in the left and right directions, the middle upper part of the flow blocking plate 53 is of an inclined structure, and the included angle between the inclined plane of the middle upper part of the flow blocking plate 53 and the filter plate 5 is an obtuse angle.

During specific work, under the falling impact effect of waste water and the elastic supporting effect of the vibration spring 51, the filter plate 5 is in a continuous vibration state in the working process, the flow baffle plates 53 arranged at the two ends of the filter plate 5 can further improve the concentration degree of the waste water in the falling process, the self reciprocating vibration of the filter plate 5 can reduce the accumulation thickness of solid impurities, and the probability of blockage of the filter grid 52 is reduced while the subsequent cleaning work efficiency is improved.

Referring to fig. 8 to 12, the outer wall of the processing chamber 3 is fixedly provided with a dislocation ring 35, the dislocation ring 35 is sleeved outside the shunt rotating shaft 43, the dislocation ring 35 and the shunt rotating shaft 43 have the same axis, the dislocation ring 35 is provided with an annular groove 351, the end parts of the two ends of the shunt rotating shaft 43 are both provided with a poke rod 44 through a bearing, one side of the poke rod 44 is connected with the side wall of the processing chamber 3 through a tension spring 441, the dislocation ring 35 is fixedly provided with a limit rod 352, the limiting rod 352 abuts against the side wall of the poke rod 44, the upper end of the poke rod 44 is provided with a stop lever 442 in a sliding fit manner, the stop lever 442 is connected with the poke rod 44 through a stop spring 443, one end of the stop lever 442 abuts against the side wall of the dislocation ring 35 in a sliding fit manner, the end of the shunt rotating shaft 43 is uniformly provided with the push rods 432 along the circumferential direction thereof, and the pushing rod 432 is in interference fit with one end of the blocking rod 442, the lower end of the poke rod 44 is provided with a abdicating notch, the end of the cleaning rotating shaft 34 is abutted in the abdicating notch by a sliding fit, one end of the annular groove 351 is provided with an inclined surface, and the inclined plane is close to the direction of the limit rod 352, the vertical distance between the end part of the stop rod 442 and the central axis of the push rod 432 is smaller than the depth of the notch of the annular groove 351, the end part of the cleaning rotating shaft 34 and the cleaning slide block 33 are both provided with permanent magnets which are mutually adsorbed, the end part of the cleaning rotating shaft 34 is fixedly provided with a switching rod 343, the inner walls of the left side and the right side of the treatment bin 3 are both fixedly provided with two fixed rods 35, the two fixed rods 35 are respectively positioned at the front end and the rear end of the cleaning slide rail 32, the switching rod 343 is positioned between the two adjacent fixed rods 35, and the height of the fixing rod 35 near the middle of the treatment bin 3 is higher than that of the fixing rod 35 near the edge of the treatment bin 3.

During specific work, at an initial position, the toggle rod 44 is pulled by the elastic force of the tension spring 441, the side wall of the toggle rod 44 always abuts against the side wall of the stop rod 352, the end of the stop rod 442 abuts against the side wall of the dislocation ring 35 at the moment, the end position of the stop rod 442 is higher than that of the push rod 432, then, in the process of rotating the shunting rotating shaft 43, the uniformly arranged push rods 432 are driven to synchronously rotate circumferentially, when the push rod 432 rotates to the position of the stop rod 442, the push rod 432 is in abutting contact with the stop rod 442, then, under the further rotating action of the push rod 432, the stop rod 442 starts to drive the toggle rod 44 to synchronously rotate along with the shunting rotating shaft 43 under the pushing action of the push rod 432, and then, the cleaning rotating shaft 34 is further moved in the horizontal direction under the limiting action between the abdicating notch at the bottom of the toggle rod 44 and the cleaning rotating shaft 34, the moving path of the cleaning rotating shaft 34 can be limited by the sliding limit matching between the cleaning sliding block 33 and the cleaning sliding rail 32, the cleaning rotating shaft 34 drives the brush 341 to perform synchronous horizontal movement, so as to clean large-volume impurities accumulated on the filter plate 5, the effective service life of the filter plate 5 and the filtration passing rate of waste water are improved, when the pushing rod 432 pushes the stop rod 442 to move to the position of the annular groove 351, the stop rod 442 is pushed by the elastic force of the stop spring 443 to gradually slide to the inner side of the annular groove 351, and the stop rod 442 gradually breaks away from contact with the pushing rod 432 in the sliding process, when the stop rod 442 moves to the predetermined depth position in the annular groove 351, the pushing rod 432 completely breaks away from contact with the stop rod 442, and then the pushing rod 44 starts to reset under the elastic force reset pulling action of the tension spring 441, the shifting rod 44 drives the gear level rod 442 to synchronously reset, the gear level rod 442 moves out of the annular groove 351, the cleaning rotating shaft 34 is driven to synchronously reset in the process of resetting and rotating the shifting rod 44, then the pushing rod 432 of the next station rotates to the position of the gear level rod 442, the shifting rod 44 rotates again through the limiting and blocking effect, and the intermittent reciprocating swing operation of the shifting rod 44 is realized through the reciprocating operation;

in the cleaning operation process of the cleaning rotating shaft 34 driving the brush 341 to clean the filter plate 5, when the cleaning rotating shaft 34 moves to the position of the fixed rod 35 at the front end of the cleaning slide rail 32, the switching rod 343 receives the limit blocking effect of the fixed rod 35 on the horizontal moving path, then the switching rod 343 starts to rotate and drives the cleaning rotating shaft 34 to rotate on the cleaning slider 33, through the mutual adsorption effect of the permanent magnets between the cleaning slider 33 and the end of the cleaning rotating shaft 34, a holding force can be provided for the inclined angle after the switching rod 343 rotates, when the cleaning rotating shaft 34 is in the horizontal reset moving process, the brush 341 arranged below the cleaning rotating shaft 34 always keeps an inclined angle to perform horizontal reset movement, when the switching rod 343 in the inclined state moves horizontally to the position of the fixed rod 35 at the rear end of the cleaning slide rail 32, the brush starts to perform reset rotation under the reverse limit blocking effect of the fixed rod 35 and returns to the initial vertical state, and the reciprocating operation can realize unidirectional cleaning operation of the brush 341 and improve the concentration degree of filtering and collecting solid impurities.

Referring to fig. 3, 6, 7 and 9, the bottom of the diversion bin 4 is symmetrically provided with notches at left and right sides, the inner side of the diversion bin 4 is communicated with the treatment bin 3 through the notches, the lower end of the notch is flush with the upper end face of the filter plate 5, the upper end of the notch is obliquely provided with an inclined plate 41 in a hinged mode, a torsion spring is arranged between the inclined plate 41 and the diversion bin 4, the included angle between the inclined plate 41 and the side wall of the diversion bin 4 is an acute angle, the middle lower part of the inclined plate 41 is positioned above the filter plate 5, the bottom of the diversion bin 4 is of an arc-shaped structure, the inner side of the bottom of the diversion bin 4 is fixedly provided with a guide frame 42, the guide frame 42 and the diversion bin 4 are coaxial, the upper ends of the left side and the right side of the guide frame 42 are inclined planes, the included angle between the inclined planes of the left side and the right side is an obtuse angle, the bottom of the inclined plane of the guide frame 42 is provided with the recovery pipe 6 in a sliding fit mode, the outer pipe 9 is located the axle center position of leading truck 42 and outer pipe 9 is linked together with the one end of recovery tube 6, the other end of recovery tube 6 is located the outside of handling storehouse 3 and recovery tube 6 and the sealed cooperation of the lateral wall of handling storehouse 3, all be provided with the notch on the left and right sides inclined plane of leading truck 42, the weeping mouth has evenly been seted up along its circumference in the bottom of reposition of redundant personnel storehouse 4, and the weeping mouth is linked together with the bottom of handling storehouse 3, material returned pivot 61 is installed through the bearing in the bottom of recovery tube 6, install helical blade 62 on the material returned pivot 61, the end that exposes of recovery tube 6 has material returned motor 63 through motor cabinet fixed mounting, the output shaft of material returned motor 63 is connected with material returned pivot 61 through the shaft coupling, and material returned motor 63 and power generation module 10 electric connection.

When the cleaning device works, when the cleaning rotating shaft 34 drives the brush 341 to perform the cleaning operation of the filter plate 5,

when the solid impurities pushed by the brush 341 move to the bottom of the diversion bin 4, the solid impurities gradually enter the diversion bin 4 from the bottom gap position of the diversion bin 4, then the solid impurities gradually enter the recovery pipe 6 under the inclined guiding action of the guide frame 42, part of water adhered to the solid impurities flows into the bottom of the diversion bin 4 along the side wall in the sliding process, and finally flows into the treatment bin 3 from a liquid leakage opening at the bottom of the diversion bin 4, the inclined plate 41 arranged at the bottom of the diversion bin 4 can separate water flow above the bottom gap position of the diversion bin 4, the collected solid impurities are prevented from being splashed by secondary impact in the entering process, the collection efficiency of solid wastes is improved, in the process of collecting the solid impurities by the recovery pipe 6, power is supplied to the material returning motor 63 through the power generation module 10, then the material returning motor 63 is started to operate, the material returning motor 63 drives the material returning rotating shaft 61 to rotate, the screw blades 62 are driven to rotate by the material returning motor 61, further, the waste water is pushed to the bottom gap position of the recovery pipe 6 to the bottom of the recovery pipe, the solid impurities, the subsequent waste water collecting effect of collecting the coal slag is improved, and the subsequent waste water collecting effect of collecting flocculant is also improved, and the subsequent waste water collecting flocculant is improved, and the subsequent waste water collecting effect of the coal collecting flocculant is also improved.

When in work:

the first step is as follows: firstly, a liquid discharge pipe 7 is communicated with the existing wastewater sedimentation tank through a worker, a containing box is arranged outside an externally extending pipe 9, then wastewater to be treated after coal washing is introduced into a treatment bin 3, then the wastewater begins to naturally fall under the action of gravity, and in the falling process of the wastewater, the wastewater begins to be shunted to two sides of the treatment bin 3 under the blocking and shunting action of a shunting bin 4, when the wastewater in a shunting state flows through the position of a current-limiting ring 31, the flowing path of the wastewater is extruded and contracted, then the flowing speed of the wastewater passing through the position of the current-limiting ring 31 is increased, and as the current-limiting ring 31 is positioned at the outer edge position of a current-limiting blade 431, the current-limiting blade 431 immediately begins to rotate under the flowing impact action of the wastewater, and drives a current-limiting rotating shaft 43 to synchronously rotate, then, the power generation module 10 starts to charge energy and is stored by a storage battery, then, the wastewater passing through the position of the flow limiting ring 31 further flows downwards under the action of gravity and reaches the upper end face of the filter plate 5, when the wastewater reaches the upper end face of the filter plate 5, the water and fine particle impurities doped in the water in the wastewater immediately pass through the filter plate 5 and further flow downwards under the action of gravity and finally reach the liquid discharge pipe 7 at the bottom of the treatment bin 3, then, a flocculating agent is put into the filling pipe 8 through a worker or an existing conveying mechanism, and then, when the wastewater flows through the port at the bottom of the filling pipe 8, the flocculating agent is mixed with the wastewater and synchronously flows into the sedimentation tank along with the wastewater.

The second step is that: under the falling impact effect of waste water and the elastic supporting effect of the vibration spring 51, the filter plate 5 is in a continuous vibration state in the working process, the flow baffle plates 53 arranged at the two ends of the filter plate 5 can further improve the concentration degree of the waste water in the falling process, the accumulation thickness of solid sundries can be reduced through the self reciprocating vibration of the filter plate 5, and the probability of blockage of the filter grid 52 is reduced while the subsequent cleaning operation efficiency is improved.

The third step: at the initial position, the poke rod 44 is pulled by the elastic force of the tension spring 441, the side wall of the poke rod 44 always abuts against the side wall of the limit rod 352, the end of the stop rod 442 abuts against the side wall of the dislocation ring 35 at the moment, the end position of the stop rod 442 is higher than the push rod 432, then, in the process of rotating the diversion rotating shaft 43, the push rods 432 which are uniformly arranged are driven to synchronously rotate circumferentially, when the push rods 432 rotate to the position of the stop rod 442, the push rods 432 are in abutting contact with the stop rod 442, then, under the further rotating action of the push rods 432, the stop rod 442 starts to drive the poke rod 44 to synchronously rotate along with the diversion rotating shaft 43 under the pushing action of the push rods 432, then, the cleaning rotating shaft 34 moves in the horizontal direction through the limiting action between the yielding notch at the bottom of the poke rod 44 and the cleaning rotating shaft 34, the moving path of the cleaning rotating shaft 34 can be limited through the sliding limiting fit between the cleaning sliding block 33 and the cleaning sliding rail 32, the cleaning rotating shaft 34 can synchronously move 341, impurities on the filter plate 5 can be effectively filtered, and the filter plate can be effectively cleaned, and the filter plate life can be substantially increased by the usage rate of the filter plate 5.

The fourth step: when the pushing rod 432 pushes the gear lever 442 to move to the position of the annular groove 351, the gear lever 442 is pushed by the elastic force of the gear spring 443 to gradually slide toward the inner side of the annular groove 351, and the gear lever 442 gradually disengages from the pushing rod 432 in the sliding process, when the gear lever 442 moves to a predetermined depth position in the annular groove 351, the pushing rod 432 completely disengages from the gear lever 442, and then the pulling rod 44 starts to reset under the elastic force restoring pulling action of the tension spring 441, the gear lever 442 is driven by the pulling rod 44 to synchronously reset, and the gear lever 442 moves out of the annular groove 351, and the clearing rotating shaft 34 is driven to synchronously reset in the process of resetting and rotating the pulling rod 44, and then the pushing rod 432 of the next station rotates to the position of the gear lever 442, and the pulling rod 44 rotates again through the limiting blocking action, so as to reciprocate, and the intermittent reciprocating swing operation of the pulling rod 44 is realized.

The fifth step: in the cleaning operation process that the cleaning rotating shaft 34 drives the brush 341 to clean the filter plate 5, when the cleaning rotating shaft 34 moves to the position of the fixing rod 35 at the front end of the cleaning slide rail 32, the switching rod 343 is subjected to the limiting and blocking effect of the fixing rod 35 on the horizontal moving path, then the switching rod 343 starts to rotate and drives the cleaning rotating shaft 34 to rotate on the cleaning slider 33, through the mutual adsorption effect of the permanent magnets between the cleaning slider 33 and the end part of the cleaning rotating shaft 34, a holding force can be provided for the inclined angle after the rotation of the switching rod 343, when the cleaning rotating shaft 34 is in the horizontal resetting movement process, the brush 341 arranged below the cleaning rotating shaft 34 always keeps an inclined angle to perform the horizontal resetting movement, when the switching rod 343 in the inclined state horizontally moves to the position of the fixing rod 35 at the rear end of the cleaning slide rail 32, the brush starts to reset and rotate under the reverse limiting and blocking effect of the fixing rod 35, and returns to the initial vertical state, and repeats in this way, the unidirectional cleaning operation of the brush 341 can be realized, and the concentration degree of filtering and collection of solid impurities can be improved.

And a sixth step: when the cleaning shaft 34 drives the brush 341 to perform the cleaning operation of the filter plate 5,

when the solid impurities pushed by the brush 341 move to the bottom of the diversion bin 4, the solid impurities gradually enter the diversion bin 4 from the bottom gap position of the diversion bin 4, then the solid impurities gradually enter the recovery pipe 6 under the inclined guiding action of the guide frame 42, part of water adhered to the solid impurities flows into the bottom of the diversion bin 4 along the side wall in the sliding process, and finally flows into the treatment bin 3 from a liquid leakage opening at the bottom of the diversion bin 4, the inclined plate 41 arranged at the bottom of the diversion bin 4 can separate water flow above the bottom gap position of the diversion bin 4, the collected solid impurities are prevented from being splashed by secondary impact in the entering process, the collection efficiency of solid wastes is improved, in the process of collecting the solid impurities by the recovery pipe 6, power is supplied to the material returning motor 63 through the power generation module 10, then the material returning motor 63 is started to operate, the material returning motor 63 drives the material returning rotating shaft 61 to rotate, the screw blades 62 are driven to rotate by the material returning rotating shaft 61, further, the waste water is pushed to the bottom gap position of the recovery pipe 6 to the outside of the recovery pipe 9, and the waste water is finally collected by the waste water collecting pipe, and the waste water collecting operation is finished.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides an environmental protection waste water processor, includes base plate (1), montant (2), handles storehouse (3), reposition of redundant personnel storehouse (4), filter (5), recovery tube (6), fluid-discharge tube (7), filling pipe (8), outrigger (9), electricity generation module (10) and supporting legs (11), its characterized in that: the solar energy power generation device is characterized in that supporting legs (11) are uniformly mounted on the lower end face of a substrate (1), vertical rods (2) are uniformly mounted on the upper end face of the substrate (1), a processing bin (3) is mounted at the upper end of each vertical rod (2) together, the upper end of each processing bin (3) is of an open structure, a shunt bin (4) is fixedly mounted in the middle of the inner side of each processing bin (3), a filter plate (5) is movably mounted on the lower portion of the inner side of each processing bin (3), the shunt bin (4) movably penetrates through the middle of the filter plate (5), a recovery pipe (6) is movably mounted at the lower end of each shunt bin (4), the recovery pipe (6) is located below the filter plate (5), an outer extension pipe (9) is fixedly mounted on the side wall of each processing bin (3), the outer extension pipe (9) is communicated with the recovery pipe (6), a liquid discharge pipe (7) is fixedly mounted at the lower end of each processing bin (3), the liquid discharge pipe (7) is located below the filter plate (5), the liquid discharge pipe (7) is communicated with the shunt bin (4), a liquid discharge pipe (8) is fixedly mounted at the upper end of the filter plate (7), a power generation module (10) and a power generation module (10) is mounted in the existing power generation processing bin;

handle storehouse (3) middle part longitudinal symmetry and seted up waist type spout, install filter (5) between the waist type spout jointly, the turning all is connected with the inner wall lower extreme of waist type spout through vibrating spring (51) all around of filter (5), the middle part of filter (5) is provided with the rectangle notch, the lower extreme of reposition of redundant personnel storehouse (4) is located the rectangle notch and shunts storehouse (4) and rectangle notch sliding fit, bilateral symmetry is provided with two sets of filtration net (52) on filter (5), and two sets of filtration net (52) are located the left and right sides of reposition of redundant personnel storehouse (4) respectively, the up end bilateral symmetry of filter (5) is installed and is kept off a class (53), the well upper portion that keeps off class (53) is the slope structure, and the contained angle that keeps off between the well upper portion inclined plane of class (53) and filter (5) is the obtuse angle.

2. An environmental wastewater processor according to claim 1, characterized in that: the bottom bilateral symmetry of reposition of redundant personnel storehouse (4) set up jaggedly, the inboard in reposition of redundant personnel storehouse (4) is linked together through breach and processing storehouse (3), the lower extreme of breach and the up end parallel and level of filter (5), swash plate (41) are installed through the slope of articulated mode in the upper end of breach, be provided with the torsional spring between swash plate (41) and the reposition of redundant personnel storehouse (4), contained angle between swash plate (41) and the reposition of redundant personnel storehouse (4) lateral wall is the top that the well lower part of acute angle and swash plate (41) is located filter (5).

3. An environmental wastewater processor according to claim 1, characterized in that: the bottom position arc structure of reposition of redundant personnel storehouse (4), the inboard fixed mounting in bottom of reposition of redundant personnel storehouse (4) has leading truck (42), leading truck (42) and reposition of redundant personnel storehouse (4) are coaxial, the left and right sides upper end of leading truck (42) is the inclined plane, and the contained angle between the left and right sides inclined plane is the obtuse angle, recovery tube (6) are installed through sliding fit's mode to the inclined plane bottom of leading truck (42), outer outrigger (9) are located the axle center position of leading truck (42) and outer outrigger (9) are linked together with the one end of recovery tube (6), the other end of recovery tube (6) is located the outside of handling storehouse (3) and recovery tube (6) and the lateral wall sealing fit who handles storehouse (3), all be provided with the notch on the left and right sides inclined plane of leading truck (42), the weeping mouth has evenly been seted up along its circumference to the bottom in reposition of redundant personnel storehouse (4), and the weeping mouth is linked together with the bottom of handling storehouse (3).

4. An environmental wastewater processor according to claim 3, wherein: recovery tube (6) bottom install material returned pivot (61) through the bearing, install helical blade (62) on material returned pivot (61), the end that exposes of recovery tube (6) has material returned motor (63) through motor cabinet fixed mounting, the output shaft of material returned motor (63) is connected with material returned pivot (61) through the shaft coupling, and material returned motor (63) and power generation module (10) electric connection.

5. An environmental wastewater processor according to claim 1, characterized in that: shunt storehouse (4) middle and upper portion lateral wall install reposition of redundant personnel pivot (43) through normal running fit's mode bilateral symmetry, the central axis of reposition of redundant personnel pivot (43) is located the lateral wall plane in reposition of redundant personnel storehouse (4), install splitter blade (431) along its axis direction evenly on reposition of redundant personnel pivot (43), restrictor ring (31) are installed to the left and right sides lateral wall symmetry of handling storehouse (3), and restrictor ring (31) and splitter blade (431) are coaxial, the both ends tip of reposition of redundant personnel pivot (43) all is located in power generation module (10) and the tip and the power generation module (10) electric connection of reposition of redundant personnel pivot (43).

6. An environmental wastewater processor according to claim 1, characterized in that: handle storehouse (3) lower extreme inner wall bilateral symmetry and install two sets of clearance slide rails (32), two sets of clearance slide rails (32) are located the left and right sides in reposition of redundant personnel storehouse (4) respectively and two sets of clearance slide rails (32) all are located the top of filter (5), all install a set of clearance slider (33) through sliding fit's mode in every clearance slide rail (32), all install clearance pivot (34) through normal running fit's mode between every clearance slider (33) of group, the lower part of clearance pivot (34) is evenly pegged graft and is had brush (341), and brush (341) support and lean on the up end at filter (5).

7. An environmental wastewater processor according to claim 5, characterized in that: processing storehouse (3) outer wall fixed mounting have dislocation ring (35), dislocation ring (35) cover is established in the outside of reposition of redundant personnel pivot (43) and dislocation ring (35) and reposition of redundant personnel pivot (43) are coaxial, annular groove (351) have been seted up on dislocation ring (35), reposition of redundant personnel pivot (43) both ends tip all installs poker rod (44) through the bearing, one side of poker rod (44) is connected with the lateral wall of handling storehouse (3) through extension spring (441), fixed mounting has gag lever post (352) on dislocation ring (35), and gag lever post (352) support and lean on the lateral wall of poker rod (44), gear lever (442) is installed through sliding fit's mode in the upper end of poker rod (44), gear lever (442) is connected with poker rod (44) through fender spring (443), the one end of gear lever post (442) supports and leans on the lateral wall that dislocation ring (35) contradicted through sliding fit's mode, the tip of reposition of redundant personnel pivot (43) evenly installs gear rod (432 along its circumference, and the lower extreme sliding fit (432) of propelling movement lever post (442) and push away the lower extreme (34) of reposition of push rod (44).

8. An environmental wastewater processor according to claim 7, characterized in that: one end of the annular groove (351) is provided with an inclined surface, the inclined surface is close to the direction of the limiting rod (352), and the vertical distance between the end part of the gear lever (442) and the central axis of the push rod (432) is smaller than the depth of a notch of the annular groove (351).

9. An environmental wastewater processor according to claim 1, characterized in that: the lower end of the poke rod (44) is provided with a yielding notch, and the end part of the cleaning rotating shaft (34) is abutted against the yielding notch in a sliding fit mode.

10. An environmental wastewater processor according to claim 7, characterized in that: clearance pivot (34) tip and clearance slider (33) all be provided with the permanent magnet of mutual absorption, the tip fixed mounting of clearance pivot (34) has switch lever (343), the equal fixed mounting of the left and right sides inner wall of handling storehouse (3) has two dead levers (35), two dead levers (35) are located the front and back both ends of clearance slide rail (32) respectively, switch lever (343) are located between two adjacent dead levers (35), and the position that is close to and handles storehouse (3) middle part dead lever (35) highly is higher than the position height that is close to and handles storehouse (3) border position dead lever (35).