CN114988545A - Coal slime water concentration treatment device based on ultrasonic wave concentration meter - Google Patents

Abstract

The invention discloses a coal slime water concentration treatment device based on an ultrasonic concentration meter, and relates to the technical field of coal slime water concentration. This a coal slime water concentration processing apparatus based on ultrasonic wave densimeter, including concentration mechanism, concentration mechanism includes the concentrator box, the even fixedly connected with side lever of lateral wall equidistance in the last port of concentrator box, the quantity of side lever is four, four side levers are at the common fixedly connected with centre ring of that one end of keeping away from the concentrator box, the centre ring presents the annular and is in the concentrator box centre, concentration mechanism top left side is provided with medicament mechanism one, concentration mechanism's inside is provided with the mobile jib mechanism, the mobile jib mechanism includes the mobile jib, the main jib cover inserts in the centre ring and passes through bearing swing joint with the centre ring, the upper end outside fixedly connected with gear two of mobile jib, this a coal slime water concentration processing apparatus based on ultrasonic wave densimeter carries out abundant mixture to coagulant, flocculating agent and coal slime water, great improvement the efficiency that the coal slime water is concentrated and subsides.

Description

Coal slime water concentration treatment device based on ultrasonic wave concentration meter

Technical Field

The invention relates to the technical field of slime water concentration, in particular to a slime water concentration treatment device based on an ultrasonic concentration meter.

Background

The coal slime water is an important working medium in the coal dressing process and is also industrial wastewater generated in the coal wet processing process. The coal slurry water treatment in the coal preparation process has wide application range, large investment and difficult management. The slime water is particularly stable, does not naturally settle even standing for several months, and is very difficult to treat. In order to meet the water quality requirement of the closed circulation of the slime water, prevent the deterioration of the water quality in the closed circulation process of the slime water and protect the environment, the research on the treatment technology of the slime water is more and more necessary. The solid-liquid separation of the coal slurry water is carried out by means of gravity or centrifugal force, the coal separation process water with extremely low solid content is obtained, and the concentration (high solid content) of the coal slurry water is improved. Clarification and concentration of slime water are two different concepts of the same process. Clarification refers to the operation of removing solids from the coal slurry water to obtain water with a low solids content. Concentration is the operation of raising the concentration of the coal slime water to a required level and grading the coal slime according to a certain granularity so as to meet the requirements of subsequent processes (such as flotation, filtration, coal slime recovery sieve, shaking table and the like) on the concentration and the granularity of the fed material.

In the process of coal slime water concentration and sedimentation, the condition of incomplete sedimentation exists in sequence, at the moment, a coagulant and a flocculant are required to be added again, so that secondary concentration and sedimentation are carried out on the coal slime water, most coal slime water concentration treatment devices on the market at present are used for avoiding that the state of primary sedimentation is damaged by the coagulant and the flocculant added secondarily, so that the constant static sedimentation is selected in the process of coal slime water concentration and sedimentation, a mixed structure of the coagulant, the flocculant and the coal slime water is lacked, so that the coagulant, the flocculant and the coal slime water are slowly fused, the process of coal slime water concentration and sedimentation is very long, the speed of coal slime water concentration and sedimentation is slowed down, and meanwhile, a mechanism for accurately detecting concentration is lacked, so that the error of the result of coal slime water up-down sedimentation is large, the quality of the coal slime water concentration result is influenced, and therefore, an ultrasonic densimeter-based coal slime water concentration treatment device is urgently needed, to solve the existing problems.

Disclosure of Invention

The invention aims to provide a slime water concentration treatment device based on an ultrasonic concentration meter, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a coal slime water concentration processing apparatus based on ultrasonic wave concentration meter, includes concentrated mechanism, concentrated mechanism includes the concentrator box, the even fixedly connected with side lever of the upper end intraoral equidistance of concentrator box, the quantity of side lever is four, four the side lever is at the common fixedly connected with centre ring of that one end of keeping away from the concentrator box, the centre ring presents the annular and is in the concentrator box centre, concentrated mechanism top left side is provided with medicament mechanism one, the inside of concentrating mechanism is provided with the mobile jib mechanism, the mobile jib mechanism includes the mobile jib, the mobile jib cover inserts in the centre ring and passes through bearing swing joint with the centre ring, the upper end outside fixedly connected with gear two of mobile jib, the middle part fretwork of gear two, gear two is in the top of centre ring, the lower extreme fixedly connected with insulated column of mobile jib, the even embedding fixedly connected with trachea one of equidistance on the lateral wall of insulated column, the number of the first air pipes is six, the outer sides of the isolating columns are fixedly connected with frameworks in equal intervals, the frameworks are matched with the inner diameter of the concentrating box, the number of the frameworks is six, the first air pipes correspond to the frameworks one by one, grooves are formed in the upper surfaces of the frameworks, inner grooves are formed in the lower sides of the frameworks, one ends of the first air pipes, far away from the isolating columns, penetrate through and are fixedly communicated with the side walls of the inner grooves, the inner parts of the inner grooves are sleeved with the first magnets, the first magnets are matched with the inner parts of the inner grooves, the faces, far away from the isolating columns, of the first magnets are fixedly connected with the first springs, the ends, far away from the first magnets, of the first springs are fixedly connected with the inner walls of the inner grooves, the outer sides of the frameworks are sleeved with square frames, the middle parts of the upper inner walls of the square frames are fixedly connected with second magnets, the second magnets are embedded in the grooves and are matched with the grooves, and the second magnets and the first magnets attract each other, the upper surface middle part fixedly connected with upper prop of square frame, six the common fixedly connected with of upside of upper prop keeps apart the face, keep apart the face and have elasticity, keep apart the edge of inboard lower extreme fixed connection insulated column of face.

Preferably, the lower extreme of the front side of concentrator box runs through fixedly connected with eduction tube, the caulking groove has been seted up on the rear inner wall of concentrator box.

Preferably, first medicament mechanism includes the water pump, fixedly connected with pump line one runs through in the middle part of the left end face of water pump, fixedly connected with pump line two runs through in the middle part of the lower terminal surface of water pump, the lower extreme of pump line two runs through fixedly connected with medicament section of thick bamboo one, the middle part of medicament section of thick bamboo one is provided with the barrel bar, the right-hand member of barrel bar runs through the right wall of medicament section of thick bamboo one and passes through bearing swing joint rather than, the front end fixedly connected with gear one of barrel bar, the middle part fretwork of gear one, gear one and the meshing of gear two.

Preferably, a rotating plate is fixedly wound on the outer side of the section of the cylinder rod in the first medicament cylinder, the rotating plate is spiral, and hollow holes are uniformly formed in the surface of the rotating plate in a penetrating mode at equal intervals; an inclined pipe is fixedly connected to the lower side of the right wall of the first medicament barrel in a penetrating manner; the lower side of the right end of the first medicament barrel is fixedly connected with the left side of the upper end face of the concentration box.

Preferably, the outer side of the lower part of the main rod is fixedly connected with two baffle rings, the two baffle rings are arranged up and down, the two baffle rings are both positioned below the central ring, the outer side of the lower part of the main rod is movably sleeved with a rotating ring, the rotating ring is positioned between the two baffle rings, the outer side of the rotating ring is fixedly connected with a stirring rod, and the stirring rod is matched with the inner diameter of the concentration box; and the outer side of the upper part of the main rod is fixedly connected with a lantern ring, and the lantern ring is positioned above the second gear.

Preferably, the top of mobile jib mechanism is provided with air pump mechanism, air pump mechanism includes the air pump, the lower terminal surface fixed connection mobile jib of air pump, the lower extreme fixed mounting of air pump has trachea two, the lower extreme of trachea two runs through fixed connection mobile jib and insulated column and communicates with trachea one, the upper end fixed mounting of air pump has trachea three.

Preferably, a second medicament mechanism is arranged on the right side above the concentration mechanism, the second medicament mechanism comprises a rotating rod, the rotating rod is arranged in the front-back direction, the middle part of the rotating rod is embedded into the middle part of the right side of the upper end face of a fixedly connected concentration box, a second medicament barrel is movably connected to the right upper side of the rotating rod through a rotating shaft, the second medicament barrel is hollow inside, a barrel pipe is fixedly connected to the lower side of the left wall of the second medicament barrel in a penetrating manner, the hollow inside of the barrel pipe is hollow, the left end of the barrel pipe is bent downwards, a guide plate is fixedly connected to the middle part of the right inner wall of the upper end of the concentration box, the guide plate is attached to the inner wall of the concentration box, a barrel column is fixedly connected to the middle part of the left surface of the guide plate, the left end of the barrel column is bent upwards and is matched with the radian of the barrel pipe, the upper end of the barrel column penetrates through the lower end wall of the barrel pipe and is fixedly connected with an inner plug, and a second spring is fixedly connected to the outer side of the upper end of the inner plug, and the second spring is fixedly connected with the inner wall of the bobbin at the end far away from the inner plug.

Preferably, the downside of medicament mechanism two is provided with emptys the mechanism, it includes the foundation to topple over the mechanism, the left end of foundation passes through hinge swing joint at the right side wall middle part of concentrator box, the upper end of foundation inclines to the right side, the activity of the upper end of foundation is pegged graft there is the fore-set, the upper end of fore-set passes through hinge and the right-hand member downside swing joint of medicament section of thick bamboo two, trachea three runs through and the inside of fixed intercommunication foundation from the downside in that one end of keeping away from the air pump.

Preferably, there is gear three at the front surface middle part of foundation pillar through bearing swing joint, the front side middle part fixedly connected with spliced pole of fore-set, the front end fixedly connected with pinion rack of spliced pole, the right side of pinion rack has been seted up the tooth and has been engaged with gear three, the front surface fixedly connected with carousel of gear three, the belt has been cup jointed in the outside of carousel, the belt is cup jointed in the outside of the lantern ring in that one end correspondence of keeping away from the carousel.

Preferably, the embedding of the back inner wall of concentrated mechanism has ultrasonic concentration detection mechanism, ultrasonic concentration detection mechanism includes the ultrasonic concentration meter, the up end rear side of the lower extreme fixed connection concentrator box of ultrasonic concentration meter, the downside fixedly connected with of ultrasonic concentration meter detects piece one and detects piece two, it all imbeds fixed connection on the back inner wall of concentrator box to detect piece one and detect piece two, it is in the top of detecting piece two to detect piece one, it is in the upside of skeleton to detect piece one, it is in the downside of skeleton to detect piece two.

Compared with the prior art, the invention has the beneficial effects that:

(1) the coal slime water concentration treatment device based on the ultrasonic densitometer pours the inside of a concentration tank into coal slime water, and by starting a water pump, a coagulant and a flocculant are pumped into the inside of a first medicament barrel through a first pump pipe and a second pump pipe, the coagulant and the flocculant are firstly poured into the inside of the concentration tank through the pouring pipe to be mixed with the coal slime water, and through the height difference of the pouring pipe, the coal slime water falling into the inside of the concentration tank is dispersed by the coagulant and the flocculant at the moment, so that the subsequent mixing is convenient, and secondly, through the spiral design of a rotating plate, the rotating plate can be driven to rotate when the coagulant and the flocculant are pumped into the inside of the first medicament barrel, so that a barrel rod and a first gear are driven to rotate anticlockwise, through the meshing of the first gear and the second gear, so that the second gear is driven to rotate anticlockwise, thereby driving a stirring rod to move up and down and rotate between baffle rings, and a framework can also rotate under the driving of a main rod, therefore, the coagulant, the flocculating agent and the slime water are fully mixed, and the concentration and sedimentation efficiency of the slime water is greatly improved.

(2) After the first coal slime water concentration and sedimentation is completed, the ultrasonic concentration meter is started to detect the concentration of the coal slime water layer surfaces of the upper layer and the lower layer respectively through the first detection sheet and the second detection sheet, when the detection is unqualified, the air pump is started to inflate the second air pipe and the third air pipe, the isolation board is unfolded through the outward movement of the upper column, thereby separating the upper layer and the lower layer of the slime water, and driving the lantern ring to rotate through the belt, so that the stirring rod stirs the upper layer slime water and the coagulant on the upper layer of the isolation board surface to be mixed with the flocculant for secondary concentration and sedimentation, through the design of the isolation board surface, therefore, the coal slime water on the lower layer is not disturbed by stirring in the process of adding the coagulant and the flocculating agent for the second time, and the time required by concentration and sedimentation of the device is greatly shortened.

(3) This coal slime water concentration processing apparatus based on ultrasonic wave concentration meter, through the extension of sill pillar and fore-set, thereby make gear three and pinion rack take place relative removal, thereby it rotates to drive the carousel, and it rotates to drive the lantern ring through the belt, thereby through the meshing of gear two and gear one, drive gear one that can be backward rotates, thereby make commentaries on classics board antiport scrape to remaining the medicament on a medicament section of thick bamboo inner wall and get, and through the design of fretwork hole, when pump into coagulant and flocculating agent once more, carry out through the remaining medicament of medicament flow on its inner wall, thereby avoid the waste of medicament use, the medicament cost of device can effectively be practiced thrift.

(4) This coal slime water concentration processing apparatus based on ultrasonic wave concentration meter, cooperation through keeping apart face and gas pump mechanism, after concentrated settlement is accomplished, detect the concentration of each part layering coal slime once more through ultrasonic wave concentration detection mechanism, after detecting piece one and detecting piece two and all reaching qualified state, trachea three is sealed this moment, the air pump is aerifyd the secondary control simultaneously and is kept apart the face and open, thereby accomplish the isolation of lower floor's coal slime water, thereby when exporting the high coal slime water of lower floor's concentration through opening the contact tube, can pass through the existence of keeping apart the face, thereby separate the coal slime water of upper and lower floor, make the derivation of high concentration coal slime water can not disturbed, the thoroughness and the convenience that the coal slime water derived have been improved.

(5) This coal slime water concentration processing apparatus based on ultrasonic wave concentration meter, existence through ultrasonic wave concentration detection mechanism, ultrasonic wave concentration detection mechanism adopts the ultrasonic wave principle, through measuring the liquid sound velocity, thereby determine the process parameter, the temperature sound velocity characteristic parameter curve of various media has in advance in ultrasonic wave concentration detection mechanism's the host computer, calculate required process control parameter according to this curve, ultrasonic wave concentration detection mechanism's host computer counts digital signal processing technique based on two microprocessors, even also can reliable and stable work under abominable operating mode, especially adapted control complicated process, input and output prepares in a flexible way, through ultrasonic wave concentration detection mechanism's assembly, make the device subside more accurate to the dense water of coal slime water.

(6) This coal slime water concentration processing apparatus based on ultrasonic wave concentration meter, design through medicament mechanism two, mechanism extension back is emptyd, just can make two emergence rotations of medicament section of thick bamboo, when two emergence rotations of medicament section of thick bamboo, the bobbin just can remove to the position at cylinder post place, thereby the opening that the outflow medicament flows, when the medicament adds through this opening secondary, just can pass through the gradual slumping of inner wall of concentrator box along the cylinder post of design and guide plate, to the impact force of slime water when adding very big reduction medicament, thereby improve the liquid level peaceful nature when the secondary adds the medicament, guarantee the preceding reduction interference of subsiding the at utmost of device, the quality of subsiding of device has been improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a concentrating mechanism according to the present invention;

FIG. 3 is a schematic view of a drug mechanism according to the present invention;

FIG. 4 is a schematic view of the air pump mechanism of the present invention;

FIG. 5 is a schematic view of an isolation column of the present invention;

FIG. 6 is a schematic illustration of the inventive skeleton;

FIG. 7 is a second schematic view of a drug mechanism of the present invention;

FIG. 8 is a schematic view of the dumping mechanism of the present invention;

FIG. 9 is a schematic view of an ultrasonic concentration detection mechanism according to the present invention.

In the figure: 1. a concentration mechanism; 101. a concentration tank; 102. a delivery pipe; 103. caulking grooves; 104. a side lever; 105. a center ring; 2. a first medicament mechanism; 201. a water pump; 202. a first pump pipe; 203. a pump pipe II; 204. a medicament cartridge I; 205. a barrel bar; 206. rotating the plate; 207. engraving holes; 208. pouring the tube; 209. a first gear; 3. a main rod mechanism; 301. a main rod; 302. a second gear; 303. a baffle ring; 304. rotating the ring; 305. a stirring rod; 306. a collar; 307. an isolation column; 308. a first trachea; 309. a framework; 310. a groove; 311. an inner tank; 312. a magnet I; 313. a first spring; 314. a square frame; 315. a second magnet; 316. putting the column on; 317. isolating the plate surface; 4. an air pump mechanism; 401. an air pump; 402. a second trachea; 403. a third trachea; 5. a second medicament mechanism; 501. a rotating rod; 502. a second medicament cartridge; 503. a bobbin; 504. a baffle; 505. a cylinder; 506. an inner plug; 507. a second spring; 6. a dumping mechanism; 601. a bottom pillar; 602. a top pillar; 603. a third gear; 604. connecting columns; 605. a toothed plate; 606. a turntable; 7. a belt; 8. an ultrasonic concentration detection mechanism; 801. an ultrasonic concentration meter; 802. detecting a first sheet; 803. and (5) detecting a second sheet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: a coal slime water concentration treatment device based on an ultrasonic concentration meter comprises a concentration mechanism 1, wherein the concentration mechanism 1 comprises a concentration box 101, side rods 104 are fixedly connected with the inner side wall of the upper port of the concentration box 101 in an equidistant and uniform mode, the number of the side rods 104 is four, a center ring 105 is fixedly connected with the four side rods 104 together at the end far away from the concentration box 101, the center ring 105 is annular and is positioned in the center of the concentration box 101, a first medicament mechanism 2 is arranged on the left side above the concentration mechanism 1, a main rod mechanism 3 is arranged inside the concentration mechanism 1, the main rod mechanism 3 comprises a main rod 301, the main rod 301 is sleeved into the center ring 105 and is movably connected with the center ring 105 through a bearing, a second gear 302 is fixedly connected to the outer side of the upper end of the main rod 301, the middle of the second gear 302 is hollow out, the second gear 302 is positioned above the center ring 105, an isolation column 307 is fixedly connected with the lower end of the main rod 301, a first air pipe 308 is fixedly connected onto the outer side wall of the isolation column 307 in an equidistant and uniform mode, the number of the first air pipes 308 is six, the outer sides of the isolation columns 307 are fixedly connected with skeletons 309 at equal intervals, the skeletons 309 are matched with the inner diameter of the concentration tank 101, the number of the skeletons 309 is six, the six first air pipes 308 correspond to the skeletons 309 one by one, grooves 310 are recessed in the upper surfaces of the skeletons 309, inner grooves 311 are formed in the lower sides of the skeletons 309, the ends of the first air pipes 308, far away from the isolation columns 307, penetrate through and are fixedly communicated with the side walls of the inner grooves 311, magnets one 312 are sleeved in the inner grooves 311, the magnets one 312 are matched with the inner parts of the inner grooves 311, springs one 313 are fixedly connected with the surfaces of the magnets one 313, far away from the magnets one 312, the ends of the springs one 313 are fixedly connected with the inner walls of the inner grooves 311, a frame 314 is sleeved on the outer sides of the skeletons 309, magnets two 315 are fixedly connected with the middle parts of the upper inner walls of the frame 314, the magnets two 315 are embedded in the grooves 310 and are matched with the magnets one 312, the magnets 315 and attract each other, the upper columns 316 are fixedly connected to the middle of the upper surface of the square frame 314, the upper sides of the six upper columns 316 are fixedly connected with the isolation plate 317, the isolation plate 317 has elasticity, the lower ends of the inner sides of the isolation plate 317 are fixedly connected with the edges of the isolation columns 307, and in an initial state, the isolation plate 317 is in a stacking state.

The leading-out pipe 102 penetrates through and is fixedly connected with the lower end of the front side of the concentrating box 101, and the caulking groove 103 is formed in the inner rear wall of the concentrating box 101.

The first 2 medicament mechanisms include water pump 201, fixedly connected with pump line 202 runs through in the middle part of the left end face of water pump 201, that one end of pump line 202 is keeping away from water pump 201 and the case intercommunication that holds of medicament, fixedly connected with pump line two 203 runs through in the middle part of the lower end face of water pump 201, the lower extreme of pump line two 203 runs through fixedly connected with medicament section of thick bamboo one 204, the middle part of medicament section of thick bamboo one 204 is provided with section of thick bamboo pole 205, the right-hand member of section of thick bamboo pole 205 runs through the right wall of medicament section of thick bamboo one 204 and passes through bearing swing joint with it, the front end fixedly connected with gear one 209 of section of thick bamboo pole 205, the middle part fretwork of gear one 209, gear one 209 and the meshing of gear two 302.

The outer side of the section of the cylinder rod 205, which is positioned inside the first medicament cylinder 204, is fixedly wound with a rotating plate 206, the rotating plate 206 is spiral, and hollow holes 207 are uniformly arranged on the surface of the rotating plate 206 in a penetrating manner at equal intervals; an inclined pipe 208 is fixedly connected to the lower side of the right wall of the first medicament cylinder 204 in a penetrating manner; the lower side of the right end of the first medicament cylinder 204 is fixedly connected with the left side of the upper end surface of the concentration box 101.

The outer side of the lower part of the main rod 301 is fixedly connected with two baffle rings 303, the number of the baffle rings 303 is two, the two baffle rings 303 are arranged up and down, the two baffle rings 303 are both positioned below the central ring 105, the outer side of the lower part of the main rod 301 is movably sleeved with a rotating ring 304, the rotating ring 304 is positioned between the two baffle rings 303, the outer side of the rotating ring 304 is fixedly connected with a stirring rod 305, and the stirring rod 305 is matched with the inner diameter of the concentration tank 101; a collar 306 is fixedly connected to the outer side of the upper part of the main rod 301, and the collar 306 is positioned above the second gear 302.

An air pump mechanism 4 is arranged above the main rod mechanism 3, the air pump mechanism 4 comprises an air pump 401, the lower end face of the air pump 401 is fixedly connected with the main rod 301, the lower end of the air pump 401 is fixedly provided with a second air pipe 402, the lower end of the second air pipe 402 penetrates through the fixedly connected main rod 301 and the isolation column 307 and is communicated with the first air pipe 308, and the upper end of the air pump 401 is fixedly provided with a third air pipe 403.

A second medicament mechanism 5 is arranged on the right side above the concentration mechanism 1, the second medicament mechanism 5 comprises a rotating rod 501, the rotating rod 501 is arranged in the front-back direction, the middle part of the rotating rod 501 is embedded in and fixedly connected with the middle part of the right side of the upper end surface of the concentration box 101, the right upper side of the rotating rod 501 is movably connected with a second medicament barrel 502 through a rotating shaft, the second medicament barrel 502 is hollow inside, a barrel 503 is fixedly connected with the lower side of the left wall of the second medicament barrel 502 in a penetrating manner, the barrel 503 is hollow inside and the left end of the barrel is bent downwards, a guide plate 504 is fixedly connected with the middle part of the right inner wall of the upper end of the concentration box 101, the guide plate 504 is attached to the inner wall of the concentration box 101, a barrel column 505 is fixedly connected with the middle part of the left surface of the guide plate 504, the left end of the barrel column 505 is bent upwards and is matched with the radian of the barrel 503, the upper end of the barrel column 505 is fixedly connected with an inner plug 506 in a penetrating manner, the upper end of the barrel column 505 is fixedly connected with a second spring 507, the end of the second spring 507 remote from the inner plug 506 is fixedly connected to the inner wall of the barrel 503, and the inner plug 506 is initially attached to the lower inner wall of the barrel 503.

The downside of two 5 medicament mechanisms is provided with topples over mechanism 6, topples over mechanism 6 and includes sill pillar 601, hinge swing joint is passed through at the right side wall middle part of concentrate tank 101 in the left end of sill pillar 601, the upper end of sill pillar 601 inclines to the right side, the activity of the upper end of sill pillar 601 is pegged graft and is had fore-set 602, hinge and two 502 right-hand member downside swing joint of medicament section of thick bamboo are passed through to the upper end of fore-set 602, trachea three 403 runs through and the inside of fixed intercommunication sill pillar 601 from the downside in that one end of keeping away from air pump 401.

The front surface middle part of the bottom column 601 is movably connected with a gear three 603 through a bearing, the front side middle part of the top column 602 is fixedly connected with a connecting column 604, the front end of the connecting column 604 is fixedly connected with a toothed plate 605, the right side of the toothed plate 605 is provided with teeth and meshed with the gear three 603, the front surface of the gear three 603 is fixedly connected with a turntable 606, the outer side of the turntable 606 is sleeved with a belt 7, and the end of the belt 7, which is far away from the turntable 606, is correspondingly sleeved on the outer side of the sleeve ring 306.

The rear inner wall of the concentration mechanism 1 is embedded with an ultrasonic concentration detection mechanism 8, the ultrasonic concentration detection mechanism 8 comprises an ultrasonic concentration meter 801, the lower end of the ultrasonic concentration meter 801 is fixedly connected with the rear side of the upper end face of the concentration box 101, the lower side of the ultrasonic concentration meter 801 is fixedly connected with a first detection sheet 802 and a second detection sheet 803, the first detection sheet 802 and the second detection sheet 803 are both embedded and fixedly connected onto the rear inner wall of the concentration box 101, the first detection sheet 802 is located above the second detection sheet 803, the first detection sheet 802 is located on the upper side of the framework 309, the second detection sheet 803 is located on the lower side of the framework 309, the ultrasonic concentration meter 801 receives signals collected by the first detection sheet 802 and the second detection sheet 803, and only when the first detection sheet 802 and the second detection sheet 803 are both qualified, the air pump 401 controls the second air pipe 402 to inflate and controls the third air pipe 403 to close.

The working principle is as follows:

the first step is as follows: pouring slime water into the interior of the concentration tank 101, pumping a coagulant and a flocculant into the interior of a medicament barrel 204 through a first pump pipe 202 and a second pump pipe 203 by starting a water pump 201, firstly pouring the coagulant and the flocculant into the interior of the concentration tank 101 through a first pouring pipe 208 to be mixed with the slime water, and driving a rotating plate 206 to rotate when the coagulant and the flocculant are pumped into the interior of the medicament barrel 204 through the height drop of the pouring pipe 208 so as to drive a barrel rod 205 and a first gear 209 to rotate anticlockwise through the meshing of the first gear 209 and the second gear 302, thereby driving a second gear 302 to rotate anticlockwise, further driving a stirring rod 305 to move up and down and rotate between baffle rings 303, and simultaneously driving a framework 309 to rotate under the driving of a main rod 301, therefore, the coagulant, the flocculating agent and the slime water are fully mixed, and the concentration and sedimentation efficiency of the slime water is greatly improved.

The second step: after the first time of coal slime water concentration and sedimentation, the ultrasonic concentration meter 801 is started to detect the concentration of the coal slime water layered surfaces of the upper layer and the lower layer through the first detection sheet 802 and the second detection sheet 803, when the detection is unqualified, the air pump 401 is started to inflate the air pipe two 402 and the air pipe three 403, the air pump 401 inflates the air to push the magnet one 312 to the direction far away from the isolation column 307, the magnet one 312 and the magnet two 315 attract each other to drive the frame 314 to move along the framework 309 to the direction far away from the isolation column 307, the isolation plate surface 317 is unfolded through outward movement of the upper column 316 to separate the upper layer and the lower layer of the coal slime water, in addition, the inflation of the air pipe three 403 enables the bottom column 601 and the top column 602 to move far away from each other to jack up the right end of the second medicament barrel 502 to the upper side, so that the coagulant and the flocculant in the second medicament barrel 502 are added into the concentration tank 101 through the bobbin 503, and thereby drive pinion rack 605 through fore-set 602 simultaneously and remove and take place the meshing with gear three 603, make gear three 603 drive carousel 606 and rotate, and drive lantern ring 306 through belt 7 and rotate, thereby make puddler 305 stir upper coal muddy water and coagulant and flocculating agent mixture in the upper strata of keeping apart face 317, carry out the secondary concentration and subside, design through keeping apart face 317, thereby make the coal muddy water of lower floor can not receive the interference of stirring at the secondary in-process of adding coagulant and flocculating agent, great shortening the device concentration and subsides the required time.

The third step: through the extension of sill pillar 601 and fore-set 602, thereby make three 603 of gears and pinion rack 605 take place relative removal, thereby drive the carousel 606 and rotate, and drive lantern ring 306 through belt 7 and rotate, thereby through the meshing of two 302 of gears and a 209 of gears, a 209 rotation of drive gear that can be reversed, thereby make the reverse rotation of commentaries on classics board 206 to scrape the medicament residue on the inner wall of medicament section of thick bamboo 204 and get, and through the design of fretwork hole 207, when pump again into coagulant and flocculating agent, carry out through the remaining medicament of medicament flow on its inner wall, thereby avoid the waste of medicament use, the medicament cost of device can effectively be practiced thrift.

The fourth step: through the cooperation of isolation face 317 and air pump mechanism 4, after the concentration subsides and accomplishes, detect the concentration of each part layering coal slime water once more through ultrasonic wave concentration detection mechanism 8, after detecting piece one 802 and detecting piece two 803 and all reaching qualified state, trachea three 403 is sealed this moment, air pump 401 aerifys the secondary control isolation face 317 and opens simultaneously, thereby accomplish the isolation of lower floor's coal slime water, thereby when exporting the high coal slime water of lower floor's concentration through opening eduction tube 102, can pass through the existence of isolation face 317, thereby separate the coal slime water of upper and lower floor, make the derivation of high concentration coal slime water not disturbed, the thoroughness and the convenience that the coal slime water was derived have been improved.

The fifth step: through the existence of ultrasonic concentration detection mechanism 8, ultrasonic concentration detection mechanism 8 adopts the ultrasonic wave principle, through measuring the liquid sound velocity, thereby decide the process parameter, the temperature sound velocity characteristic parameter curve of various media has in advance in ultrasonic concentration detection mechanism 8's the host computer, calculate required process control parameter according to this curve, ultrasonic concentration detection mechanism 8's host computer is based on two microprocessor count digital signal processing technique, even also can reliable and stable work under abominable operating mode, especially adapted control complicated process, input/output prepares in a flexible way, through ultrasonic concentration detection mechanism 8's assembly, make the device subside more accurate to the dense water of slime water.

And a sixth step: through the design of two 5 of medicament mechanisms, after toppling over the extension of mechanism 6, just can make two 502 of medicament section of thick bamboo take place rotatoryly, when two 502 of medicament section of thick bamboo take place rotatoryly, the bobbin 503 just can remove to the position at cylinder 505 place, thereby flow out the opening that the medicament flows, when the medicament adds through this opening secondary, just can pass through the gradual slumping of inner wall of concentrator box 101 along cylinder 505 and guide plate 504 of design, to the impact force of coal slime water when adding very big reduction medicament, thereby improve the liquid level peaceful nature when adding the medicament of secondary, guarantee the preceding settlement maximum reduction interference of device, the settlement quality of device has been improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a coal slime water concentration processing apparatus based on ultrasonic wave concentration meter, includes concentrated mechanism (1), concentrated mechanism (1) includes concentrator box (101), the even fixedly connected with side lever (104) of the upper port inner wall equidistance of concentrator box (101), the quantity of side lever (104) is four, four side lever (104) are keeping away from the common fixedly connected with centre ring (105) of that one end of concentrator box (101), centre ring (105) present the annular and are in concentrator box (101) centre, its characterized in that: the left side of the upper side of the concentration mechanism (1) is provided with a first medicament mechanism (2), the inner part of the concentration mechanism (1) is provided with a main rod mechanism (3), the main rod mechanism (3) comprises a main rod (301), the main rod (301) is sleeved in a center ring (105) and movably connected with the center ring (105) through a bearing, the outer side of the upper end of the main rod (301) is fixedly connected with a second gear (302), the middle part of the second gear (302) is hollow, the second gear (302) is positioned above the center ring (105), the lower end of the main rod (301) is fixedly connected with an isolation column (307), the outer side wall of the isolation column (307) is uniformly embedded with a first air pipe (308) at equal intervals, the number of the first air pipe (308) is six, the outer side of the isolation column (307) is uniformly fixedly connected with a framework (309) at equal intervals, and the inner diameter of the concentration box (101) is matched with each other, the number of the frameworks (309) is six, the six air pipes I (308) correspond to the frameworks (309) one by one, grooves (310) are recessed in the upper surface of the frameworks (309), inner grooves (311) are formed in the lower sides of the frameworks (309), one ends, far away from the isolating columns (307), of the air pipes I (308) penetrate through and are fixedly communicated with the side walls of the inner grooves (311), magnets I (312) are sleeved in the inner grooves (311), the magnets I (312) are matched with the inner portions of the inner grooves (311), one faces, far away from the isolating columns (307), of the magnets I (312) are fixedly connected with springs I (313), one ends, far away from the magnets I (312), of the springs I (313) are fixedly connected with the inner walls of the magnets (311), boxes (314) are sleeved on the outer sides of the frameworks (309), and magnets II (315) are fixedly connected with the middles of the upper inner walls of the boxes (314), magnet two (315) imbed in recess (310) and rather than the adaptation, magnet two (315) and magnet one (312) inter attraction, upper surface middle part fixedly connected with upper prop (316) of square frame (314), six the common fixedly connected with of upside of upper prop (316) keeps apart face (317), keep apart face (317) and have elasticity, keep apart the edge of inboard lower extreme fixed connection spacer (307) of face (317).

2. The coal slime water concentration treatment device based on the ultrasonic concentration meter as claimed in claim 1, wherein: the utility model discloses a concentrator box, including concentrator box (101), the leading-out pipe (102) of fixedly connected with runs through to the front side lower extreme of concentrator box (101), caulking groove (103) have been seted up on the rear inner wall of concentrator box (101).

3. The coal slime water concentration treatment device based on the ultrasonic concentration meter as claimed in claim 1, wherein: first (2) of medicament mechanism includes water pump (201), the left end face middle part of water pump (201) runs through fixedly connected with pump line (202), the lower terminal surface middle part of water pump (201) runs through fixedly connected with pump line two (203), the lower extreme of pump line two (203) runs through fixedly connected with medicament section of thick bamboo (204), the middle part of medicament section of thick bamboo (204) is provided with section of thick bamboo pole (205), the right-hand member of section of thick bamboo pole (205) runs through the right wall of medicament section of thick bamboo (204) and passes through bearing swing joint with it, the front end fixedly connected with gear (209) of section of thick bamboo pole (205), the middle part fretwork of gear (209), gear (209) and gear two (302) meshing.

4. The coal slime water concentration treatment device based on the ultrasonic concentration meter as claimed in claim 3, wherein: the outer side of the section, which is positioned inside the first medicament cartridge (204), of the cartridge rod (205) is fixedly wound with a rotating plate (206), the rotating plate (206) is spiral, and hollow holes (207) are uniformly formed in the surface of the rotating plate (206) in a penetrating mode at equal intervals;

a pouring pipe (208) is fixedly connected to the lower side of the right wall of the first medicament barrel (204) in a penetrating manner;

the lower side of the right end of the first medicament cylinder (204) is fixedly connected with the left side of the upper end surface of the concentration box (101).

5. The coal slime water concentration treatment device based on the ultrasonic concentration meter as claimed in claim 1, wherein: the outer side of the lower part of the main rod (301) is fixedly connected with two retaining rings (303), the number of the retaining rings (303) is two, the two retaining rings (303) are arranged up and down, the two retaining rings (303) are both positioned below the central ring (105), the outer side of the lower part of the main rod (301) is movably sleeved with a rotating ring (304), the rotating ring (304) is positioned between the two retaining rings (303), the outer side of the rotating ring (304) is fixedly connected with a stirring rod (305), and the stirring rod (305) is matched with the inner diameter of the concentration box (101);

the outer side of the upper portion of the main rod (301) is fixedly connected with a lantern ring (306), and the lantern ring (306) is located above the second gear (302).

6. The coal slime water concentration treatment device based on the ultrasonic concentration meter as claimed in claim 1, wherein: the top of mobile jib mechanism (3) is provided with air pump mechanism (4), air pump mechanism (4) are including air pump (401), lower terminal surface fixed connection mobile jib (301) of air pump (401), the lower extreme fixed mounting of air pump (401) has trachea two (402), the lower extreme of trachea two (402) runs through fixed connection mobile jib (301) and insulated column (307) and communicates with trachea one (308), the upper end fixed mounting of air pump (401) has trachea three (403).

7. The coal slime water concentration treatment device based on the ultrasonic concentration meter as claimed in claim 6, wherein: a second medicament mechanism (5) is arranged on the right side above the concentration mechanism (1), the second medicament mechanism (5) comprises a rotating rod (501), the rotating rod (501) is arranged in the front-back direction, the middle part of the rotating rod (501) is embedded into the middle part of the right side of the upper end face of a fixedly connected concentration box (101), the right upper side of the rotating rod (501) is movably connected with a second medicament tube (502) through a rotating shaft, the second medicament tube (502) is hollow inside, a bobbin (503) is fixedly connected to the lower side of the left wall of the second medicament tube (502) in a penetrating manner, the bobbin (503) is hollow inside and the left end of the bobbin is bent downwards, a guide plate (504) is fixedly connected to the middle part of the right inner wall of the upper end of the concentration box (101), the guide plate (504) is attached to the inner wall of the concentration box (101), a cylindrical column (505) is fixedly connected to the middle part of the left surface of the guide plate (504), the left end of the cylindrical column (505) is bent upwards and is matched with the radian of the bobbin (503), the upper end of the cylinder column (505) penetrates through the lower end wall of the cylinder pipe (503) and is fixedly connected with an inner plug (506), the outer side of the upper end of the inner plug (506) is fixedly connected with a second spring (507), and the end, far away from the inner plug (506), of the second spring (507) is fixedly connected with the inner wall of the cylinder pipe (503).

8. The coal slime water concentration treatment device based on the ultrasonic concentration meter as claimed in claim 7, wherein: the downside of medicament mechanism two (5) is provided with emptys mechanism (6), it includes sill pillar (601) to topple over mechanism (6), the left end of sill pillar (601) passes through hinge swing joint at the right side wall middle part of concentrator box (101), the upper end of sill pillar (601) inclines to the right side, the activity of the upper end of sill pillar (601) is pegged graft and is had fore-set (602), the upper end of fore-set (602) is through the right-hand member downside swing joint of hinge and medicament section of thick bamboo two (502), trachea three (403) run through and the inside of fixed intercommunication sill pillar (601) from the downside in that one end of keeping away from air pump (401).

9. The coal slime water concentration treatment device based on the ultrasonic concentration meter as claimed in claim 8, wherein: the front surface middle part of sill post (601) has gear three (603) through bearing swing joint, the front side middle part fixedly connected with spliced pole (604) of fore-stock (602), the front end fixedly connected with pinion rack (605) of spliced pole (604), the right side of pinion rack (605) has been seted up the tooth and has been engaged with gear three (603), the front surface fixedly connected with carousel (606) of gear three (603), belt (7) have been cup jointed in the outside of carousel (606), belt (7) are cup jointed in the outside of lantern ring (306) in that one end correspondence of keeping away from carousel (606).

10. The coal slime water concentration treatment device based on the ultrasonic concentration meter as claimed in claim 1, wherein: the back inner wall embedding of concentrated mechanism (1) has ultrasonic concentration detection mechanism (8), ultrasonic concentration detection mechanism (8) are including ultrasonic concentration meter (801), the up end rear side of the concentrated case of lower extreme fixed connection (101) of ultrasonic concentration meter (801), the downside fixedly connected with of ultrasonic concentration meter (801) detects piece one (802) and detects piece two (803), it all imbeds fixed connection on the back inner wall of concentrated case (101) to detect piece one (802) and detect piece two (803), it is in the top that detects piece two (803) to detect piece one (802), it is in the upside of skeleton (309) to detect piece one (802), it is in the downside of skeleton (309) to detect piece two (803).

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