CN116943769B - Filtering device for preparing gray water scale inhibition dispersing agent and using method thereof - Google Patents

Abstract

The utility model relates to the technical field of dispersant preparation, in particular to a filtering device for preparing an ash water scale inhibition dispersant and a use method thereof.

Description

Filtering device for preparing gray water scale inhibition dispersing agent and using method thereof

Technical Field

The utility model relates to the technical field of dispersant preparation, in particular to a filtering device for preparing an ash water scale inhibition dispersant and a using method thereof.

Background

The ash water treatment process in the coal water slurry gasification gas making process comprises the steps of cooling black water, heat recovery, dissolved gas removal, slag-water separation and water recycling. The grey water has the characteristics of high pressure, high temperature, high turbidity, high hardness, high alkalinity and the like, so that the phenomena of deposition, scaling, corrosion and the like of suspended matters can appear in the parts such as the inside of a chilling ring, a water scrubber, an evaporation hot water tower, a heat exchanger, a black water pipeline and the like in the operation process, and the normal operation of equipment is seriously influenced. The ash water scale inhibition and dispersion agent effectively prevents scaling tendency in various ash water systems, slows down corrosion of scale inhibitor and ash water systems to pipelines, and does not form new pollution.

The utility model patent number CN216824987U of China discloses a novel dispersant filter device, which relates to the technical field of dispersant filtration, and comprises an upper box body and a lower box body, wherein a stacking plate is fixedly connected to one side surface of the inner part of the upper box body, a filter plate is obliquely arranged between one side surface of the stacking plate and the other side surface of the upper box body, a motor is fixedly arranged on the upper surface of the upper box body, a first gear is fixedly connected to the output end of the motor through a connecting rod, a rotating rod is rotatably connected to the upper surface of the inner part of the upper box body, a second gear is fixedly connected to the rotating rod, and a knocking rod is fixedly connected to one end of the rotating rod. According to the utility model, the stacking plate and the filter plate are arranged, when the dispersing agent falls onto the filter plate, the motor rotates to drive the first gear to rotate, the first gear rotates to drive the second gear and the knocking rod to rotate, and the knocking rod periodically knocks the filter plate, so that solid particles stacked on the knocking rod bounce and then roll onto the stacking plate, the solid particles can be effectively prevented from blocking the filter plate, and the filtering efficiency of the dispersing agent is improved.

However, the above-mentioned patent has the following disadvantages in the actual use process: this patent beats periodic beating filter of pole and accelerates the damage of filter easily, in case the filter is damaged, then whole equipment needs to shut down, influences filtration efficiency.

Disclosure of Invention

The utility model aims to provide a filtering device for preparing a gray water scale inhibition dispersing agent and a using method thereof, and aims to solve the problems that in the background art, the periodical beating of a filter plate by a beating rod is easy to accelerate the damage of the filter plate, and once the filter plate is damaged, the whole equipment needs to be stopped, so that the filtering efficiency is affected.

The utility model provides a filtering device for preparing an ash water scale inhibition dispersing agent, which comprises a bottom plate, a conveying frame, a conveying belt, a filtering box, a first filtering component, a second filtering component, a turnover cleaning component, a supporting table, a waste bin and two supports, wherein the conveying frame is arranged at the top of the bottom plate, the conveying belt is arranged in the conveying frame, a plurality of charging barrels are arranged on the conveying belt, the filtering box is arranged on the conveying frame through the two supports, a feeding hopper is arranged at the top of the filtering box, a blanking component is arranged at the bottom of the filtering box, the first filtering component is arranged at the top end of the inside of the filtering box, the second filtering component is arranged in the inside of the filtering box, the second filtering component is positioned below the first filtering component, the turnover cleaning component is arranged at the top of the bottom plate, the top end of the turnover cleaning component extends to the side of the filtering box, the supporting table is arranged at the top of the bottom plate, the waste bin is arranged at the top of the supporting table, and two opening and closing doors are hinged on the outer wall of the top end of the filtering box.

Further, first filter component includes vibration case, driving motor, chain, two montants and two drive parts, two the montant symmetry sets up the inside top at the rose box, vibration case slidable mounting is on two montants, the bottom of vibration case is equipped with a plurality of first filtration pore, two drive part symmetry sets up in the inside of rose box to the outside of rose box is extended to two drive parts's one end, every drive part all includes drive shaft, sprocket, two gyro wheels and two cams, the drive shaft is rotated and is installed in the rose box to the outside of drive shaft's one end extension to the rose box, the sprocket is installed at the tip of drive shaft, two the gyro wheel symmetry sets up in the bottom of vibration case, two the cam symmetry sets up in the drive shaft, and the top of two cams is contradicted respectively with the bottom of two gyro wheels, driving motor level sets up on the outer wall of rose box to the output shaft of driving motor and the drive shaft connection in one of drive part, the sprocket in two drive parts is established to the chain cover outside in two drive parts.

Further, the second filtering component comprises a movable frame, a partition plate, a grinding part, two sliding rails and two grinding plates, wherein two sliding rails are symmetrically arranged on the inner wall of the filtering box, two sides of the movable frame are slidably mounted on the two sliding rails, one end of the movable frame extends to the outside of the filtering box, the partition plate is horizontally arranged in the movable frame, a plurality of second filtering holes are formed in the partition plate, the diameter of each second filtering hole is smaller than that of the first filtering hole, two grinding plates are slidably mounted in the movable frame, the bottoms of the two grinding plates are attached to the top of the partition plate, a plurality of grinding teeth are arranged on the grinding plates, the grinding part is mounted on the inner top end of the movable frame, and two ends of the grinding part are respectively connected with the two grinding plates.

Further, the grinding part comprises a fixed plate, a grinding motor, a grinding gear, two fixed bars and two grinding racks, wherein the fixed plate is horizontally arranged on the inner wall of the movable frame, the grinding motor is vertically arranged at the top of the fixed plate, one ends of the fixed bars are respectively connected with the tops of the two grinding plates, the other ends of the fixed bars are respectively extended to the upper parts of the fixed plates, the two grinding racks are respectively arranged on the outer walls of the two fixed bars, the grinding gear is arranged on the output shaft of the grinding motor, and two sides of the grinding gear are respectively meshed with the two grinding racks.

Further, an inclined baffle is arranged at the top end of the movable frame.

Further, upset clearance subassembly is including bearing frame, spacing rail, roll-over frame, lead screw slip table, connecting plate, roll-over board, U type frame, two roll-over axles and two tight spacing parts of clamp, the top at the bottom plate is installed to the bearing frame, spacing rail level sets up on the inner wall of bearing frame, roll-over frame slidable mounting is on the spacing rail to the side of rose box is extended to the one end of roll-over frame, the lead screw slip table level sets up on the inner wall of bearing frame, the connecting plate is installed on the mobile terminal of lead screw slip table, and the connecting plate is connected with the bottom of roll-over frame, the top at the roll-over frame is installed through two roll-over axles rotation, a plurality of conveying roller is installed in the U type frame rotation, be equipped with the upset motor on the top outer wall of roll-over frame, be equipped with the driving gear on the output of upset motor, one of them the tip of roll-over axle is equipped with driven gear and driving gear meshing, two the top of clamp sets up on the outer wall of roll-over board.

Further, each clamping limiting part comprises a limiting frame, a driving air cylinder and a clamping plate, wherein the limiting frame is arranged on the outer wall of the overturning plate, the driving air cylinder is horizontally arranged at the top of the limiting frame, and the clamping plate is arranged at the output end of the driving air cylinder.

Further, the unloading subassembly includes unloading pipe, unloading axle, unloading dish, unloading motor, first gear and second gear, the vertical bottom that sets up at the rose box of unloading pipe to the unloading pipe is linked together with the inside of rose box, the unloading axle rotates the bottom of installing at the rose box, the bottom at the unloading axle is installed to the unloading dish, the top of unloading dish is equipped with the ring channel with unloading bottom outer wall sliding fit, the bottom of unloading dish is equipped with the unloading hole that is linked together with the ring channel, the unloading hole corresponds with the unloading pipe, the vertical bottom that sets up at the rose box of unloading motor, first gear is installed on the output shaft of unloading motor, the second gear is installed on the unloading axle to second gear and first gear engagement.

Further, the top of rose box is equipped with two conflict subassemblies, two the bottom of conflict subassembly is contradicted with the outer wall of two opening and shutting doors respectively, every conflict subassembly all includes L template, rotation axis and conflict strip, the top at the rose box is installed to L template, the rotation axis rotates the top of installing at L template, the top and the end connection of rotation axis of conflict strip, the bottom of conflict strip is contradicted with the outer wall of opening and shutting door.

The application method of the filtering device for preparing the gray water scale inhibition dispersing agent provided by the utility model comprises the following steps of,

s1, pouring a gray water scale inhibition dispersing agent into a filter box through a charging hopper, enabling the gray water scale inhibition dispersing agent to fall into a vibrating box, then driving two driving components to rotate by a driving motor, driving the vibrating box to reciprocate on two vertical rods for a certain distance, and reciprocating the vibrating box to ascend and descend to form vibration, wherein a plurality of first filter holes are used for screening the gray water scale inhibition dispersing agent, solid particles with the volume smaller than the diameter of the first filter holes in the gray water scale inhibition dispersing agent fall onto a partition plate on a movable frame, and solid particles with the volume larger than the diameter of the first filter holes are accumulated in the vibrating box;

s2, the grinding motor drives the two fixing strips to move relatively, the two fixing strips drive the two grinding plates to move relatively close to each other, the two grinding plates move relatively close to each other to grind solid particles on the partition plate, the solid particles with the volume smaller than that of the second filtering holes after grinding fall into the bottom end of the interior of the filtering box, and the solid particles with the volume larger than that of the second filtering holes are accumulated on the partition plate;

s3, the blanking motor works to drive a blanking hole on the blanking disc to rotate to correspond to the blanking pipe, and solid particles qualified at the bottom end inside the filter box fall into a charging barrel on the conveying belt through the blanking pipe and the blanking hole to be filled;

s4, periodically moving the movable frame out of the filter box through forward rotation of a plurality of conveying rollers, and then synchronously working by driving cylinders in the two clamping limiting parts, wherein the driving cylinders drive the clamping plates to move so as to clamp and limit the outer wall of the movable frame;

s5, the screw rod sliding table drives the turning frame to move on the limiting rail by using the connecting plate, the turning frame drives the movable frame to move to the position right above the waste box, then the turning motor works to drive the turning plate to rotate 180 degrees, the turning plate drives the movable frame to rotate 180 degrees, solid particle waste with the volume larger than the diameter of the second filtering hole on the partition plate is poured into the waste box, then the turning motor drives the turning plate to continue to rotate for 180 degrees for resetting, the screw rod sliding table drives the turning frame to reversely move for resetting, the clamping plates in the two clamping limiting parts cancel clamping of the movable frame, and finally the movable frame is reversely rotated by the plurality of conveying rollers to be conveyed into the filtering box;

s6, periodically and manually rotating the abutting strips in the two abutting assemblies to be separated from the outer walls of the two opening and closing doors, and then pulling the two opening and closing doors to empty solid particle waste with the accumulated volume larger than the diameter of the first filtering hole in the vibrating box.

The utility model provides a filtering device for preparing a gray water scale inhibition dispersing agent and a using method thereof through improvement, and compared with the prior art, the filtering device has the following improvement and advantages:

the method comprises the following steps: according to the utility model, the movable frame is moved out of the filter box through forward rotation of the plurality of conveying rollers, then the two clamping limiting parts work to clamp and limit the outer wall of the movable frame, the screw rod sliding table works to drive the turning frame to move on the limiting rail, the turning frame drives the movable frame to move to the position right above the waste box, then the turning motor works to drive the driving gear to rotate, the driving gear drives the turning plate to rotate 180 degrees by utilizing the driven gear, the turning plate drives the movable frame to rotate 180 degrees, solid particle waste with the volume larger than the diameter of the second filter hole is poured into the waste box, then the turning motor drives the turning plate to continue to rotate 180 degrees for resetting, the two clamping limiting parts cancel clamping of the movable frame, and the plurality of conveying rollers reversely rotate to convey the movable frame into the filter box, so that the solid particle waste is prevented from blocking the second filter hole, a beating mode is not needed, and the damage of parts caused by beating is avoided.

And two,: according to the utility model, the two grinding plates are driven to move relatively close to each other through the grinding part to grind solid particles on the partition plate, the grinding efficiency of the grinding plates is accelerated through the grinding teeth, the solid particles with the volume smaller than that of the second filtering holes after grinding fall into the inner bottom end of the filtering box, the solid particles with the volume larger than that of the second filtering holes are piled up on the partition plate, and a grinding mode is adopted, so that fixed particles with the volume smaller than that of the first filtering holes but larger than that of the second filtering holes can be used, and the preparation cost is saved.

And thirdly,: according to the utility model, the blanking motor works to drive the blanking hole on the blanking disc to rotate to correspond to the blanking pipe, and the qualified solid particles at the bottom end inside the filter box fall into the charging barrel on the conveying belt for filling through the blanking pipe and the blanking hole, so that the blanking hole is driven to rotate to be not corresponding to the blanking pipe when filling is not needed.

Drawings

The utility model is further explained below with reference to the drawings and examples:

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic perspective view of a second embodiment of the present utility model;

FIG. 3 is a partial cross-sectional view of the utility model;

FIG. 4 is a schematic perspective view of a first filter assembly of the present utility model;

FIG. 5 is a schematic perspective view of a first filter assembly according to the present utility model;

FIG. 6 is a schematic perspective view of a second filter assembly of the present utility model;

FIG. 7 is a schematic perspective view of a second filter assembly of the present utility model;

FIG. 8 is a schematic perspective view of a flip cleaning assembly of the present utility model;

FIG. 9 is a schematic diagram of a second perspective view of the flip cleaning assembly of the present utility model;

FIG. 10 is a front view of the flip cleaning assembly of the present utility model;

FIG. 11 is a schematic view of a partial perspective view of the present utility model;

FIG. 12 is a schematic perspective view of a blanking assembly of the present utility model;

FIG. 13 is a schematic diagram showing a second perspective structure of the blanking assembly of the present utility model;

FIG. 14 is a schematic diagram of a partial perspective view of a second embodiment of the present utility model;

fig. 15 is an enlarged view at a in fig. 14.

Reference numerals illustrate:

the bottom plate 1, the carrier 11, the conveyor belt 12, the charging bucket 13, the filter box 2, the charging bucket 21, the opening and closing door 22, the first filter assembly 3, the vibrating box 31, the driving motor 32, the chain 33, the vertical rod 34, the driving member 35, the driving shaft 351, the sprocket 352, the roller 353, the cam 354, the first filter hole 36, the second filter assembly 4, the moving frame 41, the partition 42, the grinding member 43, the fixing plate 431, the grinding motor 432, the grinding gear 433, the fixing bar 434, the grinding rack 435, the slide rail 44, the grinding plate 45, the second filter hole 46, the grinding tooth 47, the inclined baffle 48, the overturning cleaning assembly 5, the carrier 51, the limit rail 52, the overturning frame 53, the screw rod slipway 54, the connecting plate 55, the overturning plate 56, the U-shaped frame 561, the overturning shaft 562, the conveying roller, the clamping limit member 57, the limit frame 571, the driving cylinder 572, the clamping plate 573, the overturning motor 58, the driving gear 59, the driven gear 591, the supporting table 6, the waste bin 61, the bracket 7, the blanking assembly 8, the blanking shaft 81, the blanking shaft 82, the motor 83, the blanking plate 84, the first gear 84, the annular groove 85, the annular groove 88, the rotary shaft 93, the guide plates 93, the U-shaped frame 88, the rotary shafts 93, the U-shaped frame 88, the rotating shafts 93.

Description of the embodiments

The following detailed description of the present utility model clearly and fully describes the technical solutions of the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1-13, a filtering device for preparing a gray water scale inhibition dispersing agent comprises a bottom plate 1, a conveying frame 11, a conveying belt 12, a filtering box 2, a first filtering component 3, a second filtering component 4, a turnover cleaning component 5, a supporting table 6, a waste bin 61 and two brackets 7, wherein the conveying frame 11 is erected on the top of the bottom plate 1, the conveying belt 12 is installed in the conveying frame 11, a plurality of charging barrels 13 are arranged on the conveying belt 12, the filtering box 2 is erected on the conveying frame 11 through the two brackets 7, a feeding hopper 21 is arranged on the top of the filtering box 2, a blanking component 8 is arranged at the bottom of the filtering box 2, the first filtering component 3 is installed at the inner top end of the filtering box 2, the second filtering component 4 is installed inside the filtering box 2, the second filtering component 4 is positioned below the first filtering component 3, the turnover cleaning component 5 is installed at the top of the bottom plate 1, the top end of the turnover cleaning component 5 extends to the side of the filtering box 2, the supporting table 6 is installed at the top of the bottom plate 1, the top of the supporting table 61 is installed at the top of the waste bin 6, and two hinged doors 22 are arranged at the top of the two outer walls of the supporting table 6; through pouring grey water scale inhibition dispersing agent into rose box 2 through throwing hopper 21, grey water scale inhibition dispersing agent falls into first filter component 3, first filter component 3 vibrations are screened the solid particle in the grey water scale inhibition dispersing agent, then the solid particle that the size accords with behind the screening falls into second filter component 4, second filter component 4 grinds the solid particle that falls into wherein, the solid particle that the size is qualified after grinding falls into rose box 2's inside bottom, then unloading subassembly 8 cooperation conveyer belt 12 work falls into the dress bucket 13 with the inside bottom qualified solid particle of rose box 2 and carries out the dress, regular upset clearance subassembly 5 work is poured into waste box 61 voluntarily with the solid particle waste material that piles up in the second filter component 4, prevent solid particle waste material jam second filter component 4 normal operating, need not to adopt the mode of beating, avoid beating to cause the damage of part to influence filtration efficiency.

Specifically, the first filter assembly 3 includes a vibration box 31, a driving motor 32, a chain 33, two vertical rods 34 and two driving components 35, two vertical rods 34 are symmetrically disposed at the top end of the inside of the filter box 2, the vibration box 31 is slidably mounted on the two vertical rods 34, a plurality of first filtering holes 36 are disposed at the bottom end of the vibration box 31, the two driving components 35 are symmetrically disposed inside the filter box 2, one end of the two driving components 35 extends to the outside of the filter box 2, each driving component 35 includes a driving shaft 351, a sprocket 352, two rollers 353 and two cams 354, the driving shaft 351 is rotatably mounted in the filter box 2, one end of the driving shaft 351 extends to the outside of the filter box 2, the sprocket 352 is mounted at the end of the driving shaft 351, the two rollers 353 are symmetrically disposed at the bottom of the vibration box 31, the two cams 354 are symmetrically disposed on the driving shaft 351, and the top ends of the two cams 354 respectively abut against the bottom ends of the two rollers 353, the driving motor 32 is horizontally disposed on the outer wall of the filter box 2, and one of the driving components 35 is connected to the driving components 35 in the driving shaft 35; the driving motor 32 works to drive the driving shaft 351 in one driving part 35 to rotate, the driving shaft 351 utilizes the chain wheel 352 and the chain 33 to drive the driving shafts 351 in the two driving parts 35 to synchronously rotate, the driving shaft 351 drives the cam 354 to rotate, the cam 354 and the roller 353 are in interference fit to drive the vibration box 31 to reciprocally lift a certain distance on the two vertical rods 34, the vibration box 31 reciprocally lifts to form vibration, the first filter holes 36 are used for screening the gray water scale inhibition dispersing agent, solid particles with the volume smaller than the diameter of the first filter holes 36 in the gray water scale inhibition dispersing agent fall onto the partition plate 42 on the movable frame 41, and solid particles with the volume larger than the diameter of the first filter holes 36 are accumulated in the vibration box 31, so that preliminary filtration of the solid particles in the gray water scale inhibition dispersing agent is realized.

Specifically, the second filtering assembly 4 includes a moving frame 41, a partition plate 42, a grinding member 43, two sliding rails 44 and two grinding plates 45, where the two sliding rails 44 are symmetrically disposed on the inner wall of the filtering box 2, two sides of the moving frame 41 are slidably mounted on the two sliding rails 44, one end of the moving frame 41 extends to the outside of the filtering box 2, the partition plate 42 is horizontally disposed in the moving frame 41, a plurality of second filtering holes 46 are disposed on the partition plate 42, the diameter of the second filtering holes 46 is smaller than that of the first filtering holes 36, two grinding plates 45 are slidably mounted in the moving frame 41, the bottoms of the two grinding plates 45 are attached to the top of the partition plate 42, a plurality of grinding teeth 47 are disposed on the grinding plates 45, the grinding member 43 is mounted on the inner top of the moving frame 41, and two ends of the grinding member 43 are respectively connected with the two grinding plates 45; the grinding part 43 works to drive the two grinding plates 45 to move relatively close to grind solid particles on the partition plate 42, the grinding teeth 47 quicken the grinding efficiency of the grinding plates 45, the solid particles with the volume smaller than that of the second filtering holes 46 fall into the bottom end inside the filter box 2 after grinding, the solid particles with the volume larger than that of the second filtering holes 46 are piled up on the partition plate 42, and the grinding mode is adopted to ensure that fixed particles with the volume smaller than that of the first filtering holes 36 but larger than that of the second filtering holes 46 can be used, so that the preparation cost is saved.

Specifically, the grinding component 43 includes a fixed plate 431, a grinding motor 432, a grinding gear 433, two fixed bars 434 and two grinding racks 435, the fixed plate 431 is horizontally disposed on the inner wall of the moving frame 41, the grinding motor 432 is vertically disposed at the top of the fixed plate 431, one ends of the two fixed bars 434 are respectively connected with the tops of the two grinding plates 45, the other ends of the two fixed bars 434 extend to the upper side of the fixed plate 431, the two grinding racks 435 are respectively disposed on the outer walls of the two fixed bars 434, the grinding gear 433 is mounted on the output shaft of the grinding motor 432, and two sides of the grinding gear 433 are respectively meshed with the two grinding racks 435; the grinding motor 432 works to drive the grinding gear 433 to rotate, the grinding gear 433 drives the two fixing bars 434 to move relatively by using the two grinding racks 435, the two fixing bars 434 drive the two grinding plates 45 to move relatively close to each other, and the two grinding plates 45 move relatively close to each other to grind solid particles on the partition plate 42.

Specifically, the top end of the moving frame 41 is provided with an inclined baffle 48; the inclined baffle 48 prevents solid particles falling into the moving frame 41 from entering the surface of the grinding motor 432, the grinding gear 433, the two fixing bars 434, and the two grinding racks 435, affecting the operation thereof.

Specifically, the turnover cleaning assembly 5 comprises a bearing frame 51, a limit rail 52, a turnover frame 53, a screw rod sliding table 54, a connecting plate 55, a turnover plate 56, a U-shaped frame 561, two turnover shafts 562 and two clamping limiting components 57, wherein the bearing frame 51 is arranged at the top of the bottom plate 1, the limit rail 52 is horizontally arranged on the inner wall of the bearing frame 51, the turnover frame 53 is slidably arranged on the limit rail 52, one end of the turnover frame 53 extends to the side of the filter box 2, the screw rod sliding table 54 is horizontally arranged on the inner wall of the bearing frame 51, the connecting plate 55 is arranged on the moving end of the screw rod sliding table 54, the connecting plate 55 is connected with the bottom end of the turnover frame 53, the turnover plate 56 is rotatably installed at the top end of the turnover frame 53 through two turnover shafts 562, the U-shaped frame 561 is installed at the top of the turnover plate 56, a plurality of conveying rollers 563 are rotatably installed in the U-shaped frame 561, a turnover motor 58 is arranged on the outer wall of the top end of the turnover frame 53, a driving gear 59 is arranged at the output end of the turnover motor 58, a driven gear 591 is arranged at the end part of one turnover shaft 562, the driven gear 591 is meshed with the driving gear 59, and two clamping limiting parts 57 are symmetrically arranged on the outer wall of the turnover plate 56; the movable frame 41 is moved out of the filter box 2 through forward rotation of the plurality of conveying rollers 563, then the two clamping limiting components 57 work to clamp and limit the outer wall of the movable frame 41, the screw rod sliding table 54 works to drive the turnover frame 53 to move on the limiting rail 52, the turnover frame 53 drives the movable frame 41 to move to the position right above the waste box 61, then the turnover motor 58 works to drive the driving gear 59 to rotate, the driving gear 59 drives the turnover plate 56 to rotate 180 degrees through the driven gear 591, the turnover plate 56 drives the movable frame 41 to rotate 180 degrees, solid particle waste with the volume larger than the diameter of the second filter hole 46 on the partition plate 42 is poured into the waste box 61, then the turnover motor 58 drives the turnover plate 56 to continue rotating for 180 degrees to reset, the two clamping limiting components 57 cancel clamping of the movable frame 41, the plurality of conveying rollers reversely rotate to convey the movable frame 41 to the filter box 2, the solid particle waste is prevented from blocking the second filter hole 46, and damage of parts caused by knocking is avoided.

Specifically, each clamping and limiting component 57 includes a limiting frame 571, a driving air cylinder 572 and a clamping plate 573, wherein the limiting frame 571 is erected on the outer wall of the overturning plate 56, the driving air cylinder 572 is horizontally arranged at the top of the limiting frame 571, and the clamping plate 573 is installed on the output end of the driving air cylinder 572; the clamping plate 573 is driven to move by the operation of the driving air cylinder 572, and the clamping plate 573 moves to clamp and limit the outer wall of the movable frame 41.

Specifically, the blanking assembly 8 includes a blanking pipe 81, a blanking shaft 82, a blanking disc 83, a blanking motor 84, a first gear 85 and a second gear 86, wherein the blanking pipe 81 is vertically arranged at the bottom of the filter box 2, the blanking pipe 81 is communicated with the inside of the filter box 2, the blanking shaft 82 is rotatably arranged at the bottom of the filter box 2, the blanking disc 83 is arranged at the bottom end of the blanking shaft 82, an annular groove 87 in sliding fit with the outer wall of the bottom end of the blanking pipe 81 is arranged at the top end of the blanking disc 83, a blanking hole 88 communicated with the annular groove 87 is arranged at the bottom end of the blanking disc 83, the blanking hole 88 corresponds to the blanking pipe 81, the blanking motor 84 is vertically arranged at the bottom of the filter box 2, the first gear 85 is arranged on an output shaft of the blanking motor 84, the second gear 86 is arranged on the blanking shaft 82, and the second gear 86 is meshed with the first gear 85; the blanking motor 84 is operated to drive the blanking hole 88 on the blanking disc 83 to rotate to correspond to the blanking pipe 81, and solid particles qualified at the bottom end inside the filter tank 2 fall into the charging barrel 13 on the conveying belt 12 for filling through the blanking pipe 81 and the blanking hole 88, so that the blanking motor 84 is only required to operate to drive the blanking hole 88 to rotate to be not corresponding to the blanking pipe 81 during filling.

Example two

As shown in fig. 14 and 15, a filtering device for preparing a gray water scale inhibitor and dispersant is basically the same as that of embodiment 1, two abutting components 9 are disposed at the top of the filtering box 2, the bottom ends of the two abutting components 9 respectively abut against the outer walls of the two opening and closing doors 22, each abutting component 9 includes an L-shaped plate 91, a rotating shaft 92 and an abutting strip 93, the L-shaped plate 91 is mounted at the top of the filtering box 2, the rotating shaft 92 is rotatably mounted at the top end of the L-shaped plate 91, the top end of the abutting strip 93 is connected with the end of the rotating shaft 92, and the bottom end of the abutting strip 93 abuts against the outer wall of the opening and closing door 22; the interference strips 93 in the two interference assemblies 9 are manually rotated to be separated from the outer walls of the two opening and closing doors 22 at regular intervals, and then the two opening and closing doors 22 are pulled open to empty solid particle waste accumulated in the vibrating box 31 and having a volume larger than the diameter of the first filtering hole 36, so that the solid particle waste is prevented from blocking the first filtering hole 36.

Example III

The utility model also discloses a use method of the filtering device for preparing the gray water scale inhibition and dispersion agent, which comprises the following steps,

s1, pouring a grey water scale inhibition dispersing agent into a filter box 2 through a charging hopper 21, enabling the grey water scale inhibition dispersing agent to fall into a vibrating box 31, then driving two driving components 35 to rotate by a driving motor 32, driving the vibrating box 31 to reciprocate on two vertical rods 34 by a certain distance by the two driving components 35, and enabling the vibrating box 31 to reciprocate to vibrate, wherein a plurality of first filter holes 36 screen the grey water scale inhibition dispersing agent, solid particles with the volume smaller than the diameter of the first filter holes 36 in the grey water scale inhibition dispersing agent fall onto a partition plate 42 on a movable frame 41, and solid particles with the volume larger than the diameter of the first filter holes 36 are accumulated in the vibrating box 31;

s2, a grinding motor 432 drives two fixing strips 434 to move relatively, the two fixing strips 434 drive two grinding plates 45 to move relatively close to each other, the two grinding plates 45 grind solid particles on the partition plate 42 relatively close to each other, the solid particles with the volume smaller than that of the second filter holes 46 after grinding fall into the bottom end inside the filter box 2, and the solid particles with the volume larger than that of the second filter holes 46 are accumulated on the partition plate 42;

s3, a blanking motor 84 works to drive a blanking hole 88 on a blanking disc 83 to rotate to correspond to the blanking pipe 81, and solid particles qualified at the bottom end inside the filter box 2 fall into a charging barrel 13 on the conveying belt 12 through the blanking pipe 81 and the blanking hole 88 for filling;

s4, periodically moving the movable frame 41 out of the filter box 2 by forward rotation of a plurality of conveying rollers 563, and then synchronously working by driving air cylinders 572 in two clamping and limiting parts 57, wherein the driving air cylinders 572 drive clamping plates 573 to move so as to clamp and limit the outer wall of the movable frame 41;

s5, a screw rod sliding table 54 drives a turnover frame 53 to move on a limit rail 52 by using a connecting plate 55, the turnover frame 53 drives a movable frame 41 to move to be right above a waste box 61, then a turnover motor 58 works to drive a turnover plate 56 to rotate 180 degrees, the turnover plate 56 drives the movable frame 41 to rotate 180 degrees, solid particle waste with the volume larger than the diameter of a second filtering hole 46 on a partition plate 42 is poured into the waste box 61, then the turnover plate 56 is driven by the turnover motor 58 to continue to rotate 180 degrees for resetting, the screw rod sliding table 54 drives the turnover frame 53 to reversely move for resetting, clamping plates 573 in two clamping limiting parts 57 cancel clamping the movable frame 41, and finally a plurality of conveying rollers 563 reversely rotate to convey the movable frame 41 into the filtering box 2;

s6, periodically and manually rotating the abutting strips 93 in the two abutting assemblies 9 to be separated from the outer walls of the two opening and closing doors 22, and then pulling the two opening and closing doors 22 open to empty solid particle waste accumulated in the vibrating box 31 and having a volume larger than the diameter of the first filtering hole 36.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. The utility model provides a grey water hinders filter equipment for dirt dispersant preparation which characterized in that: including bottom plate (1), carriage (11), conveyer belt (12), rose box (2), first filter component (3), second filter component (4), upset clearance subassembly (5), brace table (6), waste bin (61) and two support (7), carriage (11) erect in the top of bottom plate (1), conveyer belt (12) are installed in carriage (11), be equipped with a plurality of loading bucket (13) on conveyer belt (12), rose box (2) erect on carriage (11) through two support (7), the top of rose box (2) is equipped with feed hopper (21), the bottom of rose box (2) is equipped with unloading subassembly (8), first filter component (3) are installed on the inside top of rose box (2), second filter component (4) are installed in the inside of rose box (2) to second filter component (4) are located the below of first filter component (3), upset clearance subassembly (5) are installed at the top of bottom plate (1) and are equipped with feed hopper (21) at the top of brace table (6) side of the filter table (6) that the top of rose box (2) is set up, two opening and closing doors (22) are hinged on the outer wall of the top end of the filter box (2);

the first filter assembly (3) comprises a vibrating box (31), a driving motor (32), a chain (33), two vertical rods (34) and two driving components (35), wherein the two vertical rods (34) are symmetrically arranged at the top end of the inside of the filter box (2), the vibrating box (31) is slidably arranged on the two vertical rods (34), the bottom end of the vibrating box (31) is provided with a plurality of first filter holes (36), the two driving components (35) are symmetrically arranged inside the filter box (2), one ends of the two driving components (35) extend to the outside of the filter box (2), each driving component (35) comprises a driving shaft (351), a chain wheel (352), two rollers (353) and two cams (354), the driving shaft (351) is rotatably arranged in the filter box (2), one end of the driving shaft (351) extends to the outside of the filter box (2), the chain wheel (352) is arranged at the end of the driving shaft (351), one ends of the two rollers (353) are symmetrically arranged at the bottom of the box (31), one ends of the two rollers (354) are symmetrically arranged on the two outer walls (32) of the two cams (353) respectively, the output shaft of the driving motor (32) is connected with a driving shaft (351) in one driving part (35), and the chain (33) is sleeved outside a chain wheel (352) in the two driving parts (35);

the second filter component (4) comprises a movable frame (41), a partition plate (42), a grinding part (43), two sliding rails (44) and two grinding plates (45), wherein the two sliding rails (44) are symmetrically arranged on the inner wall of the filter box (2), two sides of the movable frame (41) are slidably arranged on the two sliding rails (44), one end of the movable frame (41) extends to the outside of the filter box (2), the partition plate (42) is horizontally arranged in the movable frame (41), a plurality of second filtering holes (46) are formed in the partition plate (42), the diameter of each second filtering hole (46) is smaller than that of each first filtering hole (36), the two grinding plates (45) are slidably arranged in the movable frame (41), the bottoms of the two grinding plates (45) are attached to the top of the partition plate (42), a plurality of grinding teeth (47) are arranged on the grinding plates (45), the grinding part (43) is arranged on the inner top end of the movable frame (41), and the two grinding parts (43) are connected with the two grinding plates (45) respectively.

2. The filtration device for preparing a gray water scale inhibition and dispersion agent according to claim 1, wherein: the grinding part (43) comprises a fixed plate (431), a grinding motor (432), a grinding gear (433), two fixing strips (434) and two grinding racks (435), wherein the fixed plate (431) is horizontally arranged on the inner wall of a movable frame (41), the grinding motor (432) is vertically arranged at the top of the fixed plate (431), one ends of the two fixing strips (434) are respectively connected with the tops of the two grinding plates (45), the other ends of the two fixing strips (434) are respectively extended to the upper part of the fixed plate (431), the two grinding racks (435) are respectively arranged on the outer walls of the two fixing strips (434), the grinding gear (433) is arranged on the output shaft of the grinding motor (432), and two sides of the grinding gear (433) are respectively meshed with the two grinding racks (435).

3. The filtration device for preparing a gray water scale inhibition and dispersion agent according to claim 2, wherein: an inclined baffle plate (48) is arranged at the top end of the movable frame (41).

4. A filtration device for preparing a gray water scale inhibition and dispersion agent according to claim 3, wherein: the turnover cleaning component (5) comprises a bearing frame (51), a limit rail (52), a turnover frame (53), a screw sliding table (54), a connecting plate (55), a turnover plate (56), a U-shaped frame (561), two turnover shafts (562) and two clamping limiting components (57), wherein the bearing frame (51) is arranged at the top of a bottom plate (1), the limit rail (52) is horizontally arranged on the inner wall of the bearing frame (51), the turnover frame (53) is slidably arranged on the limit rail (52), one end of the turnover frame (53) extends to the side of a filter box (2), the screw sliding table (54) is horizontally arranged on the inner wall of the bearing frame (51), the connecting plate (55) is arranged at the moving end of the screw sliding table (54), the connecting plate (55) is connected with the bottom end of the turnover frame (53), the turnover plate (56) is rotatably arranged at the top of the turnover frame (53) through the two turnover shafts (562), the U-shaped frame (561) is arranged at the inner wall of the turnover plate (56), the motor (56) is slidably arranged at the top of the turnover frame (53), the motor (561) is arranged at the top of the turnover frame (53), the motor (53) is provided with a plurality of active transmission rolls (58), the end of one of the turning shafts (562) is provided with a driven gear (591), the driven gear (591) is meshed with the driving gear (59), and the two clamping limiting components (57) are symmetrically arranged on the outer wall of the turning plate (56).

5. The filtration device for preparing the gray water scale inhibition and dispersion agent according to claim 4, wherein: each clamping limiting component (57) comprises a limiting frame (571), a driving air cylinder (572) and a clamping plate (573), wherein the limiting frame (571) is erected on the outer wall of the overturning plate (56), the driving air cylinder (572) is horizontally arranged at the top of the limiting frame (571), and the clamping plate (573) is installed on the output end of the driving air cylinder (572).

6. The filtration device for preparing the gray water scale inhibition and dispersion agent according to claim 5, wherein: unloading subassembly (8) include unloading pipe (81), unloading axle (82), unloading dish (83), unloading motor (84), first gear (85) and second gear (86), the vertical bottom that sets up in rose box (2) of unloading pipe (81) to unloading pipe (81) are linked together with the inside of rose box (2), the bottom in rose box (2) is installed in unloading axle (82) rotation, the bottom in unloading axle (82) is installed to unloading dish (83), the top of unloading dish (83) is equipped with ring channel (87) with unloading pipe (81) bottom outer wall sliding fit, the bottom of unloading dish (83) is equipped with unloading hole (88) that are linked together with ring channel (87), unloading hole (88) correspond with unloading pipe (81), the vertical bottom that sets up in rose box (2) of unloading motor (84), first gear (85) are installed on the output shaft of unloading motor (84), second gear (86) are installed on unloading axle (86) and second gear (85) mesh.

7. The filtration device for preparing the gray water scale inhibition and dispersion agent according to claim 6, wherein: the top of rose box (2) is equipped with two conflict subassemblies (9), two the bottom of conflict subassembly (9) is contradicted with the outer wall of two opening and shutting doors (22) respectively, every conflict subassembly (9) all include L template (91), rotation axis (92) and conflict strip (93), the top at rose box (2) is installed to L template (91), rotation axis (92) rotate and install the top at L template (91), the top of conflict strip (93) is with the end connection of rotation axis (92), the bottom of conflict strip (93) is contradicted with the outer wall of opening and shutting door (22).

8. The method for using the filtering device for preparing the gray water scale inhibition and dispersion agent according to claim 7, which is characterized in that: comprises the steps of,

s1, pouring a gray water scale inhibition dispersing agent into a filter box (2) through a feeding hopper (21), enabling the gray water scale inhibition dispersing agent to fall into a vibrating box (31), driving two driving components (35) to rotate by a driving motor (32), enabling the vibrating box (31) to reciprocate on two vertical rods (34) for a certain distance by the two driving components (35), enabling the vibrating box (31) to reciprocate to vibrate, screening the gray water scale inhibition dispersing agent through a plurality of first filtering holes (36), enabling solid particles with the volume smaller than the diameter of the first filtering holes (36) in the gray water scale inhibition dispersing agent to fall onto a partition plate (42) on a movable frame (41), and enabling the solid particles with the volume larger than the diameter of the first filtering holes (36) to be accumulated in the vibrating box (31);

s2, a grinding motor (432) drives two fixing strips (434) to move relatively, the two fixing strips (434) drive two grinding plates (45) to move relatively close to each other, the two grinding plates (45) move relatively close to each other to grind solid particles on a partition plate (42), the solid particles with the volume smaller than that of a second filtering hole (46) after grinding fall into the bottom end of the interior of a filtering box (2), and the solid particles with the volume larger than that of the second filtering hole (46) are accumulated on the partition plate (42);

s3, a discharging motor (84) works to drive a discharging hole (88) on a discharging disc (83) to rotate to correspond to the discharging pipe (81), and solid particles qualified at the bottom end inside the filter box (2) fall into a charging barrel (13) on the conveying belt (12) through the discharging pipe (81) and the discharging hole (88) to be filled;

s4, periodically moving the movable frame (41) out of the filter box (2) by forward rotation of a plurality of conveying rollers (563), and then synchronously working by a driving air cylinder (572) in two clamping limiting parts (57), wherein the driving air cylinder (572) drives a clamping plate (573) to move so as to clamp and limit the outer wall of the movable frame (41);

s5, a screw rod sliding table (54) drives a turnover frame (53) to move on a limit rail (52) by using a connecting plate (55), the turnover frame (53) drives a movable frame (41) to move to the position right above a waste box (61), then a turnover motor (58) works to drive a turnover plate (56) to rotate 180 degrees, the turnover plate (56) drives the movable frame (41) to rotate 180 degrees, solid particle waste with the volume larger than the diameter of a second filtering hole (46) on a partition plate (42) is poured into the waste box (61), then the turnover motor (58) drives the turnover plate (56) to continue rotating for 180 degrees for resetting, the screw rod sliding table (54) drives the turnover frame (53) to reversely move for resetting, a clamping plate (573) in two clamping limiting parts (57) cancel clamping the movable frame (41), and finally a plurality of conveying rollers (563) reversely rotate to convey the movable frame (41) to the inside of a filtering box (2);

s6, periodically and manually rotating the abutting strips (93) in the two abutting assemblies (9) to be separated from the outer walls of the two opening and closing doors (22), and then opening the two opening and closing doors (22) to empty solid particle waste which is accumulated in the vibrating box (31) and has a volume larger than the diameter of the first filtering hole (36).