CN204747062U - Surplus mud processing system of building - Google Patents
Surplus mud processing system of building Download PDFInfo
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- CN204747062U CN204747062U CN201520402419.XU CN201520402419U CN204747062U CN 204747062 U CN204747062 U CN 204747062U CN 201520402419 U CN201520402419 U CN 201520402419U CN 204747062 U CN204747062 U CN 204747062U
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Abstract
The utility model discloses a surplus mud processing system of building, wherein the system include loading attachment, drum screen, scrape sha chi, organic matter hydrocyclone separation device, organic matter vibration isolation sieve and filter -pressing separator. The utility model provides a surplus mud processing system of building adopts pure physical equipment, will construct the surplus mud of building that content is the highest in the rubbish and go on fully handling and recycle, can follow and draw out bold building stones, cement piece, dregs, fine sand, scum, organic matter etc. In the surplus mud of building respectively to obtaining mud cake and clear water at last, having reached changing waste into valuables's purpose, green accords with the modern production needs.
Description
Technical field
The utility model relates to the remaining mud treatment system of building.
Background technology
The remaining mud of building refers to the building waste such as soil, slag, material that all kinds of architectural engineering is discarded, along with the progress that Chinese Urbanization is built, traditional land-fill method can not meet the discharge capacity of mud more than growing building, and do not meet the environmental protection theory advocated, therefore, the remaining mud of building recycles and becomes inevitable development trend.
Utility model content
The purpose of this utility model provides a kind of building remaining mud treatment system, and the utility model adopts following technical scheme in order to achieve the above object:
The remaining mud treatment system of a kind of building, comprises feeding device, drum screen, scrapes Sha Chi, organic matter cyclone separation device, organic matter shaker separator and press filtration separator;
Described feeding device is connected with described drum screen, for remaining for building mud is delivered to the separation carrying out bulk materials in described drum screen; Scrape Sha Chi described in described drum screen is connected to connect, scrape Sha Chizhong described in being delivered to for mud more than building and carry out sedimentary separation; The described Sha Chi of scraping is connected to described organic matter cyclone separation device, for remaining for building mud is carried out organic separation; Described organic matter cyclone separation device is connected to organic matter shaker separator, for being sifted out by organic matter; Described organic matter shaker separator is connected to press filtration separator, for obtaining not containing the water body of building impurity.
Preferably, described feeding device is the remaining mud conveyer belt of building, comprises support, conveyer belt, hopper;
Described support is frame structure, descend both sides to be provided with roller for installing belt on the bracket, and the two ends, left and right of described support are respectively equipped with driven pulley, driving wheel, wherein driving wheel is driven by motor, described motor is fixedly arranged on described support, and described is set up on telescopic mast;
Described conveyer belt is articulated on described roller, driven pulley and driving wheel and forms a closed loop, and described conveyer belt is also provided with dismountable hopper, the edge of opening of described hopper by hinge and described conveyer belt hinged.
Preferably, described drum screen is the remaining mud the second-order separation drum screen of building, comprises cylinder, anchor ear, end cap and rotating driving device;
Described cylinder becomes two ends to have the tubular structure of opening by screen cloth coiling, and described drum-inclined arranges and passes through described drive unit driving rotation; Described anchor ear quantity is three or more, and lock ring is at the two ends of described cylinder and middle part respectively; The upper opening form fit of described end cap and described cylinder is also fixed in upper opening place, and the middle part indent of described end cap be provided with charging hole at interior recess, be provided with the mesh of lattice-shaped outside the charging aperture of described end cap.
Preferably, described drum screen is the remaining mud magnetic separation drum screen of building, comprises cylinder, rotating driving device and concentration equipment;
Described cylinder is formed by screen cloth coiling, and it is connected with described rotating driving device, is driven rotate by described drive unit; Described concentration equipment comprises bunker for collecting, driving wheel, belt, high-strength magnet and guide plate; Described bunker for collecting is positioned at below described cylinder, its output is positioned at above described belt or described high-strength magnet, and described belt is articulated on described driving wheel and described high-strength magnet, described driving wheel is crossed by described high-strength magnetic Tie Tong and described belt drives rotates, described guide plate is positioned at below described high-strength magnet, is provided with cell body between described bunker for collecting and described belt, and one end of described cell body is closed, the other end is provided with opening, and described opening is positioned at above described high-strength magnet.
Preferably, the described Sha Chi of scraping comprises the pond body for storing the remaining mud of building, slope is provided with bottom the body of described pond, the eminence on described slope is provided with sand outlet, described slope is provided with the rotating shaft be connected with drive unit, described rotating shaft is arranged along direction, described slope, and described rotating shaft is provided with helical blade, and described helical blade is then provided with liquid-leaking nozzle; The outer rim of described helical blade is provided with plastic layer; Described pond body section is the arcuate structure mated with described helical blade; Also comprise for the water pipe to the body water filling of described pond, described water pipe delivery port is positioned at above the body of described pond.
Preferably, described organic matter cyclone separation device, comprises cylinder, conically shaped;
Be provided with charging aperture above wherein said cylinder side wall, feedstock direction and the described cylinder side wall of described charging aperture are tangent, and the feedstock direction of described charging aperture is tilted to down, and described barrel top is provided with first discharging opening of discharging for organic matter; Described conically shaped is inverted pyramidal structure, and its top is communicated with the bottom of described cylinder, and the bottom of described conically shaped is provided with second discharging opening of discharging for impurity; Described cylinder side wall is provided with top-down first spiral drainage trough; Described conically shaped sidewall is provided with top-down second spiral drainage trough, and described second spiral drainage trough is connected with described first spiral drainage trough.
Preferably, described organic matter shaker separator comprises installing plate, vibrating motor, screen cloth, shock structure and for carrying the carrier pipe of organic matter mixed liquor;
Described vibrating motor is connected to below described installing plate, and described screen cloth to be connected to above described installing plate and to be obliquely installed, to make screen cloth vibrate by driven by vibrating motors and installing plate transmission; Described installing plate is then installed on described shock structure; Described carrier pipe is located at above described installing plate, and is provided with flexible cover at the delivery outlet of described carrier pipe; Also water leg is provided with between described installing plate and described screen cloth; Described water leg is located on column.
Preferably, described press filtration separator comprises frame, and described frame is provided with column, and described column is respectively equipped with Hydraulic Station and guide rod, and wherein said guide rod quantity is two and be arranged in parallel; The output of described Hydraulic Station is connected with push rod, and described push rod is connected with a top board, and described top board and two described guide rods are slidably connected, and two described guide rods is also provided with the wallboard that a position is fixing; Between described top board and described wallboard, be provided with a plurality of filter press plate, a plurality of described filter press plate is slidably connected with described guide rod respectively, and described filter press plate is provided with drainpipe, and a plurality of described filter press plate is provided with a common stock inlet.
Preferably, described press filtration separator comprises filter press plate, and described filter press plate comprises mainboard, key and barrier film;
Described mainboard both sides form concave surface respectively, and the outer of concave surface described in one of them is arranged with closed loop groove, and the outer of concave surface described in another is arranged with the closed loop keel with described closed loop matching grooves, is also provided with through hole in the middle part of described mainboard, and for the osculum of draining; Described key comprises bolt head, the first bolt plate and the second bolt plate, external screw thread is provided with outside described bolt head, inside is provided with groove, described first bolt plate is provided with the internal thread hole mated with external screw thread, described second bolt plate is provided with the internal thread hole mated with described external screw thread, is also provided with the recess be communicated with described groove; Described bolt head is successively through described first bolt plate, mainboard and the second bolt plate, and wherein bolt head is threaded with described first bolt plate, the second bolt plate, and the groove of described bolt head is communicated with the recess of described second bolt plate; Described barrier film quantity is two pieces, and wherein one piece is riveted between described first bolt plate and described mainboard, and another block is riveted between described mainboard and described second bolt plate.
More than the building that the utility model provides, mud treatment system adopts pure physical equipment, mud more than building the highest for content in building waste is fully processed and recycles, oversize rock material, cement block, dregs, fine sand, scum, organic matter etc. can be extracted respectively from the remaining mud of building, and last acquisition mud cake and clear water, reach the object turned waste into wealth, environmental protection, meets modern production needs.
Accompanying drawing explanation
Accompanying drawing described herein is used to provide further understanding of the present utility model, forms a application's part, does not form improper restriction of the present utility model, in the accompanying drawings:
Fig. 1 is the utility model embodiment floor map;
Fig. 2 is the remaining mud conveyer belt structure schematic diagram of the utility model embodiment building;
Fig. 3 is the utility model embodiment the second-order separation drum screen structural representation;
Fig. 4 is the utility model embodiment magnetic separation drum screen structural representation;
Fig. 5,6 is that the utility model embodiment scrapes husky pool structure schematic diagram;
Fig. 7 is the utility model embodiment organic matter cyclone separation device structural representation;
Fig. 8 is the utility model embodiment organic matter shaker separator structural representation;
Fig. 9 is the utility model embodiment press filtration cyclone separator arrangement schematic diagram;
Figure 10,11 is the utility model embodiment press & filter plate structure schematic diagrames.
Detailed description of the invention
Describe the utility model in detail below in conjunction with accompanying drawing and specific embodiment, be used for explaining the utility model in this illustrative examples of the present utility model and explanation, but not as to restriction of the present utility model.
Embodiment:
As shown in Figure 1, the remaining mud treatment system of a kind of building, comprises feeding device 1, drum screen 2, scrapes Sha Chi 3, organic matter cyclone separation device 4, organic matter shaker separator 5 and press filtration separator 6; Described feeding device 1 is connected with described drum screen 2, for remaining for building mud is delivered to the separation carrying out bulk materials in described drum screen 2; Scrape Sha Chi 3 described in described drum screen 2 is connected to connect, scrape in Sha Chi 3 described in being delivered to for mud more than building and carry out sedimentary separation; The described Sha Chi of scraping 3 is connected to described organic matter cyclone separation device 4, for remaining for building mud is carried out organic separation; Described organic matter cyclone separation device 4 is connected to organic matter shaker separator 5, for being sifted out by organic matter; Described organic matter shaker separator 5 is connected to press filtration separator 6, for obtaining not containing the water body of building impurity.
More than above-mentioned building, the treatment process of mud treatment system is as follows:
1), according to impurity content situation and the mobility situation of building remaining mud, remaining for building mud is delivered to drum screen by the remaining mud conveyer belt of selective employing building or suction pumps;
2), by drum screen screened out by the bulk magazins' layout in remaining for building mud, according to building, remaining mud impurity component is selective magneticly elects irony impurity simultaneously;
3), more than the building that screens out of bulk magazins' layout mud is delivered to and scrapes Sha Chi precipitation, is then scraped by the sediment bottom the body of pond by helical blade;
4), by mud more than the building of scraping Sha Chizhong look mobility degree and water blending transportation to organic matter cyclone separation device, isolate organic matter;
5), by organic matter shaker separator, isolated organic matter is leached;
6), leach mud more than the building after organic matter, after precipitation filtering, to input to press filtration separator and obtain mud cake, and collect clear water.
Below each critical piece is described respectively:
As shown in Figure 2, feeding device 1 preferably adopts the remaining mud conveyer belt of building, comprises support 11, conveyer belt 12, hopper 13; Described support 11 is frame structure, the roller 111 for installing belt is provided with in described support about 11 both sides, and the two ends, left and right of described support 11 are respectively equipped with driven pulley 14, driving wheel 15, wherein driving wheel 15 is driven by motor 16, described motor 16 is fixedly arranged on described support 11, and described support 11 is located on column 17; Described conveyer belt 12 is articulated on described roller 111, driven pulley 14 and driving wheel 15 and forms a closed loop, and described conveyer belt 12 is also provided with dismountable hopper 13.
More than the building that above-described embodiment scheme provides, mud conveyer belt 12 is by dismountable hopper 13, according to the impurity situation in the remaining mud of difference building, optionally adopts conveyer belt 12 or hopper 13 by mass transport to assigned address.
As the part preferred version of above-described embodiment scheme, the edge of opening of described hopper 13 by hinge and described conveyer belt 12 hinged, when hopper 13 is delivered to the upset position of conveyer belt 12, hopper 13 itself is also turning, facilitates the discharge of material.
As the improvement of above-described embodiment scheme, described column 17 is telescopic mast, is elevated conveyer belt 12 by telescopic mast, and remaining for building mud is promoted to specified altitude assignment.
As shown in Figure 3, drum screen 3 adopts the second-order separation drum screen, comprises cylinder 211, anchor ear 212, end cap 213 and rotating driving device (sign); Described cylinder 211 becomes two ends to have the tubular structure of opening by screen cloth coiling, and described cylinder 211 is obliquely installed, two openings are divided into upper opening and lower opening, rotating shaft (sign) is provided with in cylinder 1, rotating shaft and drive unit are in transmission connection, and cylinder 211 is driven by described drive unit and rotates; Described anchor ear 212 quantity is three or more, when anchor ear 212 quantity is three, lock ring is at the two ends of described cylinder 211 and middle part respectively, when quantity is more than three, two anchor ear 212 difference lock rings are at the two ends of described cylinder 211, all the other anchor ears 212 point to be arranged at the middle part of described cylinder 211 etc., and the anchor ear 212 of lock ring outside cylinder 211, makes cylinder 1 can stand for a long time from cylinder 1 inner indeformable toward the impact outside cylinder 211; The upper opening form fit of described end cap 213 and described cylinder 211 is also fixed in upper opening place, and the middle part indent of described end cap 213 be provided with charging hole 2131 at interior recess.
Mud the second-order separation drum screen more than the building that above-described embodiment scheme provides, the remaining mud of building falls above the charging hole 2131 of end cap 213, radius is greater than the building stones of charging hole 2131, the bulk materials such as cement block are intercepted at outside charging hole 2131, along with cylinder 211 drives the rotation of end cap 213, bulk materials is disallowable and go out, more than building after one-level is separated, mud then enters cylinder 211 inside from charging hole 2131, along with secondary separation is carried out in the rotation of cylinder 211, more than the building that radius is less than screen cloth grid, mud is sized out outside cylinder 211, more than the building that radius is greater than screen cloth grid, mud is then along with the rotation of cylinder 211 exports from cylinder 211 lower opening.
In one-level separation process, more than all buildings except bulk materials, mud all enters cylinder 211 from charging hole 2131, input efficiency is lower, especially before bulk materials blocks charging hole 2131 and rotated by end cap 213 and reject, the remaining mud of building cannot input from charging hole 2131, therefore as the improvement of above-described embodiment scheme, the mesh 2132 of lattice-shaped is provided with outside the charging aperture of described end cap 213, by this improvement project, when the remaining mud of building falls to recess in end cap 213, the remaining mud of major part building all rate can be introduced into cylinder 211 from mesh 2132, the one-level not affecting again bulk materials is separated, make separation process continuous, further increase separative efficiency.
As the improvement of above-described embodiment scheme, described screen cloth is wire netting, and cylinder 211 cost that wire netting is made is low, can grow the impact proposing and stand to build remaining mud and do not damage, thus long service life in separation process.
As shown in Figure 4, drum screen 3 can also adopt magnetic separation drum screen, comprises cylinder 221, rotating driving device (sign) and concentration equipment; Described cylinder 221 becomes two ends to have the tubular structure of opening by screen cloth coiling, and described cylinder 221 is obliquely installed, two openings are divided into upper opening and lower opening, rotating shaft (sign) is provided with in cylinder 221, rotating shaft and drive unit are in transmission connection, and cylinder 1 is driven by described drive unit and rotates; Described concentration equipment comprises bunker for collecting 222, driving wheel 223, belt 224, high-strength magnet 5 and guide plate 226; Described bunker for collecting 222 is positioned at below described cylinder 221, its output is positioned at above described belt 224 or described high-strength magnet 225, and described belt 224 is articulated on described driving wheel 223 and described high-strength magnet 225, described high-strength magnet 225 is driven by described driving wheel 223 and described belt 224 and rotates, and described guide plate 226 is positioned at below described high-strength magnet 225.
By above-described embodiment scheme, the remaining mud of building falls into bunker for collecting 222 after cylinder 221 sieves, bunker for collecting 222 exports to above belt 224 or described high-strength magnet 225 after being collected by remaining for building mud, high-strength magnet 225 is driven by belt 224 and rotates simultaneously, more than final building, mud all can be transported on high-strength magnet 225, now high-strength magnet 225 is to the iron powder in the remaining mud of building, scums etc. carry out magnetic separation, iron powder, scum is adsorbed on belt 224 surface under magneticaction, when belt 224 to move to below high-strength magnet 225 and departs from high-strength magnet 225, iron powder, scum loses magneticaction and drops on guide plate 226 and is recovered utilization, more than remaining construction mud then freely falling body do not act on by high-strength magnet 225.
In above-described embodiment scheme, when building remaining mud water content and being excessive, mobility is also larger, can overflow from belt 224 side after on the direct vegetables of mud to belt 224 more than the building that mobility is larger, therefore as the improvement of above-described embodiment scheme, cell body 227 is provided with between described bunker for collecting 222 and described belt 224, concentrated by mud more than the building that cell body 227 pairs of mobility are larger, one end of described cell body 227 is closed, the other end is provided with opening, described opening is positioned at above described high-strength magnet 225, the remaining mud of building is concentrated to export to above high-strength magnet 225, and directly drop on high-strength magnet 225 and carry out magnetic separation.
As shown in Figure 5,6, scraping Sha Chi 3 comprises for storing the pond body 31 building remaining mud, pond body 31 can be built into by cement and fragment of brick, be provided with slope 311 bottom described pond body 31, the eminence on described slope 311 is provided with sand outlet 312, and described slope 311 is provided with the rotating shaft 32 be connected with drive unit, rotating shaft 32 is driven by drive unit and rotates, described rotating shaft 32 is arranged along direction, described slope 311, and described rotating shaft 32 is provided with helical blade 321, and described helical blade 321 is provided with liquid-leaking nozzle 322.
By above-described embodiment scheme, inject the remaining mud of building in pond body 31 after, open drive unit drive shaft 32 to rotate, rotating shaft 32 drives helical blade 321 to rotate, in the process that helical blade 321 rotates, the granule impurity 3100 such as the fine sand be deposited in bottom pond body 31 are upwards scraped along slope 311, moisture content is then back to pond body 31 from the liquid-leaking nozzle 322 of helical blade 321, although inevitably take back part granule impurity 3100 during moisture content backflow, but along with helical blade 321 constantly rotates, granule impurity 3100 can be scraped gradually to sand outlet 312, and scraping in husky process, the granule impurity 3100 such as fine sand can be deposited in bottom slope 311, the i.e. peripheral edge portion of helical blade 321, moisture content then refluxes from the liquid-leaking nozzle 322 in the middle part of helical blade 321, the overall trend of the granule impurity 3100 such as the fine sand in pond body 31 is promoted to sand outlet 312 and discharges along slope 311.
As the improvement of above-described embodiment scheme, body 31 cross section, described pond is the arcuate structure mated with described helical blade 321, by this improvement project, pond body 31 is fitted more with the outer rim of helical blade 321, avoid the granule impurity 3100 such as fine sand to reflux between pond body 1 and helical blade 321.
As the improvement of above-described embodiment scheme, the outer rim of described helical blade 321 is provided with plastic layer 323, avoids helical blade 321 and pond body 31 direct friction to affect the service life of helical blade 321.
As the improvement of above-described embodiment scheme, also comprise for the water pipe 34 to body 31 water filling of described pond, described water pipe 34 delivery port is positioned at above described pond body 31, scraping in husky process, in visual pond body 31, the concentration levels of the remaining mud of building regulates, when the remaining mud overall flow of the remaining mud excessive concentration impact of building in pond body 1 building, when causing working, to water filling in pond body 31, the remaining mud of building is diluted by water pipe 34, ensure that scraping sand carries out smoothly.For can be used as an independently pipeline to the water pipe 34 of described pond body 31 water filling, also can as a branch of injecting the input channel building remaining mud to pond body 31.
As shown in Figure 7, organic matter cyclone separation device 4 comprises cylinder 41, conically shaped 42, and cylinder 41 and conically shaped 42 connect as one for assembling mode; Charging aperture 411 is provided with above wherein said cylinder 41 sidewall, the remaining mud of building inputs to cylinder 41 by pipeline from charging aperture 411, feedstock direction and described cylinder 41 sidewall of described charging aperture 411 are tangent, and the feedstock direction of described charging aperture 411 is tilted to down, form downward eddy flow along cylinder 41 inwall after making mud more than building enter cylinder 41, described cylinder 41 top is provided with first discharging opening 412 of discharging for organic matter; Described conically shaped 42 is inverted pyramidal structure, and its top is communicated with the bottom of described cylinder 41, and the bottom of described conically shaped 42 is provided with second discharging opening 421 of discharging for impurity.
In above-described embodiment scheme, the remaining mud of building inputs to cylinder 41 from charging aperture 411, because of feedstock direction and cylinder 41 sidewall tangent, and feedstock direction is tilted to down, downward eddy flow is formed along cylinder 41 inwall after making mud more than building enter cylinder 41, after the remaining downward eddy flow of mud to conically shaped 42 of building, because conically shaped 42 capacity diminishes, the flowing of the remaining mud of building is faster thus reach the effect of stirring, organic matter more than building in mud and impurity are disperseed, wherein organic matter floats over the remaining mud surface of building, impurity then sinks to the bottom, continue to inject the remaining mud of building to cylinder 41, after all filling in cylinder 41 and conically shaped 42, organic matter is discharged from first discharging opening 412 at cylinder 41 top under pressure, impurity is then discharged from the second discharging opening 421 under pressure, said process is sustainable to carry out.
As the improvement of above-described embodiment scheme, described cylinder 41 sidewall is provided with top-down first spiral drainage trough 413, accelerates the formation that the remaining mud of building enters the rear eddy flow of cylinder 41.
As the improvement of above-described embodiment scheme, described conically shaped 42 sidewall is provided with top-down second spiral drainage trough 422, and described second spiral drainage trough 422 is connected with described first spiral drainage trough 413, accelerates the formation that the remaining mud of building enters the rear eddy flow of cylinder 41.
As shown in Figure 8, organic matter shaker separator 5 comprises installing plate 51, vibrating motor 52, screen cloth 53, shock structure 54 and for carrying the carrier pipe 55 of organic matter mixed liquor; Described vibrating motor 52 is connected to below described installing plate 51 by connecting plate, described screen cloth 53 to be connected to above described installing plate 51 and to be obliquely installed, screen cloth 53 preferably adopts stainless steel mesh, is driven and installing plate 51 transmission makes screen cloth 53 vibrate by vibrating motor 52; Described installing plate 51 is installed on described shock structure 54, and shock structure is connected with installing plate 51 by the spring for damping; Described carrier pipe 55 is located at above described installing plate 51, and be provided with flexible cover 56 at the delivery outlet of described carrier pipe 55, wherein flexible cover 56 can adopt cloth to make, and cloth is tied up around the delivery outlet of carrier pipe 55, and hangs in the position of close screen cloth 53 or directly hang on screen cloth 53.
By above-described embodiment scheme, organic matter mixed liquor is delivered to screen cloth 53 and filters by carrier pipe 55, in output procedure, under the effect of flexible cover 56, organic matter mixed liquor can not splash, well carrier pipe 55 and screen cloth 53 are connected, make screen cloth 53 constantly of reciprocating vibration by the driving of vibrating motor 52 and the transmission of installing plate 51 simultaneously, organic matter is paved on screen cloth 53, completes organic matter and be separated.
As the improvement of above-described embodiment scheme, between described installing plate 51 and described screen cloth 53, be also provided with water leg 57, water can be avoided to drop on installing plate 51 or vibrating motor 52, extend the service life of equipment, and water is reclaimed.
As the improvement of above-described embodiment scheme, described water leg 57 is located on column 58, and make the independent setting of water leg 57, do not vibrate in organic matter separation process together with vibrating motor 52, installing plate 51, screen cloth 53 etc., keep stable, anti-sealing splashes.
As shown in Figure 9, press filtration separator 6 comprises frame, described frame comprises level and the twice crossbeam 61 be arranged in parallel and the some columns 62 be arranged at respectively on crossbeam 61, described column 62 is fixed with Hydraulic Station 63 and guide rod 64 respectively, and wherein said guide rod 64 quantity is two and be arranged in parallel; Described Hydraulic Station 63 is positioned at one end of described guide rod 64, its output is connected with push rod 631, described push rod 631 is connected with a top board 65, described top board 65 and two described guide rods 64 are slidably connected, article two, described guide rod 64 is also provided with the wallboard 66 that a position is fixing, wallboard 66 is positioned at the other end of described guide rod 64; A plurality of filter press plate 67 is provided with between described top board 65 and described wallboard 66, filter press plate 67 is provided with the barrier film for impurity screening, a plurality of described filter press plate 67 is slidably connected with described guide rod 64 respectively, described filter press plate 67 is provided with drainpipe 671, and a plurality of described filter press plate 67 is provided with a common stock inlet 672.
As the improvement of above-described embodiment scheme, article two, described guide rod 64 is respectively equipped with chute, described filter press plate 67 both sides are provided with hangers 673, the hangers 673 of described filter press plate 67 both sides is formed with two described chutes respectively and is slidably connected, by above-mentioned improvement project, easily single filter press plate 67 can be taken off from guide rod 64, be convenient to work.
As the improvement of above-described embodiment scheme, described top board 65 both sides are provided with sliding sleeve 651, the sliding sleeve 651 of described top board 65 both sides is enclosed within respectively two described guide rods 64 are formed and is slidably connected, need not take off because top board 65 needs slide on guide rod 64, the top board 65 be therefore enclosed within guide rod 64 runs more stable.
As the improvement of above-described embodiment scheme, outside described push rod 631, be provided with telescopic dust cover 632, avoid foreign material to enter Hydraulic Station 63.
As the improvement of above-described embodiment scheme, the position on the lower side, both sides of described filter press plate 67 is located at by described drainpipe 671, from the present embodiment scheme, filter press plate 67 is slidably connected on two guide rods 64, the mud cake that press filtration is formed freely can fall between two guide rods 64, and drainpipe 671 is positioned at filter press plate 67 both sides and can again mixes with mud cake by anti-sealing.
As the improvement of above-described embodiment scheme, below described drainpipe 671, be provided with the tank for collecting.Because of filter press plate 67 be multiple parallel setting to improve press filtration effect, the drainpipe 671 of multiple filter press plate 67 carries out centralized collection by tank.
As shown in Figure 10,11, above-mentioned press filtration separator adopts the filter press plate of following structure, comprises mainboard 71, key and barrier film (sign); Described mainboard 71 both sides form concave surface respectively, the outer of concave surface described in one of them is arranged with closed loop groove 711, the outer of concave surface described in another is arranged with the closed loop keel (sign) mated with described closed loop groove 711, through hole 712 is also provided with in the middle part of described mainboard 71, and for the osculum 713 of draining; Described key comprises bolt head 721, first bolt plate 722 and the second bolt plate 723, external screw thread is provided with outside described bolt head 721, inside is provided with groove 7211, described first bolt plate 722 is provided with the internal thread hole mated with external screw thread, described second bolt plate 723 is provided with the internal thread hole mated with described external screw thread, is also provided with the recess 7231 be communicated with described groove 7211; Described bolt head 721 is successively through described first bolt plate 722, mainboard 71 and the second bolt plate 723, wherein bolt head 721 is threaded with described first bolt plate 722, second bolt plate 723, and the groove 7211 of described bolt head 721 is communicated with the recess 7231 of described second bolt plate 723; Described barrier film quantity is two pieces, and wherein one piece is riveted between described first bolt plate 722 and described mainboard 71, and another block is riveted between described mainboard 71 and described second bolt plate 723.
By above-described embodiment scheme, press filtration separator filter press plate after multiple assembling completes walk abreast be arranged at press filtration separator guide rod on, under the pressure of pressure apparatus, two adjacent concave surfaces are by closed loop groove 711 and the sealing of closed loop keel, form airtight cavity, and the key of press filtration separator filter press plate is connected by groove 7211, by groove 7211 and recess 7231 to slip casting between the first barrier film and the second barrier film, when the pressure in closed cavity raises, turbid solution oozes out through the filtration of the first barrier film, the second barrier film, and discharges from osculum 713.
As the improvement of above-described embodiment scheme, be provided with two triangular supports, 714, two described triangular supports 714 below described mainboard 71 and lay respectively at described mainboard 71 two bottom sides, make press filtration separator filter press plate be easy to place.
As the improvement of above-described embodiment scheme, described osculum 713 is provided with two and is connected to drainpipe 715, described drainpipe 715 lays respectively at position on the lower side, described mainboard 1 both sides, the mud cake that press filtration is formed freely can fall from press filtration separator filter press plate, and drainpipe 15 is positioned at filter press plate both sides and can again mixes with mud cake by anti-sealing.
Above the technical scheme that the utility model embodiment provides is described in detail, apply specific case herein to set forth the principle of the utility model embodiment and embodiment, the explanation of above embodiment is only applicable to the principle helping to understand the utility model embodiment; Meanwhile, for one of ordinary skill in the art, according to the utility model embodiment, detailed description of the invention and range of application all will change, and in sum, this description should not be construed as restriction of the present utility model.
Claims (9)
1. the remaining mud treatment system of building, is characterized in that:
Comprise feeding device, drum screen, scrape Sha Chi, organic matter cyclone separation device, organic matter shaker separator and press filtration separator;
Described feeding device is connected with described drum screen, for remaining for building mud is delivered to the separation carrying out bulk materials in described drum screen; Scrape Sha Chi described in described drum screen is connected to connect, scrape Sha Chizhong described in being delivered to for mud more than building and carry out sedimentary separation; The described Sha Chi of scraping is connected to described organic matter cyclone separation device, for remaining for building mud is carried out organic separation; Described organic matter cyclone separation device is connected to organic matter shaker separator, for being sifted out by organic matter; Described organic matter shaker separator is connected to press filtration separator, for obtaining not containing the water body of building impurity.
2. the remaining mud treatment system of building as claimed in claim 1, is characterized in that:
Described feeding device is the remaining mud conveyer belt of building, comprises support, conveyer belt, hopper;
Described support is frame structure, descend both sides to be provided with roller for installing belt on the bracket, and the two ends, left and right of described support are respectively equipped with driven pulley, driving wheel, wherein driving wheel is driven by motor, described motor is fixedly arranged on described support, and described is set up on telescopic mast;
Described conveyer belt is articulated on described roller, driven pulley and driving wheel and forms a closed loop, and described conveyer belt is also provided with dismountable hopper, the edge of opening of described hopper by hinge and described conveyer belt hinged.
3. the remaining mud treatment system of building as claimed in claim 2, is characterized in that:
Described drum screen is the remaining mud the second-order separation drum screen of building, comprises cylinder, anchor ear, end cap and rotating driving device;
Described cylinder becomes two ends to have the tubular structure of opening by screen cloth coiling, and described drum-inclined arranges and passes through described drive unit driving rotation; Described anchor ear quantity is three or more, and lock ring is at the two ends of described cylinder and middle part respectively; The upper opening form fit of described end cap and described cylinder is also fixed in upper opening place, and the middle part indent of described end cap be provided with charging hole at interior recess, be provided with the mesh of lattice-shaped outside the charging aperture of described end cap.
4. the remaining mud treatment system of building as claimed in claim 2, is characterized in that:
Described drum screen is the remaining mud magnetic separation drum screen of building, comprises cylinder, rotating driving device and concentration equipment;
Described cylinder is formed by screen cloth coiling, and it is connected with described rotating driving device, is driven rotate by described drive unit; Described concentration equipment comprises bunker for collecting, driving wheel, belt, high-strength magnet and guide plate; Described bunker for collecting is positioned at below described cylinder, its output is positioned at above described belt or described high-strength magnet, and described belt is articulated on described driving wheel and described high-strength magnet, described driving wheel is crossed by described high-strength magnetic Tie Tong and described belt drives rotates, described guide plate is positioned at below described high-strength magnet, is provided with cell body between described bunker for collecting and described belt, and one end of described cell body is closed, the other end is provided with opening, and described opening is positioned at above described high-strength magnet.
5. mud treatment system more than the building as described in claim 3 or 4, is characterized in that:
The described Sha Chi of scraping comprises the pond body for storing the remaining mud of building, slope is provided with bottom the body of described pond, the eminence on described slope is provided with sand outlet, described slope is provided with the rotating shaft be connected with drive unit, described rotating shaft is arranged along direction, described slope, described rotating shaft is provided with helical blade, and described helical blade is then provided with liquid-leaking nozzle; The outer rim of described helical blade is provided with plastic layer; Described pond body section is the arcuate structure mated with described helical blade; Also comprise for the water pipe to the body water filling of described pond, described water pipe delivery port is positioned at above the body of described pond.
6. the remaining mud treatment system of building as claimed in claim 5, is characterized in that:
Described organic matter cyclone separation device, comprises cylinder, conically shaped;
Be provided with charging aperture above wherein said cylinder side wall, feedstock direction and the described cylinder side wall of described charging aperture are tangent, and the feedstock direction of described charging aperture is tilted to down, and described barrel top is provided with first discharging opening of discharging for organic matter; Described conically shaped is inverted pyramidal structure, and its top is communicated with the bottom of described cylinder, and the bottom of described conically shaped is provided with second discharging opening of discharging for impurity; Described cylinder side wall is provided with top-down first spiral drainage trough; Described conically shaped sidewall is provided with top-down second spiral drainage trough, and described second spiral drainage trough is connected with described first spiral drainage trough.
7. the remaining mud treatment system of building as claimed in claim 6, is characterized in that:
Described organic matter shaker separator comprises installing plate, vibrating motor, screen cloth, shock structure and for carrying the carrier pipe of organic matter mixed liquor;
Described vibrating motor is connected to below described installing plate, and described screen cloth to be connected to above described installing plate and to be obliquely installed, to make screen cloth vibrate by driven by vibrating motors and installing plate transmission; Described installing plate is then installed on described shock structure; Described carrier pipe is located at above described installing plate, and is provided with flexible cover at the delivery outlet of described carrier pipe; Also water leg is provided with between described installing plate and described screen cloth; Described water leg is located on column.
8. the remaining mud treatment system of building as claimed in claim 7, is characterized in that:
Described press filtration separator comprises frame, and described frame is provided with column, and described column is respectively equipped with Hydraulic Station and guide rod, and wherein said guide rod quantity is two and be arranged in parallel; The output of described Hydraulic Station is connected with push rod, and described push rod is connected with a top board, and described top board and two described guide rods are slidably connected, and two described guide rods is also provided with the wallboard that a position is fixing; Between described top board and described wallboard, be provided with a plurality of filter press plate, a plurality of described filter press plate is slidably connected with described guide rod respectively, and described filter press plate is provided with drainpipe, and a plurality of described filter press plate is provided with a common stock inlet.
9. the remaining mud treatment system of building as claimed in claim 8, is characterized in that:
Described press filtration separator comprises filter press plate, and described filter press plate comprises mainboard, key and barrier film;
Described mainboard both sides form concave surface respectively, and the outer of concave surface described in one of them is arranged with closed loop groove, and the outer of concave surface described in another is arranged with the closed loop keel with described closed loop matching grooves, is also provided with through hole in the middle part of described mainboard, and for the osculum of draining; Described key comprises bolt head, the first bolt plate and the second bolt plate, external screw thread is provided with outside described bolt head, inside is provided with groove, described first bolt plate is provided with the internal thread hole mated with external screw thread, described second bolt plate is provided with the internal thread hole mated with described external screw thread, is also provided with the recess be communicated with described groove; Described bolt head is successively through described first bolt plate, mainboard and the second bolt plate, and wherein bolt head is threaded with described first bolt plate, the second bolt plate, and the groove of described bolt head is communicated with the recess of described second bolt plate; Described barrier film quantity is two pieces, and wherein one piece is riveted between described first bolt plate and described mainboard, and another block is riveted between described mainboard and described second bolt plate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520402419.XU CN204747062U (en) | 2015-06-11 | 2015-06-11 | Surplus mud processing system of building |
Applications Claiming Priority (1)
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CN201520402419.XU CN204747062U (en) | 2015-06-11 | 2015-06-11 | Surplus mud processing system of building |
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CN201520402419.XU Withdrawn - After Issue CN204747062U (en) | 2015-06-11 | 2015-06-11 | Surplus mud processing system of building |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104874591A (en) * | 2015-06-11 | 2015-09-02 | 揭阳市绿源环保处理有限公司 | Building remaining mud processing technology and system |
CN106238444A (en) * | 2016-09-26 | 2016-12-21 | 深圳申佳原环保科技有限公司 | The system of industrial treatment mud dregs |
CN108160315A (en) * | 2017-11-28 | 2018-06-15 | 深圳市万佳晟环保产业有限公司 | For the water circulation system of building waste processing |
-
2015
- 2015-06-11 CN CN201520402419.XU patent/CN204747062U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104874591A (en) * | 2015-06-11 | 2015-09-02 | 揭阳市绿源环保处理有限公司 | Building remaining mud processing technology and system |
CN106238444A (en) * | 2016-09-26 | 2016-12-21 | 深圳申佳原环保科技有限公司 | The system of industrial treatment mud dregs |
CN108160315A (en) * | 2017-11-28 | 2018-06-15 | 深圳市万佳晟环保产业有限公司 | For the water circulation system of building waste processing |
CN108160315B (en) * | 2017-11-28 | 2024-04-19 | 深圳江氏恩泽实业有限公司 | Water circulation system for construction waste treatment |
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Address after: 522031 Guangdong city of Jieyang province Jianyang Dongshan Road North Road West and Luen Thai Garden No. 40-41 Patentee after: Luyuan environmental protection Co. Ltd. Address before: 522031 Guangdong city of Jieyang province Jianyang Dongshan Road North Road West and Luen Thai Garden No. 40-41 Patentee before: Lv Yuan environmental protection treatment Co., Ltd of Jieyang City |
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AV01 | Patent right actively abandoned |
Granted publication date: 20151111 Effective date of abandoning: 20170613 |