CN205473326U - Sand dehydration platform is divided to an organic whole - Google Patents

Abstract

The utility model relates to a sludge slurry handles the field, especially relates to a sand dehydration platform is divided to an organic whole, and it is including dividing sand platform and dehydration platform, divide the sand platform to include: mud divides sand machine, full automatic stirring device, dynamic blender to puddle the jar, the dehydration platform includes: hydraulic drive pump and pressure filter, liquid medicine output pipeline that mud divides mud delivery outlet and the full automatic stirring device of sand machine together with the feed inlet switch -on of developments blender, developments the blender the discharge gate with the storage mud chamber of mud tank intercommunication, the discharge gate of mud tank with the feeding end connection of hydraulic drive pump, the discharge end of hydraulic drive pump pass through the pipeline with the filter -pressing chamber intercommunication of pressure filter. The sand dehydration platform is divided to an organic whole collection divide the sand platform with dehydration platform in an organic whole realizes the branch sand of mud and the automation mechanized operation of dehydration, make sludge slurry 's separation purify the high efficiency more that becomes, thereby thoroughly solve the problem that sludge slurry pollutes.

Description

A kind of integration sub-sand dehydration platform

Technical field

This utility model relates to sludge slurry process field, particularly relates to a kind of integration sub-sand dehydration platform.

Background technology

Although the effect that engineering slurry is in engineering construction is very big, but unnecessary mud and the place of discarded slurry Reason always perplexs the great difficult problem of engineering construction.Existing processing mode is, with groove tank car, mud is transported to suburb Making outward its natural mummification, the original backwardness of this processing mode, efficiency is low, costly, in transportation often Pollute environment because the leakage of mud is spilt, affect the appearance of the city, more seriously under huge economic profit incentive, Supervision leak is taken advantage of in some construction sites, construction slurry is stolen row disorderly row, creates the most serious consequence: dirty Dye environment.The random exhaust emission water source of construction slurry, destroys natural vegetation, and harden soil, affects beauty of environment See；The mud entering rivers steathily not only makes rivers muddy, destroys water quality, destroys river channel ecology safety, makes big Amount fish and shrimp are dead, jeopardize city domestic water safety, make channel filling simultaneously, affect ship's navigation；Destroy Urban operating mechanism, the mud entering the facilities such as sewer steathily easily causes the destruction of municipal works, blocks pipeline same Time construction slurry also exacerbate soil erosion.

Along with the quickening of China's engineering construction paces, the sludge pollution as engineering slurry pollutes is also a lot, special It not that the contamination accident to river also gets more and more.Although various places government has put into effect substantial amounts of policies and regulations, with Time also put into the substantial amounts of fund regulation water pollution brought of mud, but owing to there is no good mud conditioning Mode, a lot of measure of driving adding interests produces little effect.Therefore, find a kind of efficiency height, low cost, Cycle short engineering slurry, the processing method of River shove regulation engineering become an important topic of field of Environment Protection.

Utility model content

It is short that the purpose of this utility model is to propose a kind of efficiency height, low cost, cycle, can be applicable to build Building industry (pile foundation, diaphram wall, tunneling shield) engineering slurry to process, mill tailings processes and river The integrated sub-sand dehydration platform of lake desilting.

For reaching this purpose, this utility model by the following technical solutions:

A kind of integration sub-sand dehydration platform, including sub-sand platform and dehydration platform；

Concrete, described sub-sand platform includes: mud sand separator, full-automatic agitating device, dynamic mixer And slurry tank；Described dehydration platform includes: fluid clutch and pressure filter；The mud of described mud sand separator The medicinal liquid output channel of delivery outlet and described full-automatic agitating device together with the charging aperture of described dynamic mixer Connect；The discharging opening of described dynamic mixer is connected with the storage mud chamber within described slurry tank by pipeline, institute The feed end of the discharging opening and described fluid clutch of stating slurry tank is connected, the discharge end of described fluid clutch Connected with the filter pressing chamber of described pressure filter by pipeline.

Concrete, described mud sand separator includes: frame, vibrating screen box, transferring box, floating ball device, storage Hopper, cyclone, pipeline pump and Pulp pump；Described cyclone is provided with stock inlet, overfall and underflow opening； Described transferring box is provided with grout outlet, overfall and slag-drip opening；Described transferring box is located at bottom described frame, institute State vibrating screen box to be located at above described transferring box；The grout outlet of described transferring box is provided with Pulp pump, described slurry The slurry output end of pump is connected with the stock inlet of described cyclone；The overfall of described cyclone passes through pipeline with described The internal connection of material storing box；Described material storing box is provided with the first lateral and the second lateral；Described first point Branch pipe(tube) connects with described floating ball device, and described second lateral connects with the feed end of described pipeline pump； The discharge end of described pipeline pump is provided with the mud delivery outlet of described mud sand separator, described mud delivery outlet and institute The charging aperture stating dynamic mixer is connected by pipeline；Described vibrating screen box is arranged at the top of described transferring box； The discharge end of described vibrating screen box is provided with debris feed opening.

Described full-automatic agitating device includes: cycloidal pin, explosive barrel, paddle cane and membrane pump or screw pump； Cycloidal pin is fixing with paddle cane to be connected；The underflow opening that the entrance of described membrane pump or screw pump and explosive barrel are provided with Connected by pipeline；Described membrane pump or screw rod delivery side of pump are provided with two isocons, and an isocon connects To described explosive barrel, another isocon is medicinal liquid output channel and the charging aperture with described dynamic mixer is connected.

More excellent, it being additionally provided with flow-densimeter and PLC control system, described flow-densimeter is located at described The middle part connecting pipeline of the charging aperture of the discharge end of pipeline pump and described dynamic mixer, described flow-density Meter couples with PLC control system, and described PLC control system electrically connects with described membrane pump or screw pump.

More excellent, described pipeline pump electrically connects with described PLC control system.

More excellent, described dehydration platform is additionally provided with conveyer；Described conveyer be located at described pressure filter just under Side.

More excellent, described conveyer one end is positioned at immediately below one end of described pressure filter, described conveyer another One end extends to the outside of the other end of described pressure filter.

More excellent, described dehydration platform is at least provided with a described pressure filter, and the filter pressing chamber of each pressure filter All discharge ends with described fluid clutch connect.

More excellent, described dehydration platform is provided with bearing, and described fluid clutch is located at described bearing one end, institute Stating pressure filter and be located at the upper surface of described bearing, described bearing at least side is provided with stair, described stair two End is connected to described upper surface of support and ground.

More excellent, described bearing be provided around guard rail.

This utility model proposes a kind of integration sub-sand dehydration platform according to foregoing, and it collects described sub-sand and puts down Platform and described dehydration platform are in one, it is achieved sub-sand and the automation mechanized operation of dehydration to mud；Make mud The isolation of purified of slurry becomes more rapidly and efficiently；Thus thoroughly solve the problem that sludge slurry pollutes.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of a kind of embodiment of the present utility model；

Fig. 2 is the structural representation at another visual angle of the embodiment shown in Fig. 1；

Fig. 3 is the structural representation of sub-sand platform in this utility model；

Fig. 4 is the structural representation at another visual angle of the embodiment shown in Fig. 3；

Fig. 5 is the structural representation of dehydration platform in this utility model.

Wherein: sub-sand platform 10, mud sand separator 110, frame 111, vibrating screen box 112, transferring box 113, Cyclone 114, material storing box 115, full-automatic agitating device 120, dynamic mixer 130, slurry tank 150, Dehydration platform 20, fluid clutch 210, pressure filter 220, conveyer 230, bearing 240, stair 250, Guard rail 260.

Detailed description of the invention

Further illustrate the technical solution of the utility model below in conjunction with the accompanying drawings and by detailed description of the invention.

As Figure 1-5, a kind of integration sub-sand dehydration platform 20, including sub-sand platform 10 and dehydration platform 20；Described sub-sand platform 10 includes: mud sand separator 110, full-automatic agitating device 120, dynamically mix Device 130 and slurry tank 150；As it is shown in figure 5, described dehydration platform 20 includes: fluid clutch 210 He Pressure filter 220；The mud delivery outlet of described mud sand separator 110 and the medicine of described full-automatic agitating device 120 Liquid output channel is together connected with the charging aperture of described dynamic mixer 130；Described dynamic mixer 130 Discharging opening is connected with the storage mud chamber within described slurry tank 150 by pipeline, the discharging of described slurry tank 150 Mouth is connected with the feed end of described fluid clutch 210, and the discharge end of described fluid clutch 210 is by pipe Road connects with the filter pressing chamber of described pressure filter 220.

As shown in Figures 3 and 4, described mud sand separator 110 includes: frame 111, vibrating screen box 112, in Turn case 113, cyclone 114, floating ball device, material storing box 115, pipeline pump and Pulp pump；Described cyclone 114 are provided with stock inlet, overfall and underflow opening；Described transferring box 113 is provided with grout outlet, overfall and deslagging Mouthful；Described transferring box 113 is located at bottom described frame 111, and described vibrating screen box 112 is located at described transfer Above case 113；The grout outlet of described transferring box 113 is provided with Pulp pump, the slurry output end of described Pulp pump and institute The stock inlet stating cyclone 114 connects；The overfall of described cyclone 114 is by pipeline and described material storing box The inside connection of 115；Described material storing box 115 is provided with the first lateral, the second lateral and a height of storing The dividing plate of the 3/5 of case, described first lateral, the second lateral be distributed in dividing plate both sides, and described One lateral connects with described floating ball device, described second lateral and the charging of described pipeline pump 160 End connection；The mud delivery outlet that the discharge end of described pipeline pump 160 is provided with and described dynamic mixer 130 Charging aperture is connected by pipeline；Described vibrating screen box 112 is arranged at the top of described transferring box 113；Described The discharge end of vibrating screen box 112 is provided with debris feed opening.Extraneous mud vibrates from described vibrating screen box 112 Fall into transferring box 113 after screening work, then extracted out by Pulp pump from the grout outlet of transferring box 113 and pass through pipeline Entering in cyclone 114, mud is after cyclone 114 processes so that solid particle and liquid mud divide From, then the sieving through described vibrating screen box 112 so that solid particle is sifted out, and liquid mud is from described Cyclone 114 overfall enters material storing box 115 by pipeline, and a part is back to transferring box by floating ball device In 113, a part is controlled flow by pipeline pump 160 and is delivered to dynamic mixer 130 charging aperture；Mud According to orderly the extracting out from pipeline of process sequence；Described mud sand separator 110 can make mud sub-sand process complete Entirely realize automatization.

Described full-automatic agitating device 120 includes: cycloidal pin, explosive barrel, paddle cane and membrane pump or screw rod Pump (for drawing in figure)；Cycloidal pin is fixing with paddle cane to be connected；The entrance of described membrane pump or screw pump with The underflow opening that explosive barrel is provided with is connected by pipeline；Described membrane pump or screw rod delivery side of pump are provided with two isocons, One isocon is connected to described explosive barrel, and another isocon is medicinal liquid output channel and dynamic mixes with described The charging aperture of device 130 connects.Membrane pump or screw pump outlet have two isocons, an isocon to extend to Above explosive barrel, form flow-reversing impingement, allow inner bucket water stream present turbulent condition, aggravate liquid in bucket blending effect, Another isocon is medicinal liquid output channel.

Being additionally provided with flow-densimeter and PLC control system, described pipeline pump is located at by described flow-densimeter The middle part connecting pipeline of the charging aperture of discharging opening and described dynamic mixer 114, described flow-densimeter with PLC control system couples, and described PLC control system electrically connects with described membrane pump or screw pump.Described flow -densimeter includes effusion meter and densimeter, and pipeline fluid flow and density are monitored by it, on-line densimeter The density of pipeline fluid is monitored, and with current signal transfer to PLC control system, PLC control system Effusion meter and on-line densimeter are transmitted signal and processes and send corresponding control command, signal will be performed Send the signal that membrane pump or screw pump converter, membrane pump or screw pump send according to control system to carry out The regulation of dose, it is achieved the Based Intelligent Control of variable frequency adjustment delivery of medicaments flow, thus allow described full-automatic stirring Device 120 can be according to the company changing the discharging opening of described pipeline pump and the charging aperture of described dynamic mixer 114 into The flow of mud in adapter road, the most quickly to provide the medicine of corresponding amount to mix with mud, for mud below Slurry mixing produces cotton-shaped process and has done the preparation of abundance.

Described pipeline pump couples with described PLC control system.The described herein mode that electrically connects is a lot, including Wire connects or wireless control signal connects；So that described pipeline pump can be according to described PLC control system Middle pre-set programs works, so that described integration sub-sand dehydration platform can realize increasingly automated work.

Described dehydration platform 20 is additionally provided with conveyer 230；Described pressure filter 220 be arranged right below conveyer 230.Mud cake is deposited to uniform location by automatic conveying, it is not necessary to workman from the bottom collection of described pressure filter 220, It is greatly saved manpower.

Described conveyer 230 one end is positioned at immediately below one end of described pressure filter 220, described conveyer 230 The other end extend to the outside of the other end of described pressure filter 220.Ensure that going out of described pressure filter 220 The mud cake that material mouth drops can be caught by described conveyer 230 and be transported to the outside of pressure filter 220.

Described dehydration platform 20 at least provided with 1 described pressure filter 220 (such as Fig. 1,2 and 5 illustrated embodiments In, described dehydration platform 20 is provided with two described pressure filter 220)；And the filter pressing chamber of each pressure filter 220 is equal Connect with the discharge end of described fluid clutch 210.It is described that multiple described pressure filter 220 make mud enter After dehydration platform 20, the process that dehydration forms mud cake is more quick, substantially increases described dehydration platform 20 Work efficiency.

Described dehydration platform 20 is provided with bearing 240, and described fluid clutch 210 is located at described bearing 240 1 End, described pressure filter 220 is located at the upper surface of described bearing 240, the setting of described bearing 240 at least side Stair 250, described stair 250 two ends are had to be connected to described bearing 240 upper surface and ground.Make work Make personnel's convenient safety when upper and lower described dehydration platform 20.

Described bearing 240 be provided around guard rail 260, described guard rail 260 is by the three of described bearing 240 Individual side fences up.The upper surface periphery of described bearing 240 is fenced up by described guard rail 260, and work people Member can preferably be protected when the upper surface of described bearing 240 works so that described dehydration platform 20 Safety is higher.

Described integration sub-sand dehydration platform 20 integrates described sub-sand platform 10 and described dehydration platform 20, Realize the sub-sand to mud and the automation mechanized operation of dehydration；The isolation of purified making sludge slurry becomes quicker Efficiently；Thus thoroughly solve the problem that sludge slurry pollutes.

Know-why of the present utility model is described above in association with specific embodiment.These describe and are intended merely to solve Release principle of the present utility model, and the restriction to this utility model protection domain can not be construed to by any way. Based on explanation herein, those skilled in the art need not pay performing creative labour can associate this reality By other novel detailed description of the invention, within these modes fall within protection domain of the present utility model.

Claims (10)

1. an integrated sub-sand dehydration platform, it is characterised in that include sub-sand platform and dehydration platform；

Described sub-sand platform includes: mud sand separator, full-automatic agitating device, dynamic mixer and slurry tank；

Described dehydration platform includes: fluid clutch and pressure filter；

The medicinal liquid output channel of the mud delivery outlet of described mud sand separator and described full-automatic agitating device all charging apertures with described dynamic mixer are connected；The discharging opening of described dynamic mixer is connected with the storage mud chamber within described slurry tank by pipeline, the discharging opening of described slurry tank is connected with the feed end of described fluid clutch, and the discharge end of described fluid clutch is connected with the filter pressing chamber of described pressure filter by pipeline.

Integration sub-sand dehydration platform the most according to claim 1, it is characterised in that described mud sand separator includes: frame, vibrating screen box, transferring box, floating ball device, material storing box, cyclone, pipeline pump and Pulp pump；Described cyclone is provided with stock inlet, overfall and underflow opening；Described transferring box is provided with grout outlet, overfall and slag-drip opening；Described transferring box is located at bottom described frame, and described vibrating screen box is located at above described transferring box；The grout outlet of described transferring box is provided with Pulp pump, and the slurry output end of described Pulp pump is connected with the stock inlet of described cyclone；The overfall of described cyclone is connected with the inside of described material storing box by pipeline；Described material storing box is provided with the first lateral and the second lateral；Described first lateral connects with described floating ball device, and described second lateral connects with the feed end of described pipeline pump；The discharge end of described pipeline pump is provided with the mud delivery outlet of described mud sand separator, and described mud delivery outlet is connected by pipeline with the charging aperture of described dynamic mixer；Described vibrating screen box is arranged at the top of described transferring box；The discharge end of described vibrating screen box is provided with debris feed opening.

Integration sub-sand dehydration platform the most according to claim 2, it is characterised in that described full-automatic agitating device includes: cycloidal pin, explosive barrel, paddle cane and kinetic pump；Described kinetic pump is membrane pump or screw pump；Cycloidal pin is fixing with paddle cane to be connected；The underflow opening that the entrance of described membrane pump or screw pump is provided with explosive barrel is connected by pipeline；Described membrane pump or screw rod delivery side of pump are provided with two isocons, and an isocon is connected to described explosive barrel, and another isocon is medicinal liquid output channel and the charging aperture with described dynamic mixer is connected.

Integration sub-sand dehydration platform the most according to claim 3, it is characterized in that, it is additionally provided with flow-densimeter and PLC control system, the middle part connecting pipeline of the discharge end of described pipeline pump and the charging aperture of described dynamic mixer is located at by described flow-densimeter, described flow-densimeter couples with PLC control system, and described PLC control system electrically connects with described membrane pump or screw pump.

Integration sub-sand dehydration platform the most according to claim 4, it is characterised in that described pipeline pump electrically connects with described PLC control system.

Integration sub-sand dehydration platform the most according to claim 1, it is characterised in that described dehydration platform is additionally provided with conveyer；The underface of described pressure filter is located at by described conveyer.

Integration sub-sand dehydration platform the most according to claim 6, it is characterised in that described conveyer one end is positioned at the underface of one end of described pressure filter, and the other end of described conveyer extends to the outside of the other end of described pressure filter.

Integration sub-sand dehydration platform the most according to claim 1, it is characterised in that described dehydration platform is at least provided with a described pressure filter, and the filter pressing chamber of each pressure filter all discharge ends with described fluid clutch connect.

Integration sub-sand dehydration platform the most according to claim 1, it is characterized in that, described dehydration platform is provided with bearing, described fluid clutch is located at described bearing one end, the upper surface of described bearing is located at by described pressure filter, described bearing at least side is provided with stair, and described stair two ends are connected to described upper surface of support and ground.

The most according to claim 9 integration sub-sand dehydration platform, it is characterised in that described bearing be provided around guard rail.