CN203792530U - Super-high-water material composite solid waste pulping, conveying and mixing device - Google Patents

Abstract

The utility model relates to a super-high-water material composite solid waste pulping, conveying and mixing device. The super-high-water material composite solid waste pulping, conveying and mixing device comprises a solid waste pulping device, a super-high-water material A pulping device and a super-high-water material B pulping device, wherein the solid waste pulping device is structurally characterized in that the lower end of a solid waste material bin is provided with a solid waste material scale, the lower end of the solid waste material scale is provided with a charge end of a solid waste feeder, a discharge end of the solid waste feeder is arranged at the upper end of a solid waste material mixing bin, the lower end of the solid waste material mixing bin is communicated with a solid waste stirring barrel, the lower end of the solid waste stirring barrel is communicated with a mixing device by a first pipeline and a first flow pump, and the solid waste stirring barrel is communicated with a water injecting tube by a first flow rate meter; the super-high-water material A pulping device and the super-high-water material B pulping device are similar with the solid waste material pulping device in structure. The super-high-water material composite solid waste pulping, conveying and mixing device disclosed by the utility model is high in degree of automation, convenient to operate, low in using cost and capable of realizing long-distance conveying.

Description

Mixing arrangement is carried in a kind of superelevation water Material cladding solid waste slurrying

Technical field

The present invention relates to the compound slurrying of a kind of high-water material and solid waste and carry mixing arrangement.

Background technology

Fast development along with China's economy and industrial construction, the quantity of the solid waste such as mining industry, industry and city significantly rises year by year, transporting solid waste takies a large amount of resources on the one hand, the stacking of solid waste takies large area soil on the other hand, serious environment pollution, the processing of solid waste becomes severeer.After mineral extraction, mining area there will be large area goaf, if filling is not carried out in goaf, will cause and subside, and causes surface subsidence simultaneously.In order to prevent surface subsidence, realize green mining industry, must be to goaf, particularly filling is carried out in the goaf under building, railway, water body.

Filling technique is in the past all toward goaf, to fill sand, loess, spoil, flyash and cement, these technical matters itself are all more complicated, cost is very high, pack effectiveness is also very low, and when using Pipeline transport, plugging road is a large problem, between exploitation and filling process, influences each other, and has a strong impact on and restricting the development of filling mining technology.

Summary of the invention

In order to overcome the shortcoming of prior art, the invention provides a kind of superelevation water Material cladding solid waste slurrying and carry mixing arrangement, its automaticity is high, easy to operate, and use cost is low, can realize remote conveying.

The present invention solves the technical scheme that its technical problem takes: it comprises:

Solid waste material pulping device: the lower end of solid waste feed bin has solid waste material to claim, there is the feed end of solid waste feeder the lower end that solid waste material claims, the discharge end of solid waste feeder is in the upper end of solid waste blending bunker, the lower end of solid waste blending bunker communicates with solid waste agitator, the lower end of solid waste agitator communicates with mixing arrangement by the first pipeline, first flow pump, on described solid waste agitator, by first flow meter, communicates with water injection pipe;

Superelevation water materials A pulping device: the lower end of A feed bin has A material to claim, there is the feed end of A material feeder the lower end that A material claims, the discharge end of A material feeder is in the upper end of A material blending bunker, the upper end of A material blending bunker also has AA powder device, the lower end of A material blending bunker communicates with A agitator, the lower end of A agitator communicates with mixing arrangement by second pipe, the second flow pump, on described A agitator, by the second flowmeter, communicates with water injection pipe;

With superelevation water material B pulping device: the lower end of B feed bin has B material to claim, there is the feed end of B material feeder the lower end that B material claims, the discharge end of B material feeder is in the upper end of B material blending bunker, the upper end of B material blending bunker also has BB powder device, the lower end of B material blending bunker communicates with B agitator, the lower end of B agitator communicates with mixing arrangement by the 3rd pipeline, the 3rd flow pump, on described B agitator, by the 3rd flowmeter, communicates with water injection pipe; Described mixing arrangement has filling slurries carrier pipe.

Advantage of the present invention: the mixing in a large number of solid waste, thoroughly solved a difficult problem for solid waste land occupation, contaminated environment, and it is turned waste into wealth, improved the utilization rate of solid waste, reduced the consumption of super high-water material, reduce filler cost, improved the stability of slurries, overcome the weak point of filler in the past.This complete equipment improves practical, easy to operate, and serum producing system adopts PLC to control, automaticity is high, and labour intensity is low, can realize a large amount of slurries of continuous production, with normal mining production parallel operations, the slurry fluidity of preparation is good simultaneously, can realize long distance and carry.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 is structural representation of the present invention.

The specific embodiment

Super high-water material refers to that water volume share can reach the hydraulic material of 95-97% (the about 6.5:1-11:1 of the ratio of mud).The main body material of this material has A, two kinds of major ingredients of B and A-A, two kinds of auxiliary materials of B-B totally 4 kinds of components formations.When super high water filling material is used, respectively A and A-A material, B and B-B material are mixed and made into A slurry and B slurry with water, and by pipeline, independently carry respectively, after mixing near filling place, be delivered to again place to use.After superelevation water materials A, B slurry fully mix, can be fixed within the short period (10-90min), form and take entringite as main induration.

Main purpose of the present invention is: when the super high-water material of application carries out goaf filling, add to greatest extent solid waste, make full use of discarded object, reduce superelevation water materials'use amount to reduce filling cost.

The method realizing is: will after solid waste fragmentation, be mixed and made into lotion with water or like lotion, by high-pressure pump, by pipeline, be delivered near filling place, enter in a mixing device dedicated simultaneously and fully mix with two kinds of slips of A, B of super high-water material.In mixed process, the moisture of conveying solid substance discarded object can be participated in the consolidation reaction of super high-water material slurry directly, and the slurry after exporting by mixing arrangement is delivered to behind filling place, forms super high-water material and the compound induration of solid waste.

As shown in Figure 1, the present invention includes solid waste material pulping device, superelevation water materials A pulping device and superelevation water material B pulping device.

Solid waste material pulping device structure is: the lower end of solid waste feed bin 2 has solid waste material to claim 3, solid waste material claims 3 lower end to have the feed end of solid waste feeder 6, the discharge end of solid waste feeder 6 is in the upper end of solid waste blending bunker 7, the lower end of solid waste blending bunker 7 communicates with solid waste agitator 5, the lower end of solid waste agitator 5 communicates with mixing arrangement 27 by the first pipeline 23, first flow pump 24, on described solid waste agitator 5, by first flow meter 4, communicates with water injection pipe 1.

Superelevation water materials A pulping device structure is: the lower end of A feed bin 14 has A material to claim 13, A material claims 13 lower end to have A to expect the feed end of feeder 12, the discharge end of A material feeder 12 is in the upper end of A material blending bunker 10, the upper end of A material blending bunker 10 also has AA powder device 11, the lower end of A material blending bunker 10 communicates with A agitator 9, the lower end of A agitator 9 communicates with mixing arrangement 27 by second pipe 22, the second flow pump 25, on described A agitator 5, by the second flowmeter 8, communicates with water injection pipe 1.

Superelevation water material B pulping device structure is: the lower end of B feed bin 15 has B material to claim 16, B material claims 16 lower end to have B to expect the feed end of feeder 19, the discharge end of B material feeder 19 is in the upper end of B material blending bunker 29, the upper end of B material blending bunker 29 also has BB powder device 20, the lower end of B material blending bunker 29 communicates with B agitator 18, the lower end of B agitator 18 communicates with mixing arrangement 27 by the 3rd pipeline 21, the 3rd flow pump 26, on described B agitator 18, by the 3rd flowmeter 17, communicates with water injection pipe 1; Described mixing arrangement 27 has filling slurries carrier pipe 28.

Described solid waste agitator 5 has two, uses side by side.

Described A agitator 9 has two, uses side by side.

Described B agitator 18 has two, uses side by side.

Described solid waste material and the mass ratio of super high-water material are 0.5～2:1.

The mass ratio that described A material, AA powder, B material, BB powder mix with water is 100:10:100:4.

The mass ratio that described pure super high-water material mixes with water is 10-7:1.

Described A material is sulphate aluminium cement; Described B material is the mixtures such as gypsum and quick lime

Described AA powder is compound retarder.

Described BB powder is compound accelerator.

Described solid waste material pulping device, superelevation water materials A pulping device and superelevation water material B pulping device are controlled by PLC, and automaticity is high, can realize continuous slurrying and parallel operations.Induction system adopts flow pump to carry three kinds of slurries, and conveying capacity is equal to, conveying capacity generally 200m3/h or more than.Mixing arrangement 27 is located in the scope apart from filling place 50-100m.

Claims (4)

1. a mixing arrangement is carried in the slurrying of superelevation water Material cladding solid waste, it is characterized in that: it comprises:

Solid waste material pulping device: the lower end of solid waste feed bin (2) has solid waste material to claim (3), solid waste material claims the lower end of (3) to have the feed end of solid waste feeder (6), the discharge end of solid waste feeder (6) is in the upper end of solid waste blending bunker (7), the lower end of solid waste blending bunker (7) communicates with solid waste agitator (5), the lower end of solid waste agitator (5) is by the first pipeline (23), first flow pump (24) communicates with mixing arrangement (27), described solid waste agitator (5) is upper to communicate with water injection pipe (1) by first flow meter (4),

Superelevation water materials A pulping device: the lower end of A feed bin (14) has A material to claim (13), A material claims the lower end of (13) to have the feed end of A material feeder (12), the discharge end of A material feeder (12) is expected the upper end of blending bunker (10) at A, the upper end of A material blending bunker (10) also has AA powder device (11), the lower end of A material blending bunker (10) communicates with A agitator (9), the lower end of A agitator (9) is by second pipe (22), the second flow pump (25) communicates with mixing arrangement (27), described A agitator (5) is upper to communicate with water injection pipe (1) by the second flowmeter (8),

With superelevation water material B pulping device: the lower end of B feed bin (15) has B material to claim (16), B material claims the lower end of (16) to have the feed end of B material feeder (19), the discharge end of B material feeder (19) is expected the upper end of blending bunker (29) at B, the upper end of B material blending bunker (29) also has BB powder device (20), the lower end of B material blending bunker (29) communicates with B agitator (18), the lower end of B agitator (18) is by the 3rd pipeline (21), the 3rd flow pump (26) communicates with mixing arrangement (27), described B agitator (18) is upper to communicate with water injection pipe (1) by the 3rd flowmeter (17), described mixing arrangement (27) has filling slurries carrier pipe (28).

2. mixing arrangement is carried in superelevation water Material cladding solid waste slurrying according to claim 1, it is characterized in that: described solid waste agitator (5) has two, uses side by side.

3. mixing arrangement is carried in superelevation water Material cladding solid waste slurrying according to claim 1, it is characterized in that: described A agitator (9) has two, uses side by side.

4. mixing arrangement is carried in superelevation water Material cladding solid waste slurrying according to claim 1, it is characterized in that: described B agitator (18) has two, uses side by side.