CN205821160U - A kind of hollow glass micropearl preparation facilities - Google Patents

Abstract

This utility model relates to a kind of hollow glass micropearl preparation facilities, described hollow glass micropearl preparation facilities be provided with by mixing burner and beading bench of burners become glass microballoon nebulizer, microballon cooler, cyclone collector and cloth bag catcher；Described microballon cooler is connected with bead floating device by pipeline, and described bead floating device is connected with flotation unit by pipeline, and described flotation unit is connected with cyclone collector and cloth bag catcher by pipeline；Therefore this utility model simple in construction, low cost, first uniform to glass microballoon and water proportioning according to a certain percentage, then it is winnowed and isolate solid glass micro-bead therein and broken pearl, after hollow glass micropearl is collected, residual liquid water solution can be recycled, and reaches the purpose of energy-conserving and environment-protective, and the speed of its sorting is fast, effective, can carry out consecutive production, environmentally safe, efficiently.

Description

A kind of hollow glass micropearl preparation facilities

Technical field

This utility model belongs to hollow glass micropearl production technical field, particularly relates to a kind of hollow glass micropearl preparation dress Put.

Background technology

At present, hollow glass micropearl is a kind of hollow, includes the microspheres sprills of noble gas.It belongs to nonmetal Inorganic material, has that lightweight is big, heat conductivity is low, comprcssive strength is high, the advantage of dispersibility, mobility, good stability, Also have low oil suction, insulation, self-lubricating, sound insulation, do not absorb water, fire-resistant, corrosion-resistant, radioprotective, some common materials such as nontoxic not The excellent properties possessed.

The sorting unit of the glass microballoon that present stage is used, it is impossible to rationally high-efficiency and continuous sorting hollow glass micropearl Shortcoming.

Utility model content

This utility model is by solving the sorting unit of the glass microballoon that present stage is used, it is impossible to rationally high-efficiency and continuous is divided The technical problem of hollow glass micropearl is selected to provide a kind of simple in construction, easy to install, the hollow glass of raising work efficiency Glass microballon preparation facilities.

This utility model is adopted the technical scheme that by solving technical problem present in known technology:

Hollow glass micropearl preparation facilities of the present utility model, described hollow glass micropearl preparation facilities is provided with by mixing Burner bench of burners with beading become glass microballoon nebulizer, microballon cooler, cyclone collector and cloth bag catcher；Described microballon Cooler is connected with bead floating device by pipeline, and described bead floating device is connected with flotation unit by pipeline, described flotation unit It is connected with cyclone collector and cloth bag catcher by pipeline；

Described bead floating device includes tank, is arranged over floating bead collection port, at described tank in described tank side Outside is provided with the filter bag being correspondingly arranged with described floating bead collection port, is correspondingly arranged for collecting filtrate in the downside of described filter bag Residual liquid pond, is provided with blending bin in the upside of described tank, is provided with agitating device in described blending bin, under described blending bin Side is provided with conveying pipeline, and the discharging opening of described conveying pipeline is correspondingly arranged in described tank；

Described flotation unit includes flotation cell, arranges and winnows liquid, set in the downside of described flotation cell in described flotation cell Having heavy pearl outlet, be connected in described heavy pearl outlet cover plate, and the outside of described flotation cell is connected shell, in institute State and between flotation cell and described shell, be provided with cavity, and described shell is fully wrapped around for described flotation cell, under described shell Side is provided with passage；

It is provided with mixing chamber in the upside of described flotation cell, in described mixing chamber, is provided with agitating device, at described mixing chamber Downside be provided with feed pipe, feed pipe and described flotation cell corresponding matching；It is provided with on the downside of described shell and described passage pair The conveyer device that should coordinate, be connected drying unit in the outside of described conveyer device, at the outfan of described conveyer device Corresponding matching arranges splicing case.

Further, the outside of described floating bead collection port arranges stock guide diagonally downward, and the downside correspondence of described stock guide sets Put in described filter bag；

The sidewall of described tank is provided with separator tube, is provided with the pan feeding being connected with described tank on described separator tube Mouthful, the discharging opening of described conveying pipeline is correspondingly arranged in described separator tube.

Further, described separator tube is arranged on the sidewall that described tank is relative with described floating bead collection port；

Described separator tube is and the semicircle pipeline of described conveying pipeline corresponding matching；

The bottom of described tank side is provided with heavy pearl collection port.

Further, described residual liquid pond connects described blending bin by pipeline, connects reflux pump on described pipeline；

Being flexibly connected cutoff board in tank between described conveying pipeline with described floating bead collection port, the upside of cutoff board is less than The top edge of tank；

Described conveying pipeline is provided with valve.

Further, the upside of described flotation cell and the upside of described shell are uncovered setting, and the upper end of flotation cell is low In the upper end of shell, and described flotation cell and described shell connect fixing by connector；

The downside of described shell is cone closing-in structure, and described passage is arranged at the closing in of described shell；

Described flotation cell is cylindrical barrel structure；

Described mixing chamber is cylindrical barrel structure, and is cone closing-in structure on the downside of it, and described feed pipe is arranged At the closing in of described flotation cell.

Further, the discharging opening of described feed pipe be arranged on described in winnow below the liquid level of liquid, and on described feed pipe It is provided with valve；

The lateral symmetry of described conveyer device arranges baffle plate；

Described conveyer device uses belt conveyor.

This utility model has the advantage that with good effect: due to this utility model simple in construction, low cost, first to glass Glass microballon and water proportioning according to a certain percentage is uniform, then winnows it and isolates solid glass micro-bead therein and broken Pearl, after hollow glass micropearl is collected, residual liquid water solution can be recycled, and reaches the purpose of energy-conserving and environment-protective, dividing of it The speed of choosing is fast, effective, it is possible to carry out consecutive production, environmentally safe, efficiently.

Accompanying drawing explanation

Fig. 1 is the hollow glass micropearl preparation facilities structural representation that this utility model embodiment provides；

Fig. 2 is the bead floating device structural representation that this utility model embodiment provides；

Fig. 3 is the flotation unit structural representation that this utility model embodiment provides；

In figure: 1, mixing burner；2, beading stove；3, microballon cooler；4, cyclone collector；5, cloth bag catcher；6、 Air-introduced machine；7, air compressor machine；8, aerator；9, gas pipeline；10, size barrel；11, charging pump；12, bead floating device；13, flotation dress Put.

Detailed description of the invention

For summary of the invention of the present utility model, feature and effect can be further appreciated that, hereby enumerate following example, and coordinate Accompanying drawing describes in detail as follows.

Below in conjunction with the accompanying drawings structure of the present utility model is explained in detail.

As it is shown in figure 1, the hollow glass micropearl preparation facilities of this utility model embodiment is by mixing burner 1, beading stove 2, microballon cooler 3, cyclone collector 4, cloth bag catcher 5, air-introduced machine 6, air compressor machine 7, aerator 8, gas pipeline 9, slurry Bucket 10, charging pump 11, bead floating device 12, flotation unit 13 form；Mixing burner 1, beading stove 2 form glass microballoon atomization Device；Slurry is transported to mixing burner bottom centre entrance by charging pump by compressed air and enters the swirl atomizer of burner, The drop of nozzle atomization form slurry by centrifugation and burned flame are upwards ejected in beading body of heater, and slurry drop is heated and is dried rapidly And melt, the most hollow nodularization, rapidly enter annealing setting in microballon cooling system the most with the wind.

Described burner 1 is connected with gas fuel container by gas pipeline 9；Described burner 1 passes through pipe by air Road is connected to the air outlet of aerator 8, and the air of aerator conveying participates in burning as combustion air.Slurry in size barrel 10 Material raw material is entered burner 1 swirl atomizer, warp by burner 1 bottom centre entrance under delivery pump 11 and air compressor machine air pressure carry Swirl atomizer is atomized into slurry drop, is upwards ejected in beading body of heater 2 and is dried rapidly and melts together with burned flame, with Time hollow ball.Microballon after hollow nodularization, under the effect of air-introduced machine 6, rapidly enters microballon cooler 3 annealing setting, passes through Bead floating device 12 and flotation unit 13, the glass microballoon of cooling collects through cyclone collector 4 and cloth bag catcher 5, tail gas warp Traction blower fan 6 is discharged, and microballon cooler 3 provides pipeline to be connected with bead floating device 12, and bead floating device 12 is filled with flotation by pipeline Put 13 connections.

As in figure 2 it is shown, bead floating device 12 is by including tank 12-1, described tank 12-1 be a upside be uncovered casing Structure, is arranged over floating bead collection port 12-2 in described tank 12-1 side, is provided with slow on the sidewall of described tank 12-1 Washing pipe 12-9, is provided with the feeding mouth 12-10 being connected with described tank 12-1, described separator tube on described separator tube 12-9 12-9 is arranged on described sidewall relative for tank 12-1 with described floating bead collection port 12-2.Described separator tube 12-9 can be arranged Inner side at described tank 12-1, it is also possible to be arranged on the outside of described tank 12-1, this utility model is preferably arranged on institute State the outside of tank 12-1.Described separator tube 12-9 is semicircle pipeline.In described separator tube 12-9 and described floating bead collection port It is symmetrical arranged draw-in groove, one cutoff board 12-of clamping in two described draw-in grooves on the inwall of the tank 12-1 both sides between 12-2 11, the upside of the cutoff board 12-11 top edge less than tank 12-1.

Stock guide 12-8, the downside of described stock guide 12-8 are set diagonally downward in the outside of described floating bead collection port 12-2 It is correspondingly arranged in filter bag 12-3.It is provided with heavy pearl collection port in the bottom near tank 12-1 described in described separator tube 12-9 side 12-12.Be correspondingly arranged the residual liquid pond 12-4 for collecting filtrate in the downside of described filter bag 12-3, described residual liquid pond 12-4 also sets Put the lower section at described tank 12-1.

Being provided with blending bin 12-5, described mixing chamber 12-5 in the upside of described tank 12-1 is cylindrical barrel structure, It is cone closing-in structure on the downside of it, at the closing in of described mixing chamber 12-5, connects conveying pipeline 12-7, described conveying pipeline 12-7 With described separator tube 12-9 corresponding matching, and the discharging opening of described conveying pipeline 12-7 is correspondingly arranged in described separator tube 12-9, Described conveying pipeline 12-7 is provided with valve 12-15.Agitating device 12-6, described stirring it is additionally provided with in described blending bin 12-5 Device 12-6 uses the conventional structure of driven by motor agitator.

As it is shown on figure 3, flotation unit 13 include flotation cell 13-1, shell 13-2, mixing chamber 13-7, conveyer device 13-10, Drying unit 13-11 and splicing case 13-12 is both connected in described frame.

Described flotation cell 13-1 is cylindrical barrel structure, arranges and winnow liquid 13-3 in described flotation cell 13-1, described Winnow liquid 13-3 and select water.The upside of described flotation cell 13-1 is uncovered setting, and it is heavy to be provided with in the downside of described flotation cell 13-1 Pearl outlet 1a, be connected in described heavy pearl outlet 1a cover plate 13-4, cover plate 13-4 are movably connected in described heavy pearl row On outlet 1a.The outside of described flotation cell 13-1 is connected shell 13-2, at described flotation cell 13-1 and described shell 13-2 Between be provided with cavity 13-5, and described shell 13-2 is fully wrapped around for described flotation cell 13-1, and the upside of described shell 13-2 is Uncovered setting, the upper end less than shell 13-2, the upper end of described flotation cell 13-1, described flotation cell 13-1 and described shell 13-2 Connected fixing by connector.Described connector layout is in the surrounding of flotation cell 13-1, and described connector uses bolt.Described The downside of shell 13-2 is cone closing-in structure, connects passage 13-6, described guide at the closing in of described shell 13-2 Pipe 13-6 is vertically arranged.

Being provided with mixing chamber 13-7, described mixing chamber 13-7 in the upside of described flotation cell 13-1 is cylindrical barrel structure, On the downside of it be cone closing-in structure, at the closing in of described flotation cell 13-1 connect feed pipe 13-9, feed pipe 13-9 with Described flotation cell 13-1 corresponding matching, is provided with valve 13-13, the discharging opening of described feed pipe 13-9 on described feed pipe 13-9 Winnow described in being arranged on below the liquid level of liquid 13-3.

In described mixing chamber 13-7, it is provided with agitating device 13-8, described agitating device 13-8 uses driven by motor agitator Conventional structure.

It is provided with on the downside of described shell 13-2 and the conveyer device 13-10 of described passage 13-6 corresponding matching, described defeated Device 13-10 is sent to use belt conveyor.Lateral symmetry at described conveyer device 13-10 conveyer belt arranges baffle plate 13-14, often The individual the most outward-dipping setting of baffle plate 13-14.Outside on rear side of described conveyer device 13-10 is connected drying unit 13-11, Described drying unit 13-11 is prior art, and the outfan corresponding matching at described conveyer device 13-10 arranges splicing case 13- 12。

Operation principle of the present utility model:

Rapidly enter microballon cooler 3 annealing setting, through bead floating device 12 and flotation unit 13.

Described residual liquid pond 12-4 connects described blending bin 12-5 by pipeline 12-13, connects back on described pipeline 12-13 Stream pump 12-14.Glass microballoon suspension in described blending bin 12-5, after agitating device 12-6 stirs, opens valve 12- 15, it is transported in separator tube 12-9 by conveying pipeline 12-7, is flowing into tank 12-1, charging aperture 12-10 through feeding mouth 12-10 Less than the liquid level in tank 12-1, under the effect of buoyancy, hollow glass micropearl gradually floats on liquid level, and low by height In floating bead collection port 12-2 of tank 12-1 top edge, the floating bead flowed out together with a small amount of water, flow into filter bag 12-3 and carry out Collecting, water is filtered lower entrance residual liquid pond 12-4, and floating bead waits follow-up dried in staying filter bag 12-3.According to hollow glass The density of microballon is different, changes corresponding cutoff board 12-11, is conducive to precipitation and the receipts of the microballon bigger to heavy pearl and wall thickness Collection.Suspension in blending bin 12-5 fully enters after tank 12-1 winnows, and closes valve 12-15, opens reflux pump 12-14 and draw Lead the current direction blending bin 12-5 in the 12-1 of residual liquid pond, pour microballon powder into, be stirred, after stirring, be again turned on valve Door 12-15, then flow into tank 12-1 and winnow.Circulate successively, it is achieved produce continuously.Have because heavy pearl is deposited in bottom of gullet Bigger hardness and toughness, it is necessary to processed in time before reaching certain thickness, be otherwise difficult to clear up.At this utility model In, within every 2 hours, process a jetsam, at this moment, in blending bin 12-5, suspension should all flow into tank 12-1, stops charging, water Remaining floating bead on face is collected complete, accesses heavy pearl collection port 12-12 of basin sidewall with slush pump, after discharging jetsam, opens Reflux pump 12-14 and valve 12-15, is rinsed tank 12-1, after cleaning out, prepares to winnow next time.

Glass suspension in mixing chamber 13-7, after stirring, opens valve 13-13 glass microballoon feed pipe 13-9 defeated Delivering in flotation cell 13-1, under buoyancy, density overweights the defect wares such as the heavy pearl of water and broken pearl and is sunken to flotation cell 13-1 Bottom, density gradually floats to ullage less than the hollow glass micropearl of water, and gradually covers flotation cell 13-1, is flowed into In cavity 13-5, as indicated by the arrows in fig. 3, hollow glass micropearl is together with a small amount of water one for the flow direction of hollow glass micropearl Act the floating bead flowing into shell, fall on conveyer device 13-10 by the taper closing in outflow bottom described passage, conveyer device The baffle plate 13-14 of 13-10 both sides is used for stopping glass microballoon so that it is will not drop to the both sides of conveyer device 13-10.In conveying The lower hollow glass micropearl that drives of device 13-10 runs according to the direction of regulation together with a small amount of water, delivers to drying unit 13-11 Carry out drying and processing, fall into splicing case 13-12 after drying and be collected.

Heavy pearl is deposited in bottom flotation cell 13-1 has bigger hardness and viscosity, it is necessary to process to reduce cleaning in time Difficulty, in this specific embodiment, every 2h processes a jetsam, at this moment, closes valve 13-13, stops charging, treat that floating bead is collected After, open the cover plate 13-4 in heavy pearl outlet 1a bottom flotation cell 13-1, heavy pearl falls conveying by passage 13-6 On device 13-10, then deliver to drying unit 13-11 carry out drying and processing by falling conveyer device 13-10, eventually pass another Individual splicing case 13-12 is collected.

The above is only to preferred embodiment of the present utility model, not this utility model is made any in form Restriction, every according to technical spirit of the present utility model to any simple modification made for any of the above embodiments, equivalent variations with Modify, belong in the range of technical solutions of the utility model.

Claims (6)

1. a hollow glass micropearl preparation facilities, it is characterised in that described hollow glass micropearl preparation facilities is provided with by mixing Combined burner bench of burners with beading become glass microballoon nebulizer, microballon cooler, cyclone collector and cloth bag catcher；Described micro- Pearl cooler is connected with bead floating device by pipeline, and described bead floating device is connected with flotation unit by pipeline, and described flotation fills Put and be connected with cyclone collector and cloth bag catcher by pipeline；

Described bead floating device includes tank, is arranged over floating bead collection port, in the outside of described tank in described tank side It is provided with the filter bag being correspondingly arranged with described floating bead collection port, is correspondingly arranged the residual liquid for collecting filtrate in the downside of described filter bag Pond, is provided with blending bin in the upside of described tank, is provided with agitating device in described blending bin, sets in the downside of described blending bin Conveying pipeline, the discharging opening of described conveying pipeline is had to be correspondingly arranged in described tank；

Described flotation unit includes flotation cell, arranges and winnow liquid in described flotation cell, and it is heavy to be provided with in the downside of described flotation cell Pearl outlet, be connected in described heavy pearl outlet cover plate, and the outside of described flotation cell is connected shell, described floating Select and between room and described shell, be provided with cavity, and described shell is fully wrapped around for described flotation cell, sets in the downside of described shell There is passage；

It is provided with mixing chamber in the upside of described flotation cell, in described mixing chamber, is provided with agitating device, under described mixing chamber Side is provided with feed pipe, feed pipe and described flotation cell corresponding matching；Join corresponding with described passage it is provided with on the downside of described shell The conveyer device closed, be connected drying unit in the outside of described conveyer device, corresponding at the outfan of described conveyer device It is equipped with splicing case.

2. hollow glass micropearl preparation facilities as claimed in claim 1, it is characterised in that the outer inclination of described floating bead collection port Arranging stock guide obliquely, the downside of described stock guide is correspondingly arranged in described filter bag；

The sidewall of described tank is provided with separator tube, is provided with the feeding mouth being connected with described tank, institute on described separator tube The discharging opening stating conveying pipeline is correspondingly arranged in described separator tube.

3. hollow glass micropearl preparation facilities as claimed in claim 2, it is characterised in that described separator tube is received with described floating bead Ji Kou is arranged on the sidewall that described tank is relative；

Described separator tube is and the semicircle pipeline of described conveying pipeline corresponding matching；

The bottom of described tank side is provided with heavy pearl collection port.

4. hollow glass micropearl preparation facilities as claimed in claim 1, it is characterised in that described residual liquid pond is connected by pipeline Described blending bin, connects reflux pump on described pipeline；

Being flexibly connected cutoff board in tank between described conveying pipeline with described floating bead collection port, the upside of cutoff board is less than tank Top edge；

Described conveying pipeline is provided with valve.

5. hollow glass micropearl preparation facilities as claimed in claim 1, it is characterised in that the upside of described flotation cell and described The upside of shell is uncovered setting, and the upper end of flotation cell is less than the upper end of shell, and described flotation cell and described shell lead to Cross connector and connect fixing；

The downside of described shell is cone closing-in structure, and described passage is arranged at the closing in of described shell；

Described flotation cell is cylindrical barrel structure；

Described mixing chamber is cylindrical barrel structure, and is cone closing-in structure on the downside of it, and described feed pipe is arranged on institute State at the closing in of flotation cell.

6. hollow glass micropearl preparation facilities as claimed in claim 1, it is characterised in that the discharging opening of described feed pipe is arranged Below the described liquid level winnowing liquid, and it is provided with valve on described feed pipe；

The lateral symmetry of described conveyer device arranges baffle plate；

Described conveyer device uses belt conveyor.