CN203545673U - Nanometer particle preparing system - Google Patents

Abstract

The utility model discloses a nanometer particle preparing system, which comprises an electric arc generator, a high-capacity capacitor and a high-voltage electricity generating device, wherein the electric arc generator is used for preparing nanometer particles, the high-capacity capacitor and the high-voltage electricity generating device cause the electric arc generator to generate electric arcs, the high-voltage electricity generating device, the high-capacity capacitor and the electric arc generator are sequentially and electrically connected, the electric arc generator is connected with a particle collector used for collecting nanometer particles, and a cooling system used for cooling the electric arc generator is also arranged on the electric arc generator. The nanometer particle preparing system provided by the utility model is adopted, the electric arcs can be generated through the electric arc generator, heat generated by the high-voltage electric arcs is utilized for producing the nanometer particles, the equipment and a method are very simple, safety and reliability are realized, and the cost is lower.

Description

A kind of nano particle preparation system

Technical field

The utility model relates to a kind of preparation field of particle, is specifically related to a kind of nano particle preparation system.

Background technology

Nano particle has huge market prospects because it has huge specific area, especially in industries such as automobile making, pharmacy, but nano particle due to its particularity, production cost is compared higher with conventional particles.

The method of manufacturing nano particle particle mainly can be divided into upwards method (bottom up) and to laxative remedy (top down).Most typical is grinding method to laxative remedy, as the term suggests exactly bulky grain is milled in solution to nano particle.The method power consumption is very high, and is milled into the non-constant of granule stability of Nano grade, need to add corresponding stabilizing agent, and the nano particle purity of simultaneously producing by the method is very low, conventionally contains milling container and the composition of the ball of milling.Conventionally the method is only applicable to the industry that some do not contact with human body and particle purity is not required.

Upwards method can be divided into liquid phase method and vapor phase method, and the two method is to manufacture nano particle by single atom or molecule.The method of liquid phase method generation nano particle is generally fairly simple, and the relative concentration that produces nano particle is higher, but the nano particle of producing by liquid phase method needs a lot of subsequent processes, such as Separation of Solid and Liquid, cleans, and is dried calcining etc.Its shortcoming is that production process is uncontrollable, once reaction starts, its manufacturing parameter just cannot change, and the nano particle size of manufacturing by the method is in addition uncontrollable.In addition, the nano particle of manufacturing by liquid phase method, its purity is not high, is mainly the restriction that is subject to its mode of production.The particle obtaining by liquid phase method more or less contains the not material of complete reaction.In addition, the nano particle of manufacturing by the method mostly is polymer, and it has limited further processing and use to nano particle, and liquid phase method is discrete method, and therefore the method has limited production output.

Nano particle can also be manufactured by vapor phase method.The nano particle producing by vapor phase method does not need to carry out follow-up processing, and by particle collector, collecting just can be stand-by, and the concentrations of nanoparticles of producing by the method is very high, almost can reach 100%.The feature of another one vapor phase method is exactly that production process can be controlled, and can change as required response parameter, thereby obtains the particle properties of expecting, such as manufacturing nanometer spherical particle etc.The method can directly be attached to certain carrier surface the nano particle of producing and form a nano-deposit.Meanwhile, vapor phase method is a continuous method, can continual production nano particle, and vapor phase method can expand equipment as requested easily, improves output.Vapor phase method can be divided into gas and transform particle method, and liquid transition particle method and solid convert particle method to.Vapor phase method is produced the process of nano particle for for by raw material gasification, then by physics or chemistry route, manufactures nano particle.Detailed process is, first forms a granular core, then according to reaction condition, by continue condensation or surface chemistry side should or collision and the polymerization of particle form nano particle.But at present, the vapor phase method adopting on existing market is produced the comparison in equipment complexity of nano particle, and cost is relatively high, and the cost of collecting nano particle is higher.

Therefore, simple, lower, the safe and reliable nano particle preparation system of cost of a kind of equipment urgently occurs.

Utility model content

For solving the problems of the technologies described above, the purpose of this utility model is to provide that a kind of equipment is simple, lower, the safe and reliable nano particle preparation system of cost.

For achieving the above object, the technical solution of the utility model is as follows: a kind of nano particle preparation system, comprise for the preparation of the arc generator of nano particle, cause described arc generator and produce high power capacity electric capacity and the high-tension electricity generation device of electric arc, described high-tension electricity generation device, described high power capacity electric capacity and described arc generator are electrically connected successively;

Described arc generator is connected with the particle collector of collecting nano particle;

On described arc generator, be also equiped with the cooling system for cooling described arc generator.

Preferably, be provided with two electrodes for generation of electric arc on described arc generator, described two electrodes are oppositely arranged, and be positioned in same level, and described two electrode tips do not contact.

Preferably, in described two electrodes outside, be arranged with described cooling system.

Preferably, be provided with the first import that carrier gas is passed through above described electrode does not contact, below is provided with the first outlet that particle and gas pass through.

Preferably, in the electrode loading system being provided with away from the described electrode tip of described the first import for automatically loading sacrificial electrode, described electrode loading system comprises motor and at described motor, orders about the power transmission shaft of the described electrode movement of lower drive.

Preferably, described particle collector comprises the second import and the second outlet that carrier gas and particle pass through, and described the second import is connected with described the first outlet.

Preferably, on described arc generator, be also connected with the electrode spacing survey meter for detection of interelectrode distance.

Preferably, after described particle collector, be also equiped with air pump.

Pass through technique scheme, the beneficial effect of technical solutions of the utility model is: a kind of nano particle preparation system, comprise for the preparation of the arc generator of nano particle, cause described arc generator and produce high power capacity electric capacity and the high-tension electricity generation device of electric arc, described high-tension electricity generation device, described high power capacity electric capacity and described arc generator are electrically connected successively; Described arc generator is connected with the particle collector of collecting nano particle; On described arc generator, be also equiped with the cooling system for cooling described arc generator; Adopt nano particle preparation system provided by the utility model, can produce electric arc by described arc generator, the heat that utilizes high-voltage arc to produce, carries out the production of nano particle, and Apparatus and method for is simpler, safe and reliable, and cost is lower.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the utility model embodiment technology, to the accompanying drawing of required use in embodiment technical description be briefly described below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the structural representation of a kind of nano particle preparation system of the utility model embodiment;

Fig. 2 is the structural representation of the arc generator of a kind of nano particle preparation system of the utility model embodiment;

Fig. 3 is the structural representation of the particle collector of a kind of nano particle preparation system of the utility model embodiment;

Fig. 4 is the partial structurtes schematic diagram of the particle collector of a kind of nano particle preparation system of the utility model embodiment;

Fig. 5 is the process chart of the production nano particle of a kind of nano particle preparation system of the utility model embodiment.

The represented corresponding component title of numeral in figure:

1. carrier gas 11. first import 12. first outlet 2. arc generator 21. electrode 22. high-tension electricity generation device 23. high power capacity electric capacity 24. electrode loading system 241. motor 242. power transmission shaft 25. cooling system 251. cooling liquid inlet 252. cooling liquid outlet 26. electrode spacing survey meter 3. particle collector 31. second import 32. second outlet 33. filter screen 4. air pumps.

The specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

The utility model provides that a kind of equipment is simple, lower, the safe and reliable nano particle preparation system of cost.

Embodiment,

As Figure 1-5, a kind of nano particle preparation system, comprise for the preparation of the arc generator 2 of nano particle, cause described arc generator 2 and produce high power capacity electric capacity 23 and the high-tension electricity generation device 22 of electric arc, described high-tension electricity generation device 22, described high power capacity electric capacity 23 and described arc generator 2 are electrically connected successively; Described arc generator 2 is connected with the particle collector 3 of collecting nano particle.

On described arc generator 2, be also equiped with the cooling system 25 for cooling described arc generator 2, described cooling system 25 comprises the cooling liquid outlet 252 that is arranged at the cooling liquid inlet 251 of described arc generator 2 tops and is arranged at described arc generator below, cooling fluid flows into from cooling liquid inlet 251, then flows out through cooling liquid outlet 252.

On described arc generator 2, be provided with two electrodes 21 for generation of electric arc, described two electrodes 21 are oppositely arranged, and be positioned in same level, and described two electrode 21 ends do not contact, and in described two electrodes outside, are arranged with described cooling system.

Above not contacting, described electrode 21 is provided with the first import 11 that carrier gas is passed through, below is provided with the first outlet 12 that particle and gas pass through, in described electrode 21 ends away from described the first import 11, be provided with the electrode loading system 24 for automatically loading sacrificial electrode, described electrode loading system 24 comprises motor 241 and at described motor, orders about the power transmission shaft 242 of the described electrode movement of lower drive.By described electrode loading system 24, make, manufacturing the automatic electrode that loads in particle process, can make electrode supplement in time, guaranteed the continuity of production process.

Described particle collector 3 comprises the second import 31 and the second outlet 32 that carrier gas and particle pass through, and described the second import 31 is connected with described the first outlet 12, and described particle collector inside is also provided with filter screen 33.

On described arc generator 2, be also connected with the electrode spacing survey meter 26 for detection of interelectrode distance, after described particle collector 3, be also equiped with air pump 4, by described air pump 4, the nano particle preparing is discharged.

Adopt nano particle preparation system provided by the utility model, can produce electric arc by described arc generator 2, the heat that utilizes high-voltage arc to produce, the electrode being comprised of different materials volatilizees, manufacture the nano particle of respective material, thereby carry out the batch production of nano particle, equipment is simple, safe and reliable, cost is lower.

The nano particle preparation system that adopts technique scheme to provide, prepares nano particle, and concrete steps are as follows:

(1) described high-tension electricity generation device 22 becomes high-tension electricity by 220V voltage transitions;

(2) the above-mentioned high-tension electricity energy converting to is stored in described high power capacity electric capacity 23;

(3) when energy arrives peaking, described high power capacity electric capacity 23 releases energy;

(4) energy discharging from described high power capacity electric capacity 23, excites described arc generator 2 to produce electric arc;

(5) the heat electrode being formed by different materials that volatilizees that utilizes high-voltage arc to produce, thus the nano particle of respective material manufactured;

(6) described cooling system 25 carries out cooling to whole arc generator 2, when carrier gas 1 is cooled when the first import 11 arrives arc generator 2, now described electrode 21 volatile matters produce nano particle, and through described the first outlet 12, take nano particle out of described arc generator 2;

(7) nano particle collector 3 all collects stand-by by the nano particle of generation.

In said method, described nano particle is discharged described particle collector 3 through described air pump 4, the method of preparing nano particle that the technical program provides, can also be by controlling voltage, control nano particle size and concentration, thereby the nano particle that makes to prepare different condition, the scope of application is wider.

Pass through technique scheme, the beneficial effect of technical solutions of the utility model is: a kind of nano particle preparation system, comprise for the preparation of the arc generator 2 of nano particle, cause described arc generator and produce high power capacity electric capacity 23 and the high-tension electricity generation device 22 of electric arc, described high-tension electricity generation device 22, described high power capacity electric capacity 23 and described arc generator 2 are electrically connected successively; Described arc generator 2 is connected with the particle collector 3 of collecting nano particle; On described arc generator 2, be also equiped with the cooling system 25 for cooling described arc generator 2; Adopt nano particle preparation system provided by the utility model, can produce electric arc by described arc generator 2, the heat that utilizes high-voltage arc to produce, carries out the production of nano particle, and Apparatus and method for is simpler, safe and reliable, and cost is lower.

To the above-mentioned explanation of the disclosed embodiments, make professional and technical personnel in the field can realize or use the utility model.To the multiple modification of these embodiment, will be apparent for those skilled in the art, General Principle as defined herein can, in the situation that not departing from spirit or scope of the present utility model, realize in other embodiments.Therefore, the utility model will can not be restricted to these embodiment shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (8)

1. a nano particle preparation system, it is characterized in that, comprise for the preparation of the arc generator of nano particle, cause described arc generator and produce high power capacity electric capacity and the high-tension electricity generation device of electric arc, described high-tension electricity generation device, described high power capacity electric capacity and described arc generator are electrically connected successively;

Described arc generator is connected with the particle collector of collecting nano particle;

On described arc generator, be also equiped with the cooling system for cooling described arc generator.

2. nano particle preparation system according to claim 1, is characterized in that, is provided with two electrodes for generation of electric arc on described arc generator, and described two electrodes are oppositely arranged, and be positioned in same level, and described two electrode tips does not contact.

3. nano particle preparation system according to claim 2, is characterized in that, in described two electrodes outside, is arranged with described cooling system.

4. nano particle preparation system according to claim 3, is characterized in that, is provided with the first import that carrier gas is passed through above described electrode does not contact, and below is provided with the first outlet that particle and gas pass through.

5. nano particle preparation system according to claim 4, it is characterized in that, in the electrode loading system being provided with away from the described electrode tip of described the first import for automatically loading sacrificial electrode, described electrode loading system comprises motor and at described motor, orders about the power transmission shaft of the described electrode movement of lower drive.

6. nano particle preparation system according to claim 5, is characterized in that, described particle collector comprises the second import and the second outlet that carrier gas and particle pass through, and described the second import is connected with described the first outlet.

7. nano particle preparation system according to claim 6, is characterized in that, is also connected with the electrode spacing survey meter for detection of interelectrode distance on described arc generator.

8. nano particle preparation system according to claim 7, is characterized in that, is also equiped with air pump after described particle collector.

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