CN205164580U - High -efficient mixing biax pony mixer - Google Patents

Abstract

The utility model discloses a high -efficient mixing biax pony mixer, including reation kettle, reation kettle one side sets up first support, and " L " type is constituteed down by vertical first support and horizontal first support to first support, the first base of vertical first support bottom welding, and horizontal first support upper end sets up drive arrangement, and reation kettle is inside to set up two at least stirring units, and the stirring unit includes and (mixing) shaft and stirring vane sets up stirring vane in the axial of (mixing) shaft that the stirring vane size below the (mixing) shaft is greater than the stirring vane above the (mixing) shaft, interval between the last stirring vane of setting of stirring vane from top to bottom increases in proper order, one of them root of (mixing) shaft is connected with drive arrangement, pass through gear connection between the (mixing) shaft, the second support, its including the second base, with the perpendicular montant that links to each other of second base, the montant is from last to being equipped with first feed cylinder, second feed cylinder, third feed cylinder down in proper order. Overall structure is simple, and the practicality is strong, easily uses widely, stirs efficiently.

Description

Efficient mixing dual spindle vertical mixer

Technical field

The utility model relates to mixer mechanical equipment technical field, particularly relates to a kind of efficient mixing dual spindle vertical mixer.

Background technology

Vertical mixer has various ways, and conventional vertical mixer is primarily of the formation such as motor wheel, motor, staving, screw rod, discharging opening, residue-removing opening, belt pulley, form, helper, entrance, electric appliance box, circulation blanking port, dog-house.Traditional vertical mixer outward appearance is heavy, inconvenient maintenance and maintenance rate is high.Trendy mixer through technique improvement for many years, mixing fluency and the uniformity better than conventional mixer.Usual complete machine can be divided into three parts: 1. rack section: machine all working body is all fixed in frame, the frame of this machine all adopts quality carbon steel plate, channel-section steel is welded, and have passed strict product conformity certification and specific technological requirement, reach the object that the machine uses; 2. drive connection: the machine adopts cycloidal planetary gear speed reducer to drive main shaft rotary work, its host work part all adopts nylon pin to be drive coupling phase tooth and transmits driving, ease of assembly and maintenance; 3. stir working portion: reach main shaft by drive by pin coupler.Material is overturn uniformly in teeter chamber, material can be mixed fully, thus greatly reducing the residual quantity of material.

But existing vertical mixer is when the inhomogenous various materials of stirring particle diameter, and efficiency is lower, can not meet the needs of industry, therefore there is obvious technological deficiency.

Utility model content

Prior art can not meet the needs of people, and for making up prior art deficiency, the utility model aims to provide a kind of efficient mixing dual spindle vertical mixer.

For achieving the above object, the utility model is a kind of efficient mixing dual spindle vertical mixer by the following technical solutions, comprises,

Reactor, described reactor side arranges the first support, described first support is by longitudinally the first support and horizontal first support form inverted "L" shaped, the first base is welded in described longitudinal direction first support bottom, described transverse direction first pedestal upper end arranges drive unit, described reactor inside arranges at least two agitating units, described agitating unit comprises shaft and stirring vane, described shaft described stirring vane is axially set, the described stirring vane size below described shaft is greater than the described stirring vane above described shaft; On described stirring vane, the spacing arranged between described stirring vane from top to bottom increases successively; Described shaft wherein one be connected with described drive unit; Connected by gear between described shaft;

Second support, described second support includes the second base, the montant that be connected vertical with described second base, and described montant is provided with the first barrel, the second barrel, the 3rd barrel from top to bottom successively,

Wherein,

Be provided with the first antipriming pipe in described first barrel, described first antipriming pipe stretches out the two ends of described first barrel and stretches out, and the left side of described first antipriming pipe is connected with the first blower fan, and the right side of described first antipriming pipe is connected with described reactor;

Be provided with the second antipriming pipe in described second barrel, described second antipriming pipe stretches out the two ends of described second barrel and stretches out, and the left side of described second antipriming pipe is connected with the second blower fan, and the right side of described second antipriming pipe is connected with described reactor;

Be provided with the 3rd antipriming pipe in described 3rd barrel, described 3rd antipriming pipe stretches out the two ends of described 3rd barrel and stretches out, and the left side of described 3rd antipriming pipe is connected with the 3rd blower fan, and the right side of described 3rd antipriming pipe is connected with described reactor.

Preferably, described first barrel holds first kind material, and described second barrel holds Equations of The Second Kind material, and described 3rd barrel holds the 3rd class material, the particle diameter of described first kind material is greater than the particle diameter of described Equations of The Second Kind material, and the particle diameter of described Equations of The Second Kind material is greater than the particle diameter of described 3rd class material.

Preferably, described first antipriming pipe adopts stainless steel to make.

Preferably, described second antipriming pipe adopts brass to make.

Preferably, described second base adopts cast iron to make.

Preferably, the air output of described first blower fan is 1.2 times to 1.5 times of described second blower fan air output, and the air output of described second blower fan is 1.3 times to 1.4 times of described 3rd blower fan air output.

Preferably, described first antipriming pipe is provided with some first sieve apertures by the region that described first barrel covers, and the shape of described first sieve aperture is oval.

Preferably, described second antipriming pipe is provided with some second sieve apertures by the region that described second barrel covers, and the shape of described second sieve aperture is rhombus.

Preferably, described 3rd antipriming pipe is provided with some 3rd sieve apertures by the region that described 3rd barrel covers, and the shape of described 3rd sieve aperture is square.

Compared with prior art, the beneficial effects of the utility model are: by arranging described first barrel, described second barrel, described 3rd barrel, by blower fan, the material in barrel is blown into reactor, easily the material of different-grain diameter size can be mixed into reactor, and the feeding method of material can be realized.Blending efficiency is high.Overall structure is simple, practical, is easy to promote the use of.

Accompanying drawing explanation

Fig. 1 is the utility model overall structure schematic diagram;

Wherein: 10, the first support; 11, the first base; 20, drive unit; 30, shaft; 50, gear; 60, reactor; 601, stirring vane; 71, the 3rd blower fan; 711, the 3rd barrel; 7111, the 3rd antipriming pipe; 72, the second blower fan; 721, the second barrel; 7211, the second antipriming pipe; 73, the first blower fan; 731, the first barrel; 7311, the first antipriming pipe; 80, the second base.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making other embodiments all obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Refer to Fig. 1, Fig. 1 is the utility model overall structure schematic diagram.

The utility model is a kind of efficient mixing dual spindle vertical mixer by the following technical solutions, comprise, reactor 60, described reactor 60 side arranges the first support 10, described first support 10 is by longitudinally the first support 10 and horizontal first support 10 form inverted "L" shaped, the first base 11 is welded in described longitudinal direction first support 10 bottom, described transverse direction first support 10 upper end arranges drive unit 20, described reactor 60 inside arranges at least two agitating units, described agitating unit comprises shaft 30 and stirring vane 601, described shaft 30 described stirring vane 601 is axially set, described stirring vane 601 size below described shaft 30 is greater than the described stirring vane 601 above described shaft 30, on described stirring vane 601, the spacing arranged between described stirring vane 601 from top to bottom increases successively, described shaft 30 wherein one be connected with described drive unit 20, connected by gear 50 between described shaft 30, second support, described second support include the second base 80, with the vertical montant be connected of described second base 80, described montant is provided with the first barrel 731, second barrel 721, the 3rd barrel 711 from top to bottom successively, wherein, the first antipriming pipe 7311 is provided with in described first barrel 731, described first antipriming pipe 7311 stretches out the two ends of described first barrel 731 and stretches out, the left side of described first antipriming pipe 7311 is connected with the first blower fan 73, and the right side of described first antipriming pipe 7311 is connected with described reactor 60, the second antipriming pipe 7211 is provided with in described second barrel 721, described second antipriming pipe 7211 stretches out the two ends of described second barrel 721 and stretches out, the left side of described second antipriming pipe 7211 is connected with the second blower fan 72, and the right side of described second antipriming pipe 7211 is connected with described reactor 60, the 3rd antipriming pipe 7111 is provided with in described 3rd barrel 711, described 3rd antipriming pipe 7111 stretches out the two ends of described 3rd barrel 711 and stretches out, the left side of described 3rd antipriming pipe 7111 is connected with the 3rd blower fan 71, and the right side of described 3rd antipriming pipe 7111 is connected with described reactor 60.

In the above-described embodiments, by arranging described first barrel 731, described second barrel 721, described 3rd barrel 711, by blower fan, the material in barrel is blown into reactor 60, easily the material of different-grain diameter size can be mixed into reactor 60, and the feeding method of material can be realized.Blending efficiency is high.Overall structure is simple, practical, is easy to promote the use of.

As an embodiment of the present utility model, described first barrel 731 holds first kind material, described second barrel 721 holds Equations of The Second Kind material, described 3rd barrel 711 holds the 3rd class material, the particle diameter of described first kind material is greater than the particle diameter of described Equations of The Second Kind material, and the particle diameter of described Equations of The Second Kind material is greater than the particle diameter of described 3rd class material.

As an embodiment of the present utility model, described first antipriming pipe 7311 adopts stainless steel to make.

As an embodiment of the present utility model, described second antipriming pipe 7211 adopts brass to make.

As an embodiment of the present utility model, described second base 80 adopts cast iron to make.

As an embodiment of the present utility model, the air output of described first blower fan 73 is 1.2 times to 1.5 times of described second blower fan 72 air output, and the air output of described second blower fan 72 is 1.3 times to 1.4 times of described 3rd blower fan 71 air output.

As an embodiment of the present utility model, described first antipriming pipe 7311 is provided with some first sieve apertures by the region that described first barrel 731 covers, and the shape of described first sieve aperture is oval.

As an embodiment of the present utility model, described second antipriming pipe 7211 is provided with some second sieve apertures by the region that described second barrel 721 covers, and the shape of described second sieve aperture is rhombus.

As an embodiment of the present utility model, described 3rd antipriming pipe 7111 is provided with some 3rd sieve apertures by the region that described 3rd barrel 711 covers, and the shape of described 3rd sieve aperture is square.

To those skilled in the art, obvious the utility model is not limited to the details of above-mentioned one exemplary embodiment, and when not deviating from spirit of the present utility model or essential characteristic, can realize the utility model in other specific forms.Therefore, no matter from which point, all should embodiment be regarded as exemplary, and be nonrestrictive, scope of the present utility model is limited by claims instead of above-mentioned explanation, and all changes be therefore intended in the implication of the equivalency by dropping on claim and scope are included in the utility model.Any Reference numeral in claim should be considered as the claim involved by limiting.

The above; be only preferred embodiment of the present utility model; not in order to limit the utility model, every above embodiment is done according to technical spirit of the present utility model any trickle amendment, equivalently replace and improve, within the protection domain that all should be included in technical solutions of the utility model.

Claims (9)

1. an efficient mixing dual spindle vertical mixer, is characterized in that, comprise,

Reactor, described reactor side arranges the first support, described first support is by longitudinally the first support and horizontal first support form inverted "L" shaped, the first base is welded in described longitudinal direction first support bottom, described transverse direction first pedestal upper end arranges drive unit, described reactor inside arranges at least two agitating units, described agitating unit comprises shaft and stirring vane, described shaft described stirring vane is axially set, the described stirring vane size below described shaft is greater than the described stirring vane above described shaft; On described stirring vane, the spacing arranged between described stirring vane from top to bottom increases successively; Described shaft wherein one be connected with described drive unit; Connected by gear between described shaft;

Second support, described second support includes the second base, the montant that be connected vertical with described second base, and described montant is provided with the first barrel, the second barrel, the 3rd barrel from top to bottom successively,

Wherein,

Be provided with the first antipriming pipe in described first barrel, described first antipriming pipe stretches out the two ends of described first barrel and stretches out, and the left side of described first antipriming pipe is connected with the first blower fan, and the right side of described first antipriming pipe is connected with described reactor;

Be provided with the second antipriming pipe in described second barrel, described second antipriming pipe stretches out the two ends of described second barrel and stretches out, and the left side of described second antipriming pipe is connected with the second blower fan, and the right side of described second antipriming pipe is connected with described reactor;

Be provided with the 3rd antipriming pipe in described 3rd barrel, described 3rd antipriming pipe stretches out the two ends of described 3rd barrel and stretches out, and the left side of described 3rd antipriming pipe is connected with the 3rd blower fan, and the right side of described 3rd antipriming pipe is connected with described reactor.

2. efficient mixing dual spindle vertical mixer according to claim 1, it is characterized in that, described first barrel holds first kind material, described second barrel holds Equations of The Second Kind material, described 3rd barrel holds the 3rd class material, the particle diameter of described first kind material is greater than the particle diameter of described Equations of The Second Kind material, and the particle diameter of described Equations of The Second Kind material is greater than the particle diameter of described 3rd class material.

3. efficient mixing dual spindle vertical mixer according to claim 1, is characterized in that, described first antipriming pipe adopts stainless steel to make.

4. efficient mixing dual spindle vertical mixer according to claim 1, is characterized in that, described second antipriming pipe adopts brass to make.

5. efficient mixing dual spindle vertical mixer according to claim 1, is characterized in that, described second base adopts cast iron to make.

6. efficient mixing dual spindle vertical mixer according to claim 1, it is characterized in that, the air output of described first blower fan is 1.2 times to 1.5 times of described second blower fan air output, and the air output of described second blower fan is 1.3 times to 1.4 times of described 3rd blower fan air output.

7. efficient mixing dual spindle vertical mixer according to claim 1, is characterized in that, described first antipriming pipe is provided with some first sieve apertures by the region that described first barrel covers, and the shape of described first sieve aperture is oval.

8. efficient mixing dual spindle vertical mixer according to claim 1, is characterized in that, described second antipriming pipe is provided with some second sieve apertures by the region that described second barrel covers, and the shape of described second sieve aperture is rhombus.

9. efficient mixing dual spindle vertical mixer according to claim 1, is characterized in that, described 3rd antipriming pipe is provided with some 3rd sieve apertures by the region that described 3rd barrel covers, and the shape of described 3rd sieve aperture is square.