CN203917150U - Novel pair of transmission environment protection energy-saving efficient separator - Google Patents

Abstract

The utility model discloses novel pair of transmission environment protection energy-saving efficient separator, comprise main support, charging aperture, top separating chamber, rewinding chamber, bottom, bottom separating chamber, meal discharging opening, spreading plate, striker plate, rotor, guide vane, inner cone, fiaring cone, lower rotor; Described inner cone connects with top separating chamber, and inner cone to be placed in bottom rewinding indoor, described meal discharging opening is arranged on bottom separating chamber bottom; Described fiaring cone is arranged in the separating chamber of bottom, and fiaring cone is connected with inner cone; Described lower rotor is arranged in the separating chamber of bottom, and lower rotor is positioned at fiaring cone below, thoroughly solving in grinding process meal fine powder (finished product) again gets back to and in milling equipment, repeats again grinding problem, in improving the efficiency and output of milling apparatus, steel consumption, the power consumption of grinder equipment are reduced, reduce production costs, only imitate up to more than 95% by the material choosing after twice point (choosing) level.

Description

Novel pair of transmission environment protection energy-saving efficient separator

Technical field

The utility model relates to building materials, metallurgy, chemical powder feed separation field, specifically, is novel pair of transmission environment protection energy-saving efficient separator.

Background technology

At building materials, metallurgical, in the process of chemical industry, after often the material of bulk being ground, carrying out sorting by powder concentrator, the fine powder that conforms with materials standard is carried out to processes is manufactured goods, and the coarse fodder that does not conform with materials standard grinds rear sorting again, but existing powder concentrator is by after spreading disk spreading, material enters separating chamber and only carries out a sorting, meal separates not thorough, a large amount of fine powders and meal mix and enter bottom cone and get back to grinding machine and again grind, fine powder and meal are mixed into grind in grinder and will aggravate grinder and repeat acting, steel ball loss in aggravation grinder, and because flour mill is a kind of highly energy-consuming equipment, accordingly by increase production cost time, also can cause powder concentrator grinding efficiency low (ratio of sorting and cleaning is low generally in 35% left and right), yield poorly, system energy consumption is high.

Utility model content

The purpose of this utility model is thoroughly to solve fine powder in grinding process meal (finished product) and again gets back to and in milling equipment, repeat again grinding problem, novel pair of transmission environment protection energy-saving efficient separator is provided, optimization is meticulous select powder to separate fine powder (finished product) in, utilize the hydromechanical principle of centrifugal force technology and air force that meal is separated, divide (choosing) level, avoiding having a large amount of fine powder (finished product) to enter in milling apparatus in meal repeats to grind, in improving the efficiency and output of milling apparatus, reduce the steel consumption of grinder equipment, power consumption, reduce production costs, only imitate up to more than 95% by the material choosing after twice point (choosing) level.

The utility model is achieved through the following technical solutions: novel pair of transmission environment protection energy-saving efficient separator, comprises main support, charging aperture, top separating chamber, rewinding chamber, bottom, bottom separating chamber, meal discharging opening, spreading plate, striker plate, rotor, guide vane, inner cone, fiaring cone, lower rotor, described main support runs through fixing top separating chamber and bottom separating chamber, described top separating chamber is connected with rewinding chamber, bottom, rewinding chamber, described bottom and bottom separating chamber are arranged at top separating chamber bottom, and rewinding chamber, bottom is placed in the separating chamber of bottom, and described charging aperture is connected with top separating chamber, described guide vane and rotor are placed in the separating chamber of top, and rotor is placed in guide vane inner side, and described spreading plate is placed in striker plate top, and described striker plate is placed in rotor and guide vane top, described inner cone connects with top separating chamber, and inner cone to be placed in bottom rewinding indoor, described meal discharging opening is arranged on bottom separating chamber bottom, described fiaring cone is arranged in the separating chamber of bottom, and fiaring cone is connected with inner cone, described lower rotor is arranged in the separating chamber of bottom, and lower rotor is positioned at fiaring cone below, thoroughly solving in grinding process meal fine powder (finished product) again gets back to and in milling equipment, repeats again grinding problem, optimization is meticulous select powder to separate fine powder (finished product) in, utilize the hydromechanical principle of centrifugal force technology and air force that meal is separated, divide (choosing) level, avoiding having a large amount of fine powder (finished product) to enter in milling apparatus in meal repeats to grind, in improving the efficiency and output of milling apparatus, reduce the steel consumption of grinder equipment, power consumption, reduce production costs.

Further, for better realizing the utility model, can make rotor, guide vane long-term in stable duty, be arranged to especially following structure: also comprise top drive apparatus and upload moving axis, described transmission device is placed on main support, and described top drive apparatus connects with rotor by uploading moving axis.

Further, for better realizing the utility model, can make lower rotor long-term in stable duty, be arranged to especially following structure: also comprise bottom power transmission shaft and bottom driving device, described bottom driving device connects with lower rotor by bottom power transmission shaft.

Further, for better realizing the utility model, in the separating chamber of bottom, can form good cloth wind effect, be arranged to especially following structure: also comprise air inlet, described air inlet is connected with bottom separating chamber, and described air inlet is set to the air intake of 1-6 direction, utilize the air intake of 1-6 direction can be in the separating chamber of bottom even distributing wind, make it form stronger vortex fluid, divide (choosing) level effect thereby reach best sorting.

Further, for better realizing the utility model, material is selected after by bottom separation chamber secondary sorting and is collected and get back to milling apparatus through meal feeding back device after meal and again grind, following structure is set especially: also comprise meal gathering-device, described meal gathering-device connects with bottom, rewinding chamber, bottom, and meal gathering-device is positioned at bottom separating chamber, due to centrifugal force and the horizontal vortex effect of lower rotor, make thick, fine powder is separated and falls into bottom separating chamber, meal is sent to milling apparatus and again grinds after the meal collection channel that is arranged on bottom, rewinding chamber, bottom and is positioned at bottom separating chamber is collected.

Further, for better realizing the utility model, also comprise fine powder discharging opening, described fine powder discharging opening is connected with top separating chamber, and under the connection effect of internal pipeline, all fine powders (finished product) that reach use standard all will be exported by fine powder discharging opening.

The utility model compared with prior art, has the following advantages and beneficial effect:

(1) the utility model thoroughly solves fine powder in grinding process meal (finished product) and again gets back to and in milling equipment, repeat again grinding problem, optimization is meticulous select powder to separate fine powder (finished product) in, utilize the hydromechanical principle of centrifugal force technology and air force to separate, divide (choosing) level by meal, avoiding having a large amount of fine powder (finished product) to enter in milling apparatus in meal repeats to grind, in improving the efficiency and output of milling apparatus, the steel consumption, the power consumption that have reduced grinder equipment, reduce production costs.Respond the industrial policy that national energy-saving reduces discharging, only imitated up to more than 95%, in world lead level by the material choosing after twice point (choosing) level.

(2) the utility model utilizes the centrifugal force of lower rotor and aerodynamics fluid mechanics principle to carry out the separation of meal, avoids inside to sneak into fine powder (finished product), increases the weight of the workmanship that repeats of milling apparatus, reduces production costs.

(3) meal that the utility model mixes in selected fine powder (finished product) in fiaring cone can divide (choosing) level again in the separating chamber of top, reaches optimized point (choosing) level, improves ratio of sorting and cleaning.

(4) air inlet described in the utility model can make air intake be uniformly distributed to reach finely dispersed object between material and wind, and the air intake that is set to 1-6 direction can adapt to the large mini-plant of different disposal amount.

Brief description of the drawings

Fig. 1 is structure chart of the present utility model.

Wherein, 1-main support, 2-fine powder discharging opening, 3-charging aperture, 4-top separating chamber, rewinding chamber, 5-bottom, 6-air inlet, 7-bottom separating chamber, 8-meal discharging opening, 9-top drive apparatus, 10-main shaft, 11-spreading plate, 12-striker plate, 13-rotor, 14-guide vane, 15-inner cone, 16-fiaring cone, 17-meal gathering-device, 18-lower rotor, 19-bottom power transmission shaft, 20-bottom driving device.

Detailed description of the invention

Below in conjunction with embodiment, the utility model is described in further detail, but embodiment of the present utility model is not limited to this.

Embodiment 1:

Novel pair of transmission environment protection energy-saving efficient separator, as shown in Figure 1, comprise main support 1, charging aperture 3, top separating chamber 4, rewinding chamber, bottom 5, bottom separating chamber 7, meal discharging opening 8, spreading plate 11, striker plate 12, rotor 13, guide vane 14, inner cone 15, fiaring cone 16, lower rotor 18; Described main support 1 runs through fixing top separating chamber 4 and bottom separating chamber 7, described top separating chamber 4 is connected with rewinding chamber, bottom 5, rewinding chamber 5, described bottom and bottom separating chamber 7 are arranged at top separating chamber 4 bottoms, and rewinding chamber, bottom 5 is placed in bottom separating chamber 7, described charging aperture 3 is connected with top separating chamber 4; Described guide vane 14 and rotor 13 are placed in top separating chamber 4, and rotor 13 is placed in guide vane 14 inner sides, and described spreading plate 11 is placed in striker plate 12 tops, and described striker plate 12 is placed in rotor 13 and guide vane 14 tops; Described inner cone 15 connects with top separating chamber 4, and inner cone 15 is placed in rewinding chamber, bottom 5, and described meal discharging opening 8 is arranged on bottom separating chamber 7 bottoms; Described fiaring cone 16 is arranged in bottom separating chamber 7, and fiaring cone 16 is connected with inner cone 15; Described lower rotor 18 is arranged in bottom separating chamber 7, and lower rotor 18 is positioned at fiaring cone 16 belows.

In process, often divide (choosing) level grinding after the material fragmentation of bulk again by novel pair of transmission environment protection energy-saving efficient separator, divide the sorting of (choosing) level finally as fine powder (finished product) fine powder (finished product) that meets materials standard, and the coarse fodder that does not meet materials standard divide (choosing) grade sorting again after again grinding.

Material is fed after novel pair of transmission environment protection energy-saving efficient separator, by the spreading of spreading plate again by striker plate to surrounding equably after cloth, material enters top separating chamber and once divides (choosing) level, be collected by the fine powder (finished product) after the first fraction (choosing) level, a part of is not mixed and enters bottom separating chamber with meal by point fine powder (finished product) of (choosing) level, carry out secondary by lower part (choosing) stage arrangement again and divide (choosing) level, fine powder (finished product) is collected as fine powder (finished product) by finished product air outlet.

Concrete operation principle is: in the time of design, top separating chamber 4 be set to profile be circular or square and inner be circular separating chamber's structure, the material being come by conveying equipment enters top separating chamber 4 inside of novel pair of transmission environment protection energy-saving efficient separator by charging aperture 3, by spreading plate 11 to the even spreading of surrounding, material impacting is to the backward surrounding uniform distribution of striker plate 12, due to rotor 12 High Rotation Speeds, form horizontal vortex with guide vane 13, after material enters the territory, horizontal vortex powder-separating area that rotor 12 and wind blade 13 form, material completes classification for the first time under self gravitation effect and horizontal vortex effect in top separating chamber 4, the finished product that classification goes out will be collected by dust-precipitator, the fine powder that thick material and a part are not graded enters the rewinding chamber, bottom 5 of novel pair of transmission environment protection energy-saving efficient separator, enter novel pair of transmission environment protection energy-saving efficient separator rewinding chamber, bottom 5 material through in bottom separating chamber 7 by secondary grading after finished product along slowing down and rise in top separating chamber 4 by circular passage between inner cone 15 and Outer Taper, enter rotor 13 inside by guide vane 14 again, become more meticulous and select powder, selected fine powder out will be collected by dust-precipitator from finished product, meal will be by lower rotor 18, again grind in order to collecting.After two secondary sortings, thoroughly solve fine powder in grinding process meal (finished product) and again get back to and in milling equipment, repeat again grinding problem.Optimization is meticulous select powder to separate fine powder (finished product) in, utilize the hydromechanical principle of centrifugal force technology and air force to separate, divide (choosing) level by meal, avoiding having a large amount of fine powder (finished product) to enter in milling apparatus in meal repeats to grind, in improving the efficiency and output of milling apparatus, the steel consumption, the power consumption that have reduced grinder equipment, reduce production costs.Respond the industrial policy that national energy-saving reduces discharging, only imitated up to more than 95%, in world lead level by the material choosing after twice point (choosing) level.

Embodiment 2:

The present embodiment is at the enterprising one-step optimization in the basis of above-described embodiment, further, for better realizing the utility model, can make rotor, guide vane long-term in stable duty, as shown in Figure 1, be arranged to especially following structure: also comprise that top transmission establishes part 9 and main shaft 10, described transmission device 1 is placed on main support 2, and described top drive apparatus 9 connects with rotor 13 by main shaft 10.

Embodiment 3:

The present embodiment is at the enterprising one-step optimization in the basis of above-described embodiment, further, for better realizing the utility model, can make lower rotor long-term in stable duty, as shown in Figure 1, be arranged to especially following structure: also comprise bottom power transmission shaft 19 and bottom driving device 20, described bottom driving device 20 connects with lower rotor 18 by bottom power transmission shaft 19.

embodiment 4:

The present embodiment is at the enterprising one-step optimization in the basis of above-described embodiment, further, for better realizing the utility model, in the separating chamber of bottom, can form good cloth wind effect, as shown in Figure 1, be arranged to especially following structure: also comprise air inlet 6, described air inlet 6 is connected with bottom separating chamber 7, described air inlet 6 is set to the air inlet of 1-6 direction, utilize the air intake of 1-6 direction can be in the separating chamber of bottom even distributing wind, make it form stronger vortex fluid, divide (choosing) level effect thereby reach best sorting.

Embodiment 5:

The present embodiment is at the enterprising one-step optimization in the basis of above-described embodiment, further, for better realizing the utility model, for collecting and again grind by the meal of selecting in lower rotor and being placed in the separating chamber of bottom, as shown in Figure 1, following structure is set especially: also comprise meal gathering-device 17, described meal gathering-device 17 connects with 5 bottoms, rewinding chamber, bottom, and meal gathering-device 17 is positioned at bottom separating chamber 7, due to the centrifugal action of lower rotor 18, meal is separated and falls into bottom separating chamber 7, after the meal gathering-device that is arranged on 5 bottoms, rewinding chamber, bottom and is positioned at bottom separating chamber 7 is collected, be sent to milling apparatus and again grind.

Embodiment 6:

The present embodiment is at the enterprising one-step optimization in the basis of above-described embodiment, further, for better realizing the utility model, as shown in Figure 1, also comprise fine powder discharging opening 2, described fine powder discharging opening 2 is connected with top separating chamber 4, and under the connection effect of internal pipeline, all fine powder finished products that reach use standard all will be exported by fine powder discharging opening 2.

The utility model thoroughly solves fine powder in grinding process meal (finished product) and again gets back to and in milling equipment, repeat again grinding problem, optimization is meticulous select powder to separate fine powder (finished product) in, utilize the hydromechanical principle of centrifugal force technology and air force to separate, divide (choosing) level by meal, avoiding having a large amount of fine powder (finished product) to enter in milling apparatus in meal repeats to grind, in improving the efficiency and output of milling apparatus, the steel consumption, the power consumption that have reduced grinder equipment, reduce production costs.Respond the industrial policy that national energy-saving reduces discharging, only imitated up to more than 95%, in world lead level by the material choosing after twice point (choosing) level.

The above; it is only preferred embodiment of the present utility model; not the utility model is done to any pro forma restriction, any simple modification, equivalent variations that every foundation technical spirit of the present utility model is done above embodiment, within all falling into protection domain of the present utility model.

Claims (7)

1. novel pair of transmission environment protection energy-saving efficient separator, is characterized in that: comprise main support (1), charging aperture (3), top separating chamber (4), rewinding chamber, bottom (5), bottom separating chamber (7), meal discharging opening (8), spreading plate (11), striker plate (12), rotor (13), guide vane (14), inner cone (15), fiaring cone (16), lower rotor (18); Described main support (1) runs through fixing top separating chamber (4) and bottom separating chamber (7), described top separating chamber (4) is connected with rewinding chamber, bottom (5), rewinding chamber, described bottom (5) and bottom separating chamber (7) are arranged at top separating chamber (4) bottom, and rewinding chamber, bottom (5) is placed in bottom separating chamber (7), described charging aperture (3) is connected with top separating chamber (4); Described guide vane (14) and rotor (13) are placed in top separating chamber (4), and rotor (13) is placed in guide vane (14) inner side, described spreading plate (11) is placed in striker plate (12) top, and described striker plate (12) is placed in rotor (13) and guide vane (14) top; Described inner cone (15) connects with top separating chamber (4), and inner cone (15) is placed in rewinding chamber, bottom (5), and described meal discharging opening (8) is arranged on bottom separating chamber (7) bottom; Described fiaring cone (16) is arranged in bottom separating chamber (7), and fiaring cone (16) is connected with inner cone (15); Described lower rotor (18) is arranged in bottom separating chamber (7), and lower rotor (18) is positioned at fiaring cone (16) below.

2. novel pair of transmission environment protection energy-saving efficient separator according to claim 1, it is characterized in that: also comprise top drive apparatus (9) and main shaft (10), it is upper that described top transmission device (9) is placed in main support (2), and described top drive apparatus (9) connects by the same rotor of main shaft (10) (13).

3. novel pair of transmission environment protection energy-saving efficient separator according to claim 1, it is characterized in that: also comprise bottom power transmission shaft (19) and bottom driving device (20), described bottom driving device (20) connects by the same lower rotor of bottom power transmission shaft (19) (18).

4. novel pair of transmission environment protection energy-saving efficient separator according to claim 1, is characterized in that: also comprise air inlet (6), described air inlet (6) is connected with bottom separating chamber (7).

5. novel pair of transmission environment protection energy-saving efficient separator according to claim 4, is characterized in that: described air inlet (6) is set to the air intake of 1-6 direction.

6. novel pair of transmission environment protection energy-saving efficient separator according to claim 1, it is characterized in that: also comprise meal gathering-device (17), described meal gathering-device (17) connects with bottom, rewinding chamber, bottom (5), and meal gathering-device (17) is positioned at bottom separating chamber (7).

7. according to novel pair of transmission environment protection energy-saving efficient separator described in claim 1-6 any one, it is characterized in that: also comprise fine powder discharging opening (2), described fine powder discharging opening (2) is arranged on top separating chamber (4) top.