CN203972026U - Classification ball-type system - Google Patents

Abstract

The utility model discloses a kind of classification ball-type system, it comprises that body frame, raw material feed system, main chamber's feed system, the shaping of air-supply/tup go corner angle system, classification to remove Ultramicro-powder system, hydraulic pressure adjustment System and finished product blanking system.The beneficial effects of the utility model are: 1, storage tank dosing, disperses to supply with tube wall noresidue; 2, realize timing and supply with, negative pressure wind speed required while grinding in corner angle process can be provided; 3, realized while removing corner angle the sieving and grading of ultrafine powder in process of lapping, go little stay large; 4, go corner angle ball-type chemical combination lattice product percent of pass high, and can timing discharging.

Description

Classification ball-type system

Technical field

The utility model relates to powder in a kind of industrial circle and removes corner angle, reaches the dedicated system equipment of ball-type, especially a kind of classification ball-type system.

Background technology

In powder crushing process in industrial circle, there is corner angle powder, have the existence of ultrafine powder, do not reach effect so that cause in actual application, make powder product utilization rate reduction in actual use, product qualified rate is lower.

Summary of the invention

The technical problems to be solved in the utility model is to provide the classification ball-type system that in a kind of actual use, utilization rate is high, product qualified rate is high.

In order to solve the problems of the technologies described above, the utility model comprises

Body frame, it is for bearing system all parts;

Raw material feed system, it comprises raw material motor, material tube, raw material tooth casing, bulk cargo bar, raw material feeding spiro rod and the adapter setting gradually from top to bottom, pipe material, the first dish valve, treat pipe material, the second dish valve, transition conduit, the input of described raw material motor and raw material tooth casing is in transmission connection, the output of this raw material tooth casing and bulk cargo bar and raw material feeding spiro rod are in transmission connection, described bulk cargo bar is arranged on described material tube inside and is positioned at described raw material feeding spiro rod top, between described material tube bottom and adapter top, be formed with a feeding-passage, described raw material feeding spiro rod is arranged in described feeding-passage, described the first dish valve and the second dish valve alternately open and close mutually,

Main chamber's feed system, the clean mouth of clean inwall when it comprises feeding motor, feeding spiro rod and easy access, described feeding motor and described feeding spiro rod are in transmission connection, between described transition conduit bottom and inside, main chamber, be formed with a feeding channel, this feeding channel is fixed on described body frame by support bar, described feeding spiro rod is arranged in described feeding channel, and described clean mouthful is arranged on described feeding channel;

Corner angle system is gone in the shaping of air-supply/tup, it comprises main motor, shaping tup main shaft, air-supply operating room, tup operating room main stor(e)y, lotus flower, multiple tups, external toothing, tup clamping screw, air intake accelerates circle, lotus flower locking nut, collet, the indoor circle of gas distribution and gas distribution outdoor coil, described main motor is connected with described shaping tup spindle drive, described tup operating room main stor(e)y arranges with the upper and lower corresponding connection in described air-supply operating room, described air-supply operating room is circumscribed with a blast pipe and this air-supply operating room is fixed on described body frame, on described tup operating room main stor(e)y internal ring wall, be connected with described external toothing, described external toothing bottom is provided with successively from down to up air intake and accelerates circle, collet, lotus flower, described air intake accelerate circle be bolted with air-supply operating room together with and this air intake accelerate to enclose between external toothing and be formed with gap, described collet and lotus flower are socketed on described shaping tup main shaft and are locked by lotus flower locking nut, multiple described tups are distributed on described collet and between tup and external toothing and are formed with gap by corresponding tup clamping screw, the hole enlargement gradually from down to up of the indoor circle of described gas distribution, between the indoor circle of this gas distribution and gas distribution outdoor coil, be fixed together by support, described gas distribution outdoor coil is fixed on tup operating room main stor(e)y internal ring wall,

Ultramicro-powder system is gone in classification, it comprises classification motor, classification main shaft, for the grading wheel of different big or small particle classifyings, grading wheel operating room main stor(e)y, Ultramicro-powder passageway, Ultramicro-powder pipeline and snap close, described classification motor is connected with described classification spindle drive, described grading wheel is fixed in classification spindle nose, main stor(e)y bottom, described grading wheel operating room is communicated with affixed with described tup operating room main stor(e)y, top can be communicated with affixed with described Ultramicro-powder passageway by described snap close removably, the described main chamber of the common formation of this grading wheel operating room main stor(e)y and described tup operating room main stor(e)y, between described Ultramicro-powder passageway and grading wheel operating room main stor(e)y, be provided with classification operating room main stor(e)y hermetic seal, between this classification operating room main stor(e)y hermetic seal and described grading wheel, be formed with gap, described Ultramicro-powder passageway is also circumscribed with a described Ultramicro-powder pipeline that can produce negative pressure exhausting,

Hydraulic pressure adjustment System, it comprises oil cylinder, adjusting rod fixed cover, adjusting rod, clamping device, rotating shaft bearing, rotating shaft, hand-operated wheel and swing arm, described adjusting rod fixed cover is fixed on described body frame, described adjusting rod is inserted in adjusting rod fixed cover and by described oil cylinder control lifting, described clamping device is fixed on adjusting rod, described swing arm one end can swingingly be connected with clamping device with rotating shaft by rotating shaft bearing, the other end and described Ultramicro-powder passageway are affixed, described rotating shaft and described hand-operated wheel are in transmission connection, can control described swing arm swing by rotating hand-operated wheel,

And finished product blanking system, it comprises the multiple vibration hammers for preventing that powder from having wall sticking phenomenon to occur, finished product discharging cylinder, valve, finished product blanking interface, finished product blanking converting interface and the 3rd dish valve, described valve is arranged on described grading wheel operating room main stor(e)y and by the control of described finished product discharging cylinder and opens and closes, described finished product blanking interface and finished product blanking converting interface are communicated with affixed integral and be tilted to lower setting, wherein, the upper port of this finished product blanking interface is communicated with setting with described valve, this finished product blanking converting interface lower port is provided with described the 3rd dish valve, described valve and the 3rd dish valve alternately open and close mutually, multiple described vibration hammers are arranged on respectively on the shell of described finished product blanking interface and finished product blanking converting interface.

Described grading wheel is the drum-shaped closing under an overhead, and this grading wheel is circumferentially evenly distributed with 100 blades, wherein between two adjacent blades, is formed with the gap of coming in and going out for powder, and the gap between described grading wheel and the main stor(e)y hermetic seal of classification operating room is 0.3mm.

Oil seal, classification bearing and the classification hermetic seal of avoiding ultrafine powder to enter main shaft bearing are also housed on described classification main shaft.

The gap that described air intake accelerates between circle and external toothing is 3mm, and this air intake accelerates to have formed and had an interior large outer little angle between circle and collet.

Described lotus flower comprises annulus and lower plectane and is distributed on multiple plates between the two, and the diameter of described upper annulus is greater than the diameter of lower plectane.

The angle that each described tup is between prismatic and adjacent two tups is 30 °, and the gap between each described tup and external toothing can be adjusted according to need of production, and the adjusting range in this gap is 0.3mm-5mm.

The hermetic seal of tup main shaft, the sealing of bell head main shaft oil and bearing for ensureing described air-supply operating room sealing are also housed on described shaping tup main shaft.

The beneficial effects of the utility model are: 1, storage tank dosing, disperses to supply with tube wall noresidue; 2, realize timing and supply with, negative pressure wind speed required while grinding in corner angle process can be provided; 3, realized while removing corner angle the sieving and grading of ultrafine powder in process of lapping, go little stay large; 4, go corner angle ball-type chemical combination lattice product percent of pass high, and can timing discharging.

Brief description of the drawings

Fig. 1 is the utility model classification ball-type system perspective view;

Fig. 2 is that the utility model classification ball-type system master looks schematic diagram;

Fig. 3 is that the utility model classification ball-type system master looks cut-away illustration;

Fig. 4 is that schematic diagram is looked on the utility model classification ball-type system right side;

Fig. 5 is that cut-away illustration is looked on the utility model classification ball-type system right side;

Fig. 6 is the part-structure enlarged diagram in Fig. 5;

Fig. 7 is the utility model classification ball-type system schematic rear view;

Fig. 8 is the schematic top plan view of Fig. 4;

Fig. 9 is the perspective view of grading wheel in the utility model;

Figure 10 is the perspective view that in the utility model, tup, collet, lotus flower, external toothing are combined;

Figure 11 is the schematic top plan view of Figure 10;

Figure 12 is that the master of Figure 10 looks cut-away illustration.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail:

Referring to Fig. 1 to Figure 12, the utility model comprises that body frame 67, raw material feed system, main chamber's feed system, the shaping of air-supply/tup go corner angle system, classification to remove Ultramicro-powder system, hydraulic pressure adjustment System and finished product blanking system, and the concrete structure of each system is as follows:

1, body frame 67, it is for bearing system all parts.

2, raw material feed system, it comprises raw material motor 55, material tube 2, raw material tooth casing 4, bulk cargo bar 5, raw material feeding spiro rod 8 and the adapter 21 setting gradually from top to bottom, pipe material 9, the first dish valve 10, treat pipe material 11, the second dish valve 12, transition conduit 13, described raw material motor 55 is in transmission connection with the input of raw material tooth casing 4, the output of this raw material tooth casing 4 and bulk cargo bar 5 and raw material feeding spiro rod 8 are in transmission connection, described bulk cargo bar 5 is arranged on described material tube 2 inside and is positioned at described raw material feeding spiro rod 8 tops, between described material tube 2 bottoms and adapter 21 tops, be formed with a feeding-passage, described raw material feeding spiro rod 8 is arranged in described feeding-passage, described the first dish valve 10 and the second dish valve 12 alternately open and close mutually.

Wherein, material tube 2 upper ends are provided with cover 1, and lower end is provided with transitional cylinder 3, and described cover 1 upper port has raw material charging port, and described transitional cylinder 3 is connected between material tube 2 and feeding-passage, play the effect of guiding blanking; Raw material tooth casing 4 is fixed in transitional cylinder 3 bottoms by base plate 7, and these raw material tooth casing 4 ends are also provided with gear box cover 6.

Raw material drives raw material tooth casing 4 by raw material motor 55, raw material gear housing 4 drives bulk cargo bar 5 and raw material feeding spiro rod 8 simultaneously, bulk cargo bar 5 is in order to break up raw material, avoid raw bodies too real next difficult to feeding belt, cause putty, cause material tube 2 have material and feeding spiro rod (8) without material can give, affect integral production operate.

The first dish valve 10 and the second dish valve 12 are that alternate with each other closing opened in whole process, when the first dish valve 10 activates to open, the second dish valve 12 just disconnects closed, the first dish valve 10 disconnects closed time, the second dish valve 12 just activates to open, be to supply with at regular time and quantity with regard to having formed the raw material for the treatment of in pipe material 11 like this, facilitate the demand of follow-up work.

3, main chamber's feed system, the clean mouth 14 of clean inwall when it comprises feeding motor 54, feeding spiro rod 16 and easy access, described feeding motor 54 is in transmission connection with described feeding spiro rod 16, between described transition conduit 13 bottoms and inside, main chamber, be formed with a feeding channel, this feeding channel is fixed on described body frame 67 by support bar, described feeding spiro rod 16 is arranged in described feeding channel, and described clean mouthful 14 is arranged on described feeding channel.

Main chamber's feed system is dispersed in order further raw material to be carried out, and facilitates main body to carry out integer, removes corner angle, while quitting work, also plays and prevents that main chamber is in integer process, the effect that semi-finished product raw material is return in a working cycles simultaneously.

Described clean mouthful 14 is for inwall convenient for cleaning in overhauling machine.

Described feeding motor 54 drives the raw material that feeding spiro rod 16 is sent top here to be evenly transported in main chamber by screw rod.

4, corner angle system is gone in the shaping of air-supply/tup, it comprises main motor 56, shaping tup main shaft 73, air-supply operating room 72, tup operating room main stor(e)y 44, lotus flower 59, multiple tups 60, external toothing 61, tup clamping screw 62, air intake accelerates circle 63, lotus flower locking nut 64, collet 65, the indoor circle 70 of gas distribution and gas distribution outdoor coil 71, described main motor 56 is in transmission connection with described shaping tup main shaft 73, described tup operating room main stor(e)y 44 and the corresponding connection setting Shang Xia 72 of described air-supply operating room, described air-supply operating room 72 is circumscribed with a blast pipe 20 and this air-supply operating room 72 is fixed on described body frame 67, on described tup operating room main stor(e)y 44 internal ring walls, be connected with described external toothing 61, described external toothing 61 bottoms are provided with successively from down to up air intake and accelerate circle 63, collet 65, lotus flower 59, together with described air intake acceleration circle 63 is bolted with air-supply operating room 72 and between this air intake acceleration circle 63 and external toothing 61, be formed with gap, described collet 65 and lotus flower 59 are socketed on described shaping tup main shaft 73 and are locked by lotus flower locking nut 64, multiple described tups 60 are distributed on described collet 65 and between tup 60 and external toothing 61 and are formed with gap by corresponding tup clamping screw 62, the hole enlargement gradually from down to up of the indoor circle 70 of described gas distribution, between the indoor circle 70 of this gas distribution and gas distribution outdoor coil 71, be fixed together by support, described gas distribution outdoor coil 71 is fixed on tup operating room main stor(e)y 44 internal ring walls.

Wherein, on main motor 56 main shafts He on shaping tup main shaft 73, be respectively equipped with main motor pulley 17 and tup spindle pulley 19, both connect by belt transmission, on this belt, be also provided with main motor belt adjusting rod 42, in addition, tup spindle pulley 19 is affixed by tup spindle pulley pin key 38 and shaping tup main shaft 73.

Described external toothing 61 bonds together by brute force with tup operating room main stor(e)y 44, on this external toothing 61, is also provided with shop bolt 58, and it is to play positioning action between external toothing 61 and the indoor circle 70 of gas distribution and gas separation chamber outer ring 71.

The gap that described air intake accelerates between circle 63 and external toothing 61 is 3mm, and this air intake accelerates to have formed and had an interior large outer little angle between circle 63 and collet 65.So not only solve air-supply acceleration problem, also ensured that the raw material in main chamber's cavity can not drop in air-supply main chamber in process simultaneously.

Described lotus flower 59 comprises annulus and lower plectane and is distributed on multiple plates between the two, and the diameter of described upper annulus is greater than the diameter of lower plectane.It is the dispersiveness of going corner angle process in order to strengthen raw material in shaping that this lotus flower 58 is designed to lotus shape, also can in main chamber, form the air channel of a circulation simultaneously, allows shaping have more integrality.

The angle that each described tup 60 is between prismatic and adjacent two tups 60 is 30 °, tup 60 is designed to prismatic, strengthen the stability of tup, the generation of the product heat in shaping process also ensureing, the distribution of journey rule 30 degree on collet 65, strengthened stationarity, the efficiency in the production process simultaneously also ensureing, allows shaping go corner angle more reasonable.Gap between each described tup 60 and external toothing 61 can be adjusted according to need of production, and the adjusting range in this gap is 0.3mm-5mm.

Tup main shaft hermetic seal 35, the sealing 36 of bell head main shaft oil and bearing 37 for ensureing described air-supply operating room 72 sealings are also housed on described shaping tup main shaft 73.Such structural design has ensured that powder can not enter bearing, causes bearing spigot dead, has also ensured the lubricity of bearing simultaneously.

5, Ultramicro-powder system is gone in classification, it comprises classification motor 57, classification main shaft 28, for the grading wheel 74 of different big or small particle classifyings, grading wheel operating room main stor(e)y 45, Ultramicro-powder passageway 47, Ultramicro-powder pipeline 66 and snap close 69, described classification motor 57 is in transmission connection with described classification main shaft 28, described grading wheel 74 is fixed in classification main shaft 28 ends, main stor(e)y 45 bottoms, described grading wheel operating room are communicated with affixed with described tup operating room main stor(e)y 44, top can be communicated with affixed with described Ultramicro-powder passageway 47 by described snap close 69 removably, this grading wheel operating room main stor(e)y 45 and the described tup operating room main stor(e)y 44 described main chambers of common formation, between described Ultramicro-powder passageway 47 and grading wheel operating room main stor(e)y 45, be provided with classification operating room main stor(e)y hermetic seal 46, between this classification operating room main stor(e)y hermetic seal 46 and described grading wheel 74, be formed with gap, described Ultramicro-powder passageway 47 is also circumscribed with a described Ultramicro-powder pipeline 66 that can produce negative pressure exhausting.

Wherein, described classification motor 57 is arranged in swing arm by classification motor fixing plate 24, these classification motor 57 ends are also provided with classification motor fixed cover 22, on described classification motor 57 main shafts and classification main shaft 28, be respectively equipped with classification motor pulley 52 and classification spindle pulley 23, both connect by belt transmission, are also provided with classification motor belt adjusting rod 53 on this belt.

Described grading wheel 74 is the drum-shaped closing under an overhead, this grading wheel 74 is circumferentially evenly distributed with 100 blades, wherein between two adjacent blades, be formed with the gap of coming in and going out for powder, due to gapped between blade and blade, powder can be come in and gone out, in High Rotation Speed process, gap also can be more and more less, can form a closed loop after reaching certain speed, and in the time of suitable rotating speed, ultrafine powder just can enter, powder macroparticle enters not go, and so just can reach the effect of classification.

Gap between described grading wheel 74 and classification operating room main stor(e)y hermetic seal 46 is 0.3mm, has the design of classification operating room main stor(e)y hermetic seal 46 effectively to prevent the phenomenon that grading wheel is stuck, classification hermetic seal 27 work in air pressure air feed at 0.6Mpa.

Oil seal 25, classification bearing 26 and the classification hermetic seal 27 of avoiding ultrafine powder to enter main shaft bearing are also housed on described classification main shaft 28.Ensure like this need of work of classification main shaft, also played and prevented that ultrafine powder from entering main shaft bearing with time stage hermetic seal 27, occurred stuck phenomenon.

6, hydraulic pressure adjustment System, it comprises oil cylinder 39, adjusting rod fixed cover 43, adjusting rod 48, clamping device 49, rotating shaft bearing 50, rotating shaft 51, hand-operated wheel 68 and swing arm, described adjusting rod fixed cover 43 is fixed on described body frame 67, described adjusting rod 48 is inserted in adjusting rod fixed cover 43 and controls lifting by described oil cylinder 39, oil cylinder 39 top one sides are provided with cylinder connector 40, described clamping device 49 is fixed on adjusting rod 48, described swing arm one end can swingingly be connected with clamping device 49 with rotating shaft 51 by rotating shaft bearing 50, the other end and described Ultramicro-powder passageway 47 are affixed, described rotating shaft 51 is in transmission connection with described hand-operated wheel 68, can control described swing arm swing by rotating hand-operated wheel 68.

When grading wheel is safeguarded and is changed, unclamp snap close 69, oil cylinder 39 starts and rises, and drives classification to go Ultramicro-powder system to rise to correct position, rotates hand-operated wheel 68 classification is gone micro-system 90-degree rotation to maintain easily and keeped in repair.

7, finished product blanking system, it comprises the multiple vibration hammers 29 for preventing that powder from having wall sticking phenomenon to occur, finished product discharging cylinder 30, valve 31, finished product blanking interface 32, finished product blanking converting interface 33 and the 3rd dish valve 34, described valve 31 is arranged on described grading wheel operating room main stor(e)y 45 and by described finished product discharging cylinder 30 and controls keying, described finished product blanking interface 32 and finished product blanking converting interface 33 are communicated with affixed integral and be tilted to lower setting, wherein, the upper port of this finished product blanking interface 32 is communicated with setting with described valve 31, these finished product blanking converting interface 33 lower port are provided with described the 3rd dish valve 34, described valve 31 and the 3rd dish valve 34 alternately open and close mutually, multiple described vibration hammers 29 are arranged on respectively on the shell of described finished product blanking interface 32 and finished product blanking converting interface 33.

In the time that finished product discharging cylinder 30 starts, open valve 31, under finished product, start to finished product lower interface 32 and finished product blanking converting interface 33, the three dish valves 34, finished product discharging cylinder 30 is closed.

Vibration hammer 29 is in order to prevent that powder from having wall sticking phenomenon, to beat, playing shock effect.

A kind of process realizing according to described classification ball-type system comprises the steps:

1) when raw material enters after material tube, raw material motor 55 starts, under the effect of raw material feeding spiro rod 8, through pipe material 9, the first dish valve 10 starts, the second dish valve 12 cuts out simultaneously, and raw material enters treats pipe material 11, controls by the make-and-break time of controlling the first dish valve 10 and the second dish valve 12 conveying capacity entering to main chamber's feed system;

2) in the time that main chamber's feed system goes corner angle system feed to start to the shaping of air-supply/tup, the shaping of air-supply/tup goes corner angle system also to work simultaneously, control each input quantity by the time, in the time that input quantity arrives, main chamber's feed system quits work, and classification goes Ultramicro-powder system to start, when corner angle system works is gone in the shaping of air-supply/tup, the continual air-supply of blast pipe 20, blast is 0.4MPa;

When classification goes Ultramicro-powder system to start, Ultramicro-powder pipeline 66 is by negative pressure exhausting, and ultrafine powder, by the control of the rotary speed of grading wheel 74, detaches main chamber by ultrafine powder, leaves shaping and go the qualified products of corner angle;

3) after an air-supply/tup shaping goes corner angle system time to complete, classification goes the negative pressure of Ultramicro-powder system to quit work, grading wheel 74 works on, the shaping of air-supply/tup goes corner angle system to work on, and finished product blanking system starts, and finished product discharging cylinder 30 activates to open valve 31, under finished product, arrive finished product blanking interface 32 and finished product blanking converting interface 33, the 3rd dish valve 34 starts, and finished product discharging cylinder 30 is closed, and completes finished product discharging.

Above three steps are cycle circulation timei.In whole cycle period, raw material motor 55 raw material feeding spiro rods 8 are always in running order, and the conveying capacity of raw material is to control with the make-and-break time between the first dish valve 10 and the second dish valve 11.In whole cycle period, to cycle period of main chamber's feed system, break-make once.The negative pressure exhausting break-make that Ultramicro-powder system is gone in classification in whole cycle period once.In whole cycle period, the shaping of air-supply/tup goes corner angle system always in running order, does not need to quit work.In whole cycle period, finished product blanking system break-make once.In whole cycle period, vibration hammer 29 continuous firing always, does not stop.

In sum, content of the present utility model is not limited in the above-described embodiment, and those skilled in the art can propose other embodiment within technological guidance's thought of the present utility model, but within these embodiment are included in scope of the present utility model.

Claims (7)

1. a classification ball-type system, is characterized in that: comprise

Body frame (67), it is for bearing system all parts;

Raw material feed system, it comprises raw material motor (55), material tube (2), raw material tooth casing (4), bulk cargo bar (5), raw material feeding spiro rod (8) and the adapter (21) setting gradually from top to bottom, pipe material (9), the first dish valve (10), treat pipe material (11), the second dish valve (12), transition conduit (13), described raw material motor (55) is in transmission connection with the input of raw material tooth casing (4), the output of this raw material tooth casing (4) and bulk cargo bar (5) and raw material feeding spiro rod (8) are in transmission connection, described bulk cargo bar (5) is arranged on described material tube (2) inside and is positioned at described raw material feeding spiro rod (8) top, between described material tube (2) bottom and adapter (21) top, be formed with a feeding-passage, described raw material feeding spiro rod (8) is arranged in described feeding-passage, described the first dish valve (10) and the second dish valve (12) alternately open and close mutually,

Main chamber's feed system, when it comprises feeding motor (54), feeding spiro rod (16) and easy access clean mouthful (14) of clean inwall, described feeding motor (54) is in transmission connection with described feeding spiro rod (16), between described transition conduit (13) bottom and inside, main chamber, be formed with a feeding channel, this feeding channel is fixed on described body frame (67) by support bar, described feeding spiro rod (16) is arranged in described feeding channel, and described clean mouthful (14) are arranged on described feeding channel;

Corner angle system is gone in the shaping of air-supply/tup, it comprises main motor (56), shaping tup main shaft (73), air-supply operating room (72), tup operating room main stor(e)y (44), lotus flower (59), multiple tups (60), external toothing (61), tup clamping screw (62), air intake accelerates circle (63), lotus flower locking nut (64), collet (65), the indoor circle of gas distribution (70) and gas distribution outdoor coil (71), described main motor (56) is in transmission connection with described shaping tup main shaft (73), described tup operating room main stor(e)y (44) arranges with the upper and lower corresponding connection in described air-supply operating room (72), described air-supply operating room (72) is circumscribed with a blast pipe (20) and this air-supply operating room (72) is fixed on described body frame (67), on described tup operating room main stor(e)y (44) internal ring wall, be connected with described external toothing (61), described external toothing (61) bottom is provided with successively from down to up air intake and accelerates circle (63), collet (65), lotus flower (59), together with described air intake acceleration circle (63) is bolted with air-supply operating room (72) and between this air intake acceleration circle (63) and external toothing (61), be formed with gap, described collet (65) and lotus flower (59) are socketed in described shaping tup main shaft (73) above and are locked by lotus flower locking nut (64), multiple described tups (60) are distributed on described collet (65) by corresponding tup clamping screw (62) and above and between tup (60) and external toothing (61) are formed with gap, the indoor circle of described gas distribution (70) hole enlargement gradually from down to up, between the indoor circle of this gas distribution (70) and gas distribution outdoor coil (71), be fixed together by support, described gas distribution outdoor coil (71) is fixed on tup operating room main stor(e)y (44) internal ring wall,

Ultramicro-powder system is gone in classification, it comprises classification motor (57), classification main shaft (28), for the grading wheel (74) of different big or small particle classifyings, grading wheel operating room main stor(e)y (45), Ultramicro-powder passageway (47), Ultramicro-powder pipeline (66) and snap close (69), described classification motor (57) is in transmission connection with described classification main shaft (28), described grading wheel (74) is fixed in classification main shaft (28) end, described grading wheel operating room main stor(e)y (45) bottom is communicated with affixed with described tup operating room main stor(e)y (44), top can be communicated with affixed with described Ultramicro-powder passageway (47) by described snap close (69) removably, this grading wheel operating room main stor(e)y (45) forms described main chamber jointly with described tup operating room main stor(e)y (44), between described Ultramicro-powder passageway (47) and grading wheel operating room main stor(e)y (45), be provided with a classification operating room main stor(e)y hermetic seal (46), between this classification operating room main stor(e)y hermetic seal (46) and described grading wheel (74), be formed with gap, described Ultramicro-powder passageway (47) is also circumscribed with a described Ultramicro-powder pipeline (66) that can produce negative pressure exhausting,

Hydraulic pressure adjustment System, it comprises oil cylinder (39), adjusting rod fixed cover (43), adjusting rod (48), clamping device (49), rotating shaft bearing (50), rotating shaft (51), hand-operated wheel (68) and swing arm, described adjusting rod fixed cover (43) is fixed on described body frame (67), described adjusting rod (48) is inserted in adjusting rod fixed cover (43) and by described oil cylinder (39) and controls lifting, described clamping device (49) is fixed on adjusting rod (48), described swing arm one end can swingingly be connected with clamping device (49) with rotating shaft (51) by rotating shaft bearing (50), the other end and described Ultramicro-powder passageway (47) are affixed, described rotating shaft (51) is in transmission connection with described hand-operated wheel (68), can control described swing arm swing by rotating hand-operated wheel (68),

And finished product blanking system, it comprises the multiple vibration hammers (29) for preventing that powder from having wall sticking phenomenon to occur, finished product discharging cylinder (30), valve (31), finished product blanking interface (32), finished product blanking converting interface (33) and the 3rd dish valve (34), described valve (31) is arranged on described grading wheel operating room main stor(e)y (45) above and is controlled and opened and closed by described finished product discharging cylinder (30), described finished product blanking interface (32) and finished product blanking converting interface (33) are communicated with affixed integral and be tilted to lower setting, wherein, the upper port of this finished product blanking interface (32) is communicated with setting with described valve (31), this finished product blanking converting interface (33) lower port is provided with described the 3rd dish valve (34), described valve (31) and the 3rd dish valve (34) alternately open and close mutually, multiple described vibration hammers (29) are arranged on respectively on the shell of described finished product blanking interface (32) and finished product blanking converting interface (33).

2. according to classification ball-type system claimed in claim 1, it is characterized in that: described grading wheel (74) is the drum-shaped closing under an overhead, this grading wheel (74) is circumferentially evenly distributed with 100 blades, wherein between two adjacent blades, be formed with the gap of coming in and going out for powder, the gap between described grading wheel (74) and classification operating room main stor(e)y hermetic seal (46) is 0.3mm.

3. according to classification ball-type system claimed in claim 2, it is characterized in that: oil seal (25), classification bearing (26) and the classification hermetic seal (27) of avoiding ultrafine powder to enter main shaft bearing are also housed on described classification main shaft (28).

4. according to classification ball-type system claimed in claim 1, it is characterized in that: the gap that described air intake accelerates between circle (63) and external toothing (61) is 3mm, this air intake accelerates to have formed and had an interior large outer little angle between circle (63) and collet (65).

5. according to classification ball-type system claimed in claim 4, it is characterized in that: described lotus flower (59) comprises annulus and lower plectane and be distributed on multiple plates between the two, the diameter of described upper annulus is greater than the diameter of lower plectane.

6. according to classification ball-type system claimed in claim 5, it is characterized in that: the angle that each described tup (60) is between prismatic and adjacent two tups (60) is 30 °, gap between each described tup (60) and external toothing (61) can be adjusted according to need of production, and the adjusting range in this gap is 0.3mm-5mm.

7. according to classification ball-type system claimed in claim 6, it is characterized in that: tup main shaft hermetic seal (35), the sealing of bell head main shaft oil (36) and bearing (37) for ensureing described air-supply operating room (72) sealing are also housed on described shaping tup main shaft (73).