CN208853003U - A kind of ball mill agitation grinding system - Google Patents

Abstract

The utility model discloses a kind of ball mill agitation grinding systems, it is related to silicon nitride ceramic ball manufacture field, it include the ball milling unit being made of ball mill, ball mill is connected with the agitating unit for being pre-mixed stirring raw material, agitating unit includes the level-one agitator and second level agitator being connected, and charging line is communicated between level-one agitator and second level agitator, delivery pump is provided on charging line.The bottom of ladle body offers discharge port, feed inlet is formed at the top of ladle body, and be communicated with transfer pipe between the discharge port and ball mill of second level agitator.Mixed raw material stirs in level-one agitator first, transfers to stirring in second level agitator, finally enters and carry out grinding operation in ball mill.Mixed raw material is successively sufficiently stirred via level-one agitator and second level agitator before entering ball mill, so that mixed raw material is sufficiently mixed, to achieve the purpose that improve Ceramic Balls raw material mixing uniformity and Ceramic Balls following process operation quality.

Description

A kind of ball mill agitation grinding system

Technical field

The utility model relates to silicon nitride ceramic ball manufacture fields, more particularly, to a kind of ball mill agitation grinding system.

Background technique

Silicon nitride ceramic ball, be it is a kind of be sintered the high technology ceramics to be formed in non-oxidizing atmosphere high temperature, there is high intensity, it is high Wearability, high temperature resistant is corrosion-resistant, acid and alkali-resistance, the characteristic of the exhausted magnetic of insulation.Centrifugal force is small when rotated for silicon nitride ceramic ball, can be with Realization runs at high speed, and has self-lubrication, is the important material of processing and fabricating ceramic bearing and admixture ceramics bearing.

Existing Authorization Notice No. is the Chinese patent of CN207025474U, and it discloses a kind of ceramic ball mills, include Rack, rotation is provided with balling drum in rack, and is provided between rack and balling drum for making balling drum Always the shutdown locator to stop operating in identical setting position.Unidirectional feed system and unidirectional discharging system are provided in rack System, unidirectional feed system is located at the end of balling drum, and unidirectional discharge system is located at the middle part of balling drum, and unidirectionally into Material system is located at the upper side of unidirectional discharge system, to achieve the purpose that reduce labor intensity and improve production operation efficiency.

Ceramic ball mill in actual use, operator by the major ingredient silicon nitride of ceramic ball processing and remaining The mixed raw material of the compositions such as auxiliary material (industrial alcohol etc.) is added in balling drum, i.e., ball mill is added by unidirectional feed system Ball milling operation is carried out in roller.Silicon nitride major ingredient and remaining auxiliary material (industrial alcohol etc.) are in non-uniform viscous fluid after manually mixing State, adhesion phenomenon can be generated by being directly added into unidirectional feed system, be will lead to the grinding of Ceramic Balls raw material unevenly, influenced Ceramic Balls The quality of following process operation, the prior art exists can improvements.

Utility model content

In view of the above technical problems, the purpose of this utility model is to provide a kind of ball mill agitation grinding system, pass through It is stirred raw material in advance, to improve the uniformity of the mixed raw material entered in ball mill, and then reaches and improves Ceramic Balls raw material The purpose of lapping uniformity and the quality of Ceramic Balls following process operation.

To achieve the above object, the utility model provides following technical solution: a kind of ball mill agitation grinding system, packet Ball milling unit is included, the ball milling unit includes ball mill, and the ball mill is connected with for being pre-mixed stirring raw material Agitating unit, the agitating unit include the level-one agitator and second level agitator being connected, and the level-one agitator with It is communicated with charging line between second level agitator, is provided on the charging line for driving raw material along charging line by level-one Agitator is transferred to the delivery pump of second level agitator；The level-one agitator and second level agitator include agitator ontology with And it is set to the agitating device on agitator ontology, the agitator ontology includes ladle body and bung, and the agitating device It include the stirring flabellum being fixed on bung and protrude into ladle body and the actuator for driving stirring flabellum rotation；It is described The bottom of ladle body offers discharge port, and feed inlet is formed at the top of the ladle body, and the bung closes feed inlet, and described two Transfer pipe is communicated between the discharge port and ball mill of grade agitator.

By using above-mentioned technical proposal, mixed raw material stirs in level-one agitator first, then by feeding passage and Delivery pump is transferred to stirring in second level agitator, enters finally by transfer pipe and carries out grinding operation in ball mill, to obtain Expect at the beginning of satisfactory and (just expects after being handled via subsequent high-speed centrifugal sprayer, can be obtained needed for ceramic ball forming The powder wanted).Mixed raw material is successively sufficiently stirred via level-one agitator and second level agitator before entering ball mill, with So that mixed raw material is sufficiently mixed, Ceramic Balls raw material mixing uniformity and Ceramic Balls following process operation quality are improved to reach Purpose.

The utility model is further arranged to: if the ball milling unit includes dry ball mill, and the adjacent ball mill Between be sequentially communicated connecting pipe.

By using above-mentioned technical proposal, multiple groups ball mill is connected and constitutes the ball milling list of multilevel structure by connecting pipe Member, the then mixed raw material after stirring via agitating unit can enter in multiple ball mills while carry out grinding operation, not only improve The efficiency of ball milling operation is improved, and is conducive to improve the obtained precision (particle diameter) and uniformity just expected of ball milling operation (distribution of particles).

The utility model is further arranged to: the transfer pipe includes the preposition pipeline being connected with discharge port, institute It states and is provided with main valve on preposition pipeline, the preposition pipeline extends and be divided into several branch pipes, and the branch pipe extends and converges For the postposition pipeline being connected with ball mill.

By using above-mentioned technical proposal, the mixed raw material with larger viscosity successively via preposition pipeline, each branch pipe with And postposition pipeline enters in ball mill, multiple groups branch pipe conveys mixed raw material simultaneously, plays the role of improving feedstock transportation smoothness.

The utility model is further arranged to: being distinguished at the position that the branch pipe is connected with preposition pipeline, postposition pipeline It is provided with the selection valve for controlling branch pipe on-off, and the selection valve is set as triple valve.

By using above-mentioned technical proposal, user controls triple valve, to reach the unlatching and the pass that control corresponding branch pipe It closes, i.e., mixed raw material enters in ball mill via preposition pipeline, corresponding branch pipe and postposition pipeline；When branch pipe in use When blocking, user can close the branch pipe by triple valve, and remaining branch pipe is selected to use, and be conducive to improve transfer pipe The stability and practicability that road uses.

The utility model is further arranged to: the level-one agitator includes first bucket being connected and second Barrel, it is provided with the agitating device on first bucket and second bucket, and between first bucket and second bucket It is communicated with circulating line and for driving raw material to shift the first power set in second bucket by first bucket along circulating line Pump.

It can be via circulation after mixed raw material completes stirring operation in first bucket by using above-mentioned technical proposal Pipeline and the first kinetic pump are transferred to second bucket and continue to stir operation, and first bucket can proceed with next group at this time The stirring operation of secondary mixed raw material is conducive to the stirring operating efficiency for improving mixed raw material.

The utility model is further arranged to: first bucket and second bucket high settings such as side by side, and described first The ladle body volume of branch bucket and second bucket is equal.

By using above-mentioned technical proposal, the volume of first bucket and second bucket is equal, then has stirred in first bucket At mixed raw material can be fully transferred in second bucket, and the height of both first bucket and second bucket is equal, then makes User can install the agitating device of fixed same size on first bucket and second bucket, have preferable installation convenience.

The utility model is further arranged to: being connected between the discharge port of second bucket and the ladle body side wall of first bucket It is connected with the first conveyance conduit and the second kinetic pump for driving raw material to shift along the first conveyance conduit.

By using above-mentioned technical proposal, mixed raw material can between first bucket and second bucket circulation stirring, favorably In the mixing uniformity for further increasing level-one agitator.

The utility model is further arranged to: second bucket is set to the top of first bucket, second bucket Ladle body volume less than first bucket ladle body volume, and between the discharge port of second bucket and the feed inlet of first bucket It is communicated with the second conveyance conduit.

By using above-mentioned technical proposal, second bucket and first bucket are mutually stacked, and the volume of second bucket is less than The volume of one bucket advantageously reduces the occupancy to working space；Meanwhile the mixed material in first bucket and second bucket can Circulation stirring operation is carried out therebetween, that is, that realizes mixed raw material spins upside down stirring operation, is conducive to further increase Stir the uniformity of operation.

In conclusion the utility model has the following beneficial effects:

First, mixed raw material stirs in level-one agitator first, then second level is transferred to by feeding passage and delivery pump Stirring, enters finally by transfer pipe and carries out grinding operation in ball mill in agitator, so that mixed raw material is sufficiently mixed, To achieve the purpose that improve Ceramic Balls raw material mixing uniformity and Ceramic Balls following process operation quality；

Second, first bucket and second bucket, which are connected, constitutes level-one agitator, and according to first bucket and second bucket The difference of arrangement, level-one agitator can play different using effects, when the two is arranged side by side, play raising mixing Raw material stirs operating efficiency and stirs the effect of operation uniformity；When the two is stacked up and down, plays and save working space occupancy With the effect for improving stirring operating efficiency；

Grinding work is carried out in ball mill third, completing the post-job mixed raw material of stirring and entering via the branch pipe of transfer pipe Industry, the set-up mode that multiple groups are in charge of are conducive to improve the stability that ball mill agitation grinding system uses；

Fourth, multiple groups ball mill is arranged and is connected with second level agitator, then it is former to complete the post-job mixing of secondary agitation Material, which enters, carries out ball milling operation in multiple groups ball mill, be conducive to the ball milling operating efficiency for improving mixed raw material.

Detailed description of the invention

Fig. 1 is the general structure schematic diagram of the ball mill agitation grinding system in embodiment one；

Fig. 2 is primarily used for showing the structural schematic diagram of agitator ontology and agitating device connection structure；

Fig. 3 is the structural schematic diagram of agitating device；

Fig. 4 is the structural schematic diagram of transfer pipe；

Fig. 5 is the general structure schematic diagram of the ball mill agitation grinding system in embodiment two.

Appended drawing reference: 1, agitating unit；11, level-one agitator；111, first bucket；112, second bucket；12, second level is stirred Mix bucket；2, ball milling unit；21, ball mill；22, connecting pipe；3, agitator ontology；31, ladle body；311, discharge port；312, into Material mouth；32, bung；321, fixed part；322, movable part；4, agitating device；41, actuator；42, flabellum is stirred；5, circulation pipe Road；51, the first kinetic pump；6, the first conveyance conduit；61, the second kinetic pump；7, charging line；71, delivery pump；8, transfer pipe Road；81, preposition pipeline；811, main valve；82, branch pipe；83, postposition pipeline；84, valve is selected；841, converging valve；842, it shunts Valve；9, the second conveyance conduit.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

Embodiment one:

As shown in Figure 1, a kind of ball mill agitation grinding system, include for be stirred the agitating unit 1 of raw material with And the ball milling unit 2 for ground and mixed raw material, agitating unit 1 include the level-one agitator 11 being sequentially communicated and second level stirring Bucket 12, and ball milling unit 2 includes two ball mills 21 being sequentially communicated, and is connected with connecting pipe 22 between two ball mills 21.Behaviour Make personnel and mixed raw material is poured into level-one agitator 11 to the mixing original for carrying out once stirring operation, and completing primary stirring operation Material, which enters back into, carries out secondary agitation operation in second level agitator 12, the mixed raw material for finally completing stirring operation twice enters two balls Ball milling operation is carried out in grinding machine 21, (is just expected via subsequent height to be made and just expect required for ceramic ball processing operation After fast centrifugal atomizer processing, powder required for ceramic ball forming can be obtained), it not only improves raising mixed raw material stirring and grinds The uniformity of operation is ground, and is conducive to improve the quality of Ceramic Balls following process operation.

Level-one agitator 11 is set as two-level configuration, i.e. first bucket including the high settings such as side by side of level-one agitator 11 111 and second bucket 112, the volume of first bucket 111 and second bucket 112 is equal, and second bucket 112 and first bucket 111 are connected and are located at the top of first bucket 111.Mixed raw material is poured into first bucket 111 and is stirred by operator, then defeated It send the mixed raw material for completing secondary agitation to secondary agitation is carried out in second bucket 112 to be transmitted back to again in first bucket 111 to carry out Operation is stirred, to realize the circulation stirring operation of level-one agitator 11, and then reaches and further increases mixed raw material stirring The purpose of even property.

First bucket, 111, second buckets 112 and second level agitator 12 include the agitator for being set as cylindrical structure Ontology 3 and the agitating device 4 being set on agitator ontology 3, agitator ontology 3 include ladle body 31 and bung 32, and bucket The bottom of body 31 offers discharge port 311；Bung 32 includes the fixation by bolt lock due to the top open part of ladle body 31 Portion 321 and be overlapped in ladle body 31 top open part movable part 322, and movable part 322 matches closing with fixed part 321 The top opening of ladle body 31.As shown in connection with fig. 2, when operator removes movable part 322, the top opening of ladle body 31 is formed Mixed raw material can be poured into first bucket 111 from feed inlet 312 and be stirred operation by feed inlet 312, operator.

It is communicated with circulating line 5 between the discharge port 311 of first bucket 111 and 31 side wall of ladle body of second bucket 112, is followed The upper end for being located proximate to 31 side wall of ladle body that endless tube road 5 is connected with second bucket 112, and circulating line 5 is communicated with for driving Dynamic raw material is transferred to the first kinetic pump 51 in second bucket 112 along circulating line 5, then the mixed raw material in first bucket 111 It can enter in second bucket 112 and be stirred operation.The discharging of ladle body 31 side wall and second bucket 112 of first bucket 111 It is communicated with the first conveyance conduit 6 and the second kinetic pump 61 for driving raw material to shift along circulating line 5 between mouth 311, and The upper end for being located proximate to 31 side wall of ladle body that first conveyance conduit 6 is connected with first bucket 111, then in second bucket 112 Mixed raw material is transferred in first bucket 111, to realize the circulation stirring operation of level-one agitator 11.

In order to guarantee the safety of 11 circulation stirring operation of level-one agitator, above-mentioned circulating line 5 is close to first bucket 111 The position of discharge port 311, the first conveyance conduit 6 may be provided with close to the position of second 112 discharge port 311 of bucket for controlling The valve of pipeline on-off.

In conjunction with shown in Fig. 2 and Fig. 3, agitating device 4 includes the actuator 41 being fixed on the fixed part 321 of bung 32, Actuator 41 is set as motor, and the output shaft of motor is connected with the stirring flabellum 42 for wearing and protruding into ladle body 31, and motor drives Dynamic stirring flabellum 42 rotates the stirring operation to realize mixed raw material.

Charging line 7, i.e., the discharge port of first bucket 111 are communicated between level-one agitator 11 and second level agitator 12 It is connected between 311 and second level agitator 12 by charging line 7, the position that charging line 7 is connected with second level agitator 12 Close to the 31 side wall top end of ladle body of second level agitator 12, and it is connected on charging line 7 for driving raw material to be stirred by level-one Bucket 11 is transferred to the delivery pump 71 of second level agitator 12, then the mixed raw material of stirring operation is completed in level-one agitator 11 It is transferred in second level agitator 12 and is stirred operation.Settable pipe joint at the discharge port 311 of first bucket 111, feeding Pipeline 7 and circulating line 5 may connect at pipe joint, and pipe joint and charging line 7 are close to the side of pipe joint It is both provided with valve.

As shown in connection with fig. 4, it is communicated with transfer pipe 8 between the discharge port 311 and ball mill 21 of second level agitator 12, shifted Pipeline 8 includes the preposition pipeline 81 being connected with the discharge port 311 of second level agitator 12, is provided with main valve on preposition pipeline 81 Door 811, and preposition pipeline 81 extends and is divided into two branch pipes 82, two branch pipes 82 are re-extended and converged to be connected with ball mill 21 Postposition pipeline 83, then the mixed raw material for completing stirring operation can be further separated into two branch pipes 82 by preposition pipeline 81, then be converged It is poly- to enter in postposition pipeline 83, finally enter via postposition pipeline 83 and carries out ball milling operation in ball mill 21.Two branch pipes 82 are with before It sets pipeline 81, be provided with the selection valve 84 for controlling 82 on-off of branch pipe, two choosings at the position that postposition pipeline 83 is connected It selects valve 84 and is disposed as triple valve, and two selection valves 84 are respectively set to converging valve 841 and flow divider 842, i.e., preposition pipe What is connected between road 81 and two branch pipes 82 is flow divider 842, and what is connected between postposition pipeline 83 and two branch pipes 82 is converging valve 841；When normal use, selects any one branch pipe 82 in two branch pipes 82 to use, when blockage phenomenon, blocking can be closed Branch pipe 82, select another branch pipe 82 to use, to improve the stability and flexibility that adapting pipe uses.

The present embodiment is further elaborated below with reference to specific movement:

Mixed raw material to be mixed is poured into first bucket 111 by operator from the feed inlet 312 of first bucket 111 In ladle body 31, the agitating device 4 being set on first bucket 111 is stirred operation, and stirring after a certain period of time, opens circulation pipe Valve on road 5, then the mixed raw material in first bucket 111 enters under the action of the first kinetic pump 51 via circulating line 5 In second bucket 112.The agitating device 4 being set on second bucket 112 is stirred operation, and opens the first conveyance conduit 6 On valve, then the mixed raw material in second bucket 112 under the action of the second kinetic pump 61 via the first conveyance conduit 6 enter In first bucket 111, to complete the stirring operation of level-one agitator 11；

After the stirring operation for completing level-one agitator 11, open the valve on pipe joint and charging line 7, then first Mixed raw material in bucket 111 enters in second level agitator 12 under the action of delivery pump 71 along charging line 7, and stirs in second level The lower completion stirring operation of the effect of agitating device 4 on bucket 12, is then turned on main valve 811 and selection valve 84, then completes two-stage The mixed raw material of operation is stirred via the discharge port 311 of second level agitator 12, preposition pipeline 81, the branch pipe 82 of selection and postposition Pipeline 83 carries out carrying out ball milling operation in ball mill 21.

Embodiment two:

Compare shown in Fig. 1 and Fig. 5, the difference between this embodiment and the first embodiment lies in: first bucket 111 and second bucket 112 arrangement mounting means is different, and mode of movement of the mixed raw material between first bucket 111 and second bucket 112 is also deposited It is distinguishing.In the present embodiment, second bucket 112 is set to the top of first bucket 111, and the ladle body 31 of second bucket 112 Ladle body 31 volume of the volume less than first bucket 111.The bung 32 of the discharge port 311 of second bucket 112 and first bucket 111 it Between be communicated with the second conveyance conduit 9, i.e. the second conveyance conduit 9 is plugged on the fixed part 321 of bung 32 and protrudes into ladle body 31, And second is again provided with valve for controlling its on-off on conveyance conduit 9.The discharge port 311 of first bucket 111 and second Connection type between the side wall of branch bucket 112 is identical as the connection type in embodiment one, i.e., the discharge port of first bucket 111 Circulating line 5 is communicated between 311 and second bucket 112；But in the present embodiment, the bung 32 of second bucket 112 is set as Monolithic construction, i.e., the top opening of 32 second bucket 112 of integrally closed of bung of second bucket 112, then 5 grafting of circulating line In on the bung 32 of second bucket 112 and protrude into second bucket 112 ladle body 31 in, to realize the circulation of level-one agitator 11 Stir operation.

The present embodiment is further elaborated below with reference to specific movement:

Mixed raw material to be mixed is poured into first bucket 111 by operator from the feed inlet 312 of first bucket 111 In ladle body 31, the agitating device 4 being set on first bucket 111 is stirred operation, and stirring after a certain period of time, opens circulation pipe Valve on road 5, then the mixed raw material in first bucket 111 enters under the action of the first kinetic pump 51 via circulating line 5 In second bucket 112；The agitating device 4 being set on second bucket 112 is stirred operation, and opens the second conveyance conduit 9 On valve, then the mixed raw material in second bucket 112 under the effect of gravity via the second conveyance conduit 9 enter first bucket In 111, to complete the stirring operation of level-one agitator 11；

After the stirring operation for completing level-one agitator 11, open the valve on pipe joint and charging line 7, then first Mixed raw material in bucket 111 enters in second level agitator 12 under the action of delivery pump 71 along charging line 7, and stirs in second level The lower completion stirring operation of the effect of agitating device 4 on bucket 12, is then turned on main valve 811 and selection valve 84, then completes two-stage The mixed raw material of operation is stirred via the discharge port 311 of second level agitator 12, preposition pipeline 81, the branch pipe 82 of selection and postposition Pipeline 83 carries out carrying out ball milling operation in ball mill 21.

Present embodiment is only the explanation to the utility model, is not limitations of the present invention, this Field technical staff can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, But as long as all by the protection of Patent Law in the scope of the claims of the utility model.

Claims (8)

1. a kind of ball mill agitation grinding system includes ball milling unit (2), the ball milling unit (2) includes ball mill (21), it is characterised in that: the ball mill (21) is connected with the agitating unit (1) for being pre-mixed stirring raw material, described to stir Mixing unit (1) includes the level-one agitator (11) and second level agitator (12) being connected, and the level-one agitator (11) with It is communicated between second level agitator (12) charging line (7), is provided on the charging line (7) for driving raw material along feeding Pipeline (7) is transferred to the delivery pump (71) of second level agitator (12) by level-one agitator (11)；

The level-one agitator (11) and second level agitator (12) include agitator ontology (3) and are set to agitator sheet Agitating device (4) on body (3), the agitator ontology (3) include ladle body (31) and bung (32), and the agitating device (4) include the stirring flabellum (42) being fixed on bung (32) and protrude into ladle body (31) and stir flabellum for driving (42) actuator (41) rotated；

The bottom of the ladle body (31) offers discharge port (311), is formed with feed inlet (312) at the top of the ladle body (31), The bung (32) closes feed inlet (312), and between the discharge port (311) and ball mill (21) of the second level agitator (12) It is communicated with transfer pipe (8).

2. a kind of ball mill agitation grinding system according to claim 1, it is characterised in that: ball milling unit (2) packet If having included dry ball mill (21), and connecting pipe (22) are sequentially communicated between the adjacent ball mill (21).

3. a kind of ball mill agitation grinding system according to claim 1 or 2, it is characterised in that: the transfer pipe (8) Include the preposition pipeline (81) being connected with discharge port (311), be provided with main valve (811) on the preposition pipeline (81), The preposition pipeline (81), which extends, to be simultaneously divided into several branch pipes (82), and the branch pipe (82) extend and converge for ball mill (21) The postposition pipeline (83) being connected.

4. a kind of ball mill agitation grinding system according to claim 3, it is characterised in that: the branch pipe (82) with it is preposition The selection valve of control branch pipe (82) on-off is separately provided at the position that pipeline (81), postposition pipeline (83) are connected (84), and the selection valve (84) is set as triple valve.

5. a kind of ball mill agitation grinding system according to claim 1, it is characterised in that: the level-one agitator (11) It include first bucket (111) and second bucket (112) being connected, on first bucket (111) and second bucket (112) It is provided with the agitating device (4), and is communicated with circulating line between first bucket (111) and second bucket (112) (5) and for driving raw material to set first in second bucket (112) by first bucket (111) transfer along circulating line (5) it moves Power pumps (51).

6. a kind of ball mill agitation grinding system according to claim 5, it is characterised in that: first bucket (111) With second bucket (112) high settings such as side by side, and ladle body (31) volume of first bucket (111) and second bucket (112) It is equal.

7. a kind of ball mill agitation grinding system according to claim 6, it is characterised in that: second bucket (112) Discharge port (311) and first bucket (111) ladle body (31) side wall between be communicated with the first conveyance conduit (6) and for driving The second kinetic pump (61) that dynamic raw material is shifted along the first conveyance conduit (6).

8. a kind of ball mill agitation grinding system according to claim 5, it is characterised in that: second bucket (112) It is set to the top of first bucket (111), less than first bucket (111) of ladle body (31) volume of second bucket (112) Ladle body (31) volume, and between the discharge port (311) of second bucket (112) and the feed inlet (312) of first bucket (111) It is communicated with the second conveyance conduit (9).