CN102806130A - Medium-free micro pulverizer - Google Patents

Medium-free micro pulverizer Download PDF

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Publication number
CN102806130A
CN102806130A CN2012102844265A CN201210284426A CN102806130A CN 102806130 A CN102806130 A CN 102806130A CN 2012102844265 A CN2012102844265 A CN 2012102844265A CN 201210284426 A CN201210284426 A CN 201210284426A CN 102806130 A CN102806130 A CN 102806130A
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bearing
chamber
housing
plate
impeller
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CN2012102844265A
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Chinese (zh)
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王瑞琪
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Individual
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Abstract

The invention provides an ore crushing machinery without adding a crushing medium, which is a dry crushing machinery with a tower type structure; a rotating part is in the form of a longitudinal rotating shaft; one or more impeller main bodies are mounted on a shaft in series; a plurality of replaceable wear resistant blades and surface protective plates are arranged on each impeller main body, so that the impeller main body forms a rotor impeller group assembly with single-layer or multi-layer blades; a wear resistant lining layer, which comprises an upper lining plate, a material guide lining plate, an arc main lining plate, a bottom lining plate, a wear resistant fixing ring and so on, is correspondingly arranged on the periphery of each impeller; an interior cavity of each impeller forms a crushing chamber; and the crushing chambers in various stages are communicated with each other in a vertical direction. The ore crushing machinery provided by the invention has the advantages of high one-time crushing efficiency, high fine powder qualified rate, convenience in controlling, wide inlet material particle range, long service life, convenience in maintenance and no dust and noise pollution, and is very suitable for ore dressing metallurgy and architectural material industries; and standard dry powders or ore pulps can be directly produced, so that the production process is greatly simplified and production cost is reduced.

Description

No medium micron mill
Technical field
The present invention relates to a kind of size reduction machinery, specifically a kind of pulverizing has the no medium size reduction machinery of the rock type mineral materials of certain degree of hardness.
Background technology
In mine and metallurgical production, for the valuable components of from natural minerals, inciting somebody to action wherein extracts, must disintegrate out through general's useful component wherein after the fine grinding becomes monomer particle structure one by one, could they be separated very pure then.Main in producing at present is the equipment of comminution of minerals raw material with ball mill, Raymond machine, conical disc mill etc.; It grinds effect and not really desirable; Mainly be that the disposable reduction ratio of machine is generally very low, unit capacity is limited, and the wearing and tearing of machine big energy-consuming are more serious; Maintenance neither be very convenient, therefore presses for a kind of low energy consumption, high muck ratio, long-life machinery in small, broken bits.
Summary of the invention:
The object of the invention is exactly for a kind of mineral size reduction machinery that need not to add crushing medium is provided; It is a kind of Dry-crusher tool of tower structure; Not only can reach better ultramicro grinding effect; And in the process of discharging micro mist, have the slurrying function, and can dry powder directly be mixed into the ore pulp discharge of certain fineness and concentration, be fit to very much the supporting use of ore dressing plant grinding Metallurgical Factory.
In order to achieve the above object; The present invention is designed to vertical rotating shaft form with the rotating part of pulverizer; And string is adorned one or more impeller bodies of being processed by special substance on axle; On upper and lower two end faces of this impeller body, optionally be fixed with a plurality of removable abrasion-resistant blades and skin simultaneously, make it become impeller of rotor assembly with single or multiple lift blade; The peripheral corresponding setting of each impeller assembly by by on the wear-resisting lining formed such as liner plate, guide liner plate, arc master liner plate, bottom lining plate, wear-resisting retainer ring, its internal cavities promptly constitutes the pulverizing chamber, is UNICOM up and down between the pulverizing chambers at different levels; When machine works; Raw mineral materials feeds through the centre of feed hopper by impeller in the upper end of machine; Because the high speed rotating of impeller; Make nugget instantaneous hitting one after another after the liner plate of body inwall and bounce-back under centrifugal action impact each other, so large granular materials is crushed into small particles material by moment, thereby its muck efficiency far surpass present existing miscellaneous equipment with very high speed.Because gape is arranged at the highest point appropriate location of pulverizer; And can adjust its ore discharge height up and down, thereby can suitably control the granule size and the grain size content of ore discharge, the mineral grain that does not reach garrulous ore granularity is owing to the weight of its weight with respect to thin qualified particle will weigh; Therefore its height that under the effect of sorting of blast that receives machine intimate and air-swirl, promotes also hangs down the height that does not reach outlet; Therefore can not discharge the crushing chamber of body, and continue to discharge crushing chamber up to reaching release mesh, thereby this equipment has the effect of classification simultaneously at the crushing chamber comminution; Need not the adapted screening plant during production, simplified production procedure greatly; The material powder of discharging the release mesh of crushing chamber gets into slurry mixing chamber by the powder feeding chamber through mixing the powder chamber; The ore pulp that rotation is flowed with wherein high speed in slurry mixing chamber is mixed into behind the ore pulp of higher concentration and then through discharge pipe and discharges body; Received cleaning action and the slurrying of a large amount of atomized waters of the shower nozzle ejection in the spray chamber in the process of not discharged with air-flow by the dust of slurrying in a small amount; Thereby do not have dust discharge body contaminated environment, be a kind of grinding machinery of very environmental protection.
On main shaft of the present invention, also optionally be provided with by the hydrostatic thrust bearing of thin oil lubricant or non-lubricating permanent magnet suspension thrust bearing reducing the friction load that the machine turns part produces because of the influence that receives himself gravity, thereby prolonged the service life of machine greatly.The Moving plate of hydrostatic thrust bearing is fixed on the main shaft and keeps the concentric rotation with main shaft; Price fixing is fixed in the interior indirect securement of bearing chamber shell on frame; Remain the lubricating oil that injects certain pressure through the oilhole of pressure oil pipe in price fixing; When force feed oil gets in Moving plate and the slit between the price fixing of hydrostatic thrust bearing, make Moving plate together with main shaft and be fixed in impeller on the main shaft etc. and be able to float the frictional resistance that rotates when having significantly reduced running; The movable magnetic disc of permanent magnet suspension thrust bearing is connected with main shaft; Deciding disk directly or indirectly is fixed on the frame; Just can regulate their suction size through adjustment axial spacing between the two; Thereby can eliminate the axial gravity of the rotating part that is carried on the bearing that is positioned at axle head, make equipment approach the axial load that zero-g turns round thereby reduced end bearing greatly, thereby reduce the startup and the operating load of entire equipment; Prolong the service life of equipment greatly, reduced running energy consumption and production cost.
The present invention compared with prior art has the following advantages: owing to adopted the replaceable blade of both-end, the leafy wheel and vertical this version of rotating shaft, and the application of specific function material on impeller assembly, and the structural design of high-end ore discharge and increased the ore discharge guiding mechanism to make that this machinery has disposable pulverizing efficient high; The fine powder qualification rate is high and be convenient to control; The material size wide ranges substantially exceeds other existing grinding machines such as ball mill, and one time comminution ratio can reach 1000-10000 doubly, need not to increase gradation sizing and conveying equipment; Directly qualified dry powder of output or ore pulp thereby simplified production procedure greatly; Reduced production cost, and long service life, easy to maintenance; No dust and noise pollution are fit to renewal of the equipment and supporting use very much.
Below in conjunction with accompanying drawing and embodiment the present invention is done further description.
Description of drawings:
Fig. 1-be front view of the embodiment one of this no medium micron mill;
Fig. 2-be longitudinal sectional view of the embodiment one of this no medium micron mill along spindle axis line place section;
Fig. 3-be longitudinal sectional view of the embodiment two of this no medium micron mill along spindle axis line place section;
Fig. 4-be longitudinal sectional view of the embodiment three of this no medium micron mill along spindle axis line place section;
Fig. 5-be longitudinal sectional view of the embodiment four of this no medium micron mill along spindle axis line place section;
Fig. 6-be vertical (being parallel to direction of axis line dissects) profile of QQ hatching shown in the impeller of this no medium micron mill package assembly sketch map and the figure when facing up;
The profile of Fig. 7-dissecing along direction of axis line for the impeller of this no medium micron mill package assembly sketch map and the AA hatching shown in the figure when reverse side makes progress;
Fig. 8-the be front view of the replaceable fan-shaped wearing plate of the impeller of this no medium micron mill and the vertical cross section of the BB hatching shown in the figure;
Fig. 9-the be front view of the replaceable vanelets in the impeller of this no medium micron mill and the vertical cross section of the DD hatching shown in the figure
Several kinds of corresponding under several kinds of versions of this no medium micron mill replaceable primary blades and replaceable vanelets in the impeller shown in the accompanying drawing 2-accompanying drawing 7 shape of cross section sketch mapes of Figure 10-be;
Figure 11-the be front view of the integral type of this no medium micron mill and split type wear ring and the front view of monolithic arc wear-resistant block of forming the identical arc wear-resistant block of several piece of split type wear ring;
Figure 12-be composition structural representation of a kind of wear-resisting bolt of this no medium micron mill;
Figure 13-for the front view of integral type master's liner plate of this no medium micron mill and the hatching LL shown in the figure, JJ, KK along its axial line five equilibrium and the front view that dissects the split type main liner plate of monolithic in the split type main liner plate of the identical several piece of the shape that forms with and figure shown in the cross-sectional view of the split type main liner plate that dissects of the level of CC hatching;
Figure 14-be several kinds of cross sectional representation commonly used of the split type arc master of the monolithic liner plate of the composition integral type master liner plate of this no medium micron mill;
Figure 15-the be front view of the guide liner plate of forming this no medium micron mill and EE hatching profile along direction of axis line;
Figure 16-the be front view of the last liner plate of this no medium micron mill and the profile along direction of axis line of the FF hatching shown in the figure;
Figure 17-the be front view and several kinds of grid liner plate hole grid sketch mapes commonly used of the grid liner plate of this no medium micron mill;
The explanation of accompanying drawing face:
1. feed hopper upper flange 2. mixes slurry cylinder shell upper flange 3. fastening bolts
4. discharge pipe 5. steam vents 6. atomized waters feed pipe
7. main feed water pipe 8. mixes slurry cylinder shell 9. and leads the powder tube
10. ease slurry pipe 11. reinforced supports 12. premix ore pulps feed pipe
13. valve 14. pulverizing chamber upper cone shells 15. pulverizing chamber cylinder case
16. the handle hole 17. pulverizing chamber housing lower flanges 18. upper bearing (metal) shell flanges on the connection cylindrical shell
19. connect oil inlet pipe 21. air inlet pipe on the cylindrical shell upper flange 20.
22. last oil return pipe 23. upper bearing (metal) housings 24. upper bearing (metal) end covers
25. supporting disk 26. thrust magnetic bearing housings 27. connecting cylinder lower flanges
28. 30. times oil return pipes of lower bearing housing 29. bearings
31. lower bearing lower seal end cap 32. main shafts, 33. driving wheels or shaft joint
34. connecting cylinder 35. key bars 36. distributive pipes
37. annular water chamber's 38. annular conduits, 39. shower nozzles
40. interior separating tube 41. outer separating tube 42. net grid
43. feed hopper 44. location adjustment screw 45. hexagon socket head cap screws
46. aqueous vapor separation chamber 47. tanks, 48. spray chambers
49. mix powder chamber 50. kuppes, 51. sink bodies
52. ore pulp face 53. slurry mixing chambers 54. pan feeding inner cores
55. powder feeding chamber 56. main liner plate 57. wear-resisting guard shields
58. the locking 59. replaceable primary blades 60. wear-resisting check bolts that emit
61. replaceable vanelets 62. bottom lining plates 63. impeller bodies
64. pulverizing chamber 65. feed chambeies 66. backbone sealing rings
67. moving magnetic force dish 68. outer races 69. bearing inner rings
70. lower bearing room's oil inlet pipe 71. magnetostatic power dish 72. annular permanent magnnets
73. end cover 75. is regulated tube on thrust magnetic bearing lower seal end cap 74. lower bearings
76. blast pipe 77. collection chambers 78. collection chamber housings
79. liner plate on the triangle support plate 80. annular angle steel 81.
82. arc master liner plate 83. wear washers 84. upper bearing sleeves
85. hydrostatic thrust bearing Moving plate 86. hydrostatic thrust bearing price fixings 87. hydrostatic thrust bearing end covers
88. lower bearing sleeve 89. bearing holder (housing, cover) spill ports 90. pressure oil pipes
91. Arc grid liner plate 92. grid liner plate bar holes 93. guide liner plates
94. liner plate 2 96. cyclone separating chamber on the last liner plate 1
97. first impeller body, 98. second impeller bodies, 99. protective shaft sleeves
100. crushing chamber one 101. crushing chambers 2 102. mix the slurry staving
103. isolating cylinder 104. " O " shape sealing ring 105. pulverizing chamber two housing upper flanges
106. pulverizing chamber two housing lower flanges 107. Upper shaft sleeves 108. upper bearing (metal) upper end covers
109. upper bearing plate 110. right material bin inner chamber 111. right material bin upper head plates
112. right material bin bottom plate 113. tramp iron separators 114. vertical machine erection supports
115. left material bin upper head plate 116. left material bin inner chamber 117. left material bin bottom plates
118. pulverizing chamber body shell on the dustproof dish 119. principal shaft locking nuts 120.
121. 122. times pulverizing chamber housing 123. lower inlet ducts of the funnel inner chamber of guide liner plate
124. support seat ring 125. Lower shaft sleeves 126. hydrostatic thrust bearing oil inlet pipes
127. transmission cavity 128. manhole covers 129. replaceable fan-shaped wearing plates
130, replaceable material casting plate 131. wear-resisting bolt 132. primary blades fixed blocks
133 wear-resistant blocks, 134. bolt holes, 135. toroidal cavities
136. screw 137. substrate layers 138. wearing layers
139. wear-resisting bolt body 140. lining-plate bolt holddown grooves 141. grid liner plates
142. round ring boss 143. vanelets fixed blocks 144, wear ring
The specific embodiment:
Embodiment one; With the single impeller assembly is example; Shown in accompanying drawing 1, accompanying drawing 2, accompanying drawing 6, accompanying drawing 7, accompanying drawing 8; This no medium micron mill is a kind of machinery that provides power to drag to work by motor, and it mainly is made up of rotating part and standing part two large divisions, and rotating part is the main parts of this machine; Its working order quality has directly determined the serviceability and the service life of machine, therefore to the material of each parts of its composition select for use and machining accuracy etc. all has strict requirement; This rotating part mainly by driving wheel or shaft joint, down rolling bearing assembly, thrust magnetic bearing assembly (or mechanical hydrostatic thrust bearing assembly), go up rolling bearing assembly, main shaft and impeller assembly etc. and form; Following rolling bearing assembly is made up of end cover 74, lower bearing lower seal end cap 31, lower bearing room's oil inlet pipe 70, following oil return pipe 30, corresponding backbone sealing ring 66 and bearing roller on lower bearing housing 28, bearing inner ring 69, outer race 68, the lower bearing; Last rolling bearing assembly by encircle 69 in upper bearing (metal) housing 23, the upper bearing (metal), upper bearing (metal) outer shroud 68, upper bearing (metal) end cover 24, air inlet pipe 21, go up oil inlet pipe 20, go up oil return pipe 22, corresponding backbone sealing ring 66 and bearing roller form; The thrust magnetic bearing assembly can be arranged on the optional position near two ends or centre of main shaft; This example is arranged at the centre position of main shaft with it; (same replace thrust magnetic bearing also to adopt the identical form that is provided with), thrust magnetic bearing assembly if use mechanical hydrostatic thrust bearing instead mainly by thrust magnetic bearing housing 26, directly or indirectly be fixed in magnetostatic power dish 71 on the supporting disk 25 at connecting cylinder 34 middle parts, lean on moving magnetic force dish 67 on main shaft 32 of location adjustment screw 44 and key bar 35 positioning and fixing, thrust magnetic bearing lower seal end cap 73 and accordingly backbone sealing ring 66 form; The impeller assembly is made up of impeller body 63, replaceable primary blades 59, replaceable vanelets 61, replaceable fan-shaped wearing plate 129, replaceable material casting plate 130, wear-resisting check bolt 60; The standing part of this no medium micron mill is from top to bottom mainly by feed hopper upper flange 1; Feed hopper 43; Mix slurry cylinder shell 8; Interior separating tube 40; Outer separating tube 41; Regulate tube 75; Sink body 51; Net grid 42; Distributive pipe 36; Annular conduit 38; Annular water chamber 37; Water main 7; Shower nozzle 39; Discharge pipe 4; Ease slurry pipe 10; The premix ore pulp feeds pipe 12; Pan feeding inner core 54; Lead powder tube 9; Pulverizing chamber upper cone shell 14; Pulverizing chamber cylinder case 15; Main liner plate 56; Bottom lining plate 62; Upper bearing (metal) housing 23; Connecting cylinder 34; Compositions such as lower bearing housing 28 and bearing 29; The upper bearing (metal) housing 23 of rotating part through upper bearing (metal) shell flange 18 with pulverizing chamber housing lower flange 7 and be connected the connection of cylindrical shell upper flange 19 positioning and fixing; Lower bearing housing 28 be connected cylindrical shell lower flange 27 location and be fixedly connected; Make the rotating part positioning and fixing in the body shell of machine and form the overall structure that to rotate around spindle axis like this; Like this when the impeller part of centre is rotated together with main shaft around spindle axis; The impeller assembly is positioned at its center that belongs to crushing chamber accordingly location on the lower side; And make and keep suitable running clearance between replaceable vanelets 61 and the bottom lining plate 62 of impeller lower surface; Keep between the inwall of the main liner plate 56 of the radially outward edge of impeller and the crushing chamber at its place being slightly larger than the radial clearance of impeller radius length, the initial stage pulverizing and the minimizing noise of massive minerals raw material are alleviated the wearing and tearing to main liner plate 56 so that more help.Directly over the center of first order impeller, one cylindrical shape pan feeding inner core 54 vertically is set along the suitable at interval distance of spindle axis line direction; The lower end cylindrical shape outlet outer wall that this pan feeding inner core upper end is long cylinder barrel shaped and feed hopper 43 is fit and can keep sliding up and down also between the two that socket is positioned the appropriate location mutually just; By the location adjustment screw 44 of pan feeding inner core 54 upper ends with the two positioning and fixing in one; And make the center line of pan feeding inner core and spindle axis line remain same straight line; The bottom of pan feeding inner core 54 is the suitable distance of maintenance between the replaceable blade of the horn shape of under shed and its lower limb and impeller upper surface; Thereby make when machine works, through feed hopper 43 wait pulverize that nugget can be accomplished evenly to distribute and the generation of minimizing retardance situation when pan feeding inner core 54 is fallen on the impeller of rotation at a high speed; Pulverizing chamber is arranged at the medium position of body; The upper end of pulverizing chamber is that profile is centrum shell 14 on the pulverizing chamber of a truncated cone-shaped in embodiment one; The bottom is that profile is a flat columniform pulverizing chamber cylinder case 15; Shown in accompanying drawing 1, accompanying drawing 2,, lean on its inwall place evenly to be provided with the main liner plate 56 of certain thickness high-wearing feature in the inside of pulverizing chamber cone shell 14 and pulverizing chamber cylinder case 15; Be fixed with the bottom lining plate 62 of an annular in main liner plate 56 bottom inner horizontal, the radially inward edge of bottom lining plate and lower surface respectively at the upper surface of the middle boss outward flange of upper bearing (metal) housing 23 and upper bearing (metal) housing be abutted against mutually its radially outward edge just with the lower end inward flange tabling of main liner plate; Pulverizing chamber housing lower flange 17 through bolt 3 with it with the upper bearing (metal) shell flange 18 of upper bearing (metal) housing 23 and be connected cylindrical shell upper flange 19 location and closely be fixed in one; Pulverizing chamber upper cone shell 14 suitable for reading with lead powder tube 9 and firmly be welded into a sealed whole structure; The outer wall of leading the appropriate position on powder tube 9 tops welds with the interior bore edges of the center bottom of mixing slurry cylinder shell 8 mutually; Make it become one firmly and the sealed whole structure; So outwards just form a flat round table-like toroidal cavity structure that is similar to handstand between the cylinder shell 8 with mixing to starch leading appropriate position, powder tube 9 top, promptly slurry mixing chamber 53; Feed hopper 43 and pan feeding inner core 54 and lead powder tube 9 and the cavity regulated between the tube 75 constitutes powder feeding chamber 55; The cavity of regulating tube 75 and leading between powder tube 9 and the interior separating tube 40 constitutes mixed powder chamber 49; Be with a cylindrical tube closely at the topmost outer wall of leading powder tube 9 and promptly regulate tube 75; On the lower part wall of this adjusting tube 75, be provided with several location adjustment screw 44; To just can closely be fixed in the appropriate position of leading the powder tube through this location adjustment screw 44 along the adjusting tube 75 that the external wall of upper portion of leading powder tube 9 slides up and down; So be equivalent to increase the vertical height of leading powder tube 9, just can suitably regulate marker size and withdrawal rate with respect to the position of leading the powder tube through 49 places, overmulling powder chamber through regulating this adjusting tube 75; The upper end of interior separating tube 40 and outer separating tube 41 and the lower surface of feed hopper upper flange 1 structure that is welded as a whole; Cavity between interior separating tube 40 and the outer separating tube 41 constitutes spray chamber 48; Outer separating tube 41 and the cavity that mixes between the slurry cylinder shell 8 constitute aqueous vapor separation chamber 46; The toroidal cavity that forms between sink body 51 and the mixed slurry cylinder shell 8 constitutes tank 47; In the position level welding fixing annular water chamber 37 of the inwall that mixes slurry cylinder shell 8 a little more than sink body 51; There is a main water inlet tube 7 that passes and closely be fixed on the mixed slurry cylinder shell 8 to communicate with these annular water chamber 37 inside; On the going to the bottom of annular water chamber 37 at interval suitably distance divide equally and be communicated with the distributive pipe 36 that several end openings insert tank 47 at; Along the inwall of outer separating tube 41 and welding angle fixed-site one annular conduit 38 between the feed hopper upper flange 1, on this annular conduit 38 at interval suitably distance divide equally and be fixedly connected with several and be attached thereto the logical shower nozzle that Open Side Down 39, annular conduit 38 and passes to mix and starches atomized water that cylinder shell 8 reaches outer separating tube 41 and feed and manage 6 and be connected; Airtightly in the bottom of mixing slurry cylinder shell 8 be welded with the premix ore pulp that an inner with it slurry mixing chamber 53 is connected and feed pipe 12, the lower end that the premix ore pulp feeds pipe 12 is connected with the flow inlet of valve 13 and outside; Inside at slurry mixing chamber 53 is provided with a kuppe 50 near the mouth of pipe place that the premix slurry feeds pipe 12; (being place, plane on the ore pulp of slurry mixing chamber) is provided with a thicker ore discharge pipe 4 and communicates with its inside and promptly be connected with slurry mixing chamber 53 at the suitable height and position place of mixing slurry cylinder shell 8, the position slightly higher than discharge pipe 4 be provided with equally an ease slurry manage 10 with slurry mixing chamber 53 in ore pulp be connected; Be provided with a few steam vents 5 so that the gas that produces when discharging the machine comminuting matter at the upper position that mixes slurry cylinder shell 8, be fixedly connected with several reinforced supports 11 between the centrum shell 14 mixing on slurry cylinder shell 8 and the pulverizing chamber, so that the structure of complete machine is more firm.Mix between slurry cylinder shell upper flange 2 and the feed hopper upper flange 1 and be fixedly connected on one through fastening bolt 3; And make the lower end of the interior separating tube 40 that the lower surface of feed hopper upper flange 1 is fixing can extend into ore pulp face about 10-25 below 52 centimetre appropriate position in the slurry mixing chamber 53; Make the lower end of the outer separating tube 41 that the lower surface of feed hopper upper flange 1 is fixedly connected to extend into below the horizontal plane in the tank 47 about 8-15 centimetre appropriate location simultaneously; At the net grid 42 that are provided with several layers of suitable order degree between interior separating tube 40 and the sink body 51 and between interior separating tube 40 and the mixed slurry cylinder shell 8; It can be that materials such as stainless steel, plastics or nylon all can; To improve the effect of in gas discharge process, from the air of discharge, catching breeze when the machine run; To greatest extent mine dust is sneaked into and form ore pulp in the water, having avoided from air, leaking has wasted resource and has polluted simultaneously environment again.
The mechanical roller bearing that the no medium micron mill of present embodiment adopts non-lubricating thrust magnetic bearing and adopts the suitably aligning of thin oil lubricant, thus its have when operation frictional resistance little, operate steadily, characteristics such as noise is low, unit ore grinding power consumption is low, long service life.Shown in accompanying drawing 2; Its rotating part is to be provided with like this: the center of the supporting disk 25 in connecting cylinder 34 is provided with an axis hole; The aperture of this axis hole is more bigger than the main shaft axle journal of its corresponding site; Keep minimum running clearance between the two; Set firmly the backbone sealing ring 66 that matches with main shaft at the upper limb of this axis hole; On the lower surface of supporting disk 25, be same axle center through fastening bolt 3 be fixedly connected sequentially from top to bottom magnetic pole downward magnetostatic power dish 71, thrust magnetic bearing housing 26 and thrust magnetic bearing end cap 73 with the axis hole center line, the moving magnetic force dish 67 that tight socket one magnetic pole makes progress in the appropriate location, middle part of main shaft 32, and by the location adjustment screw 44 that is located on the moving magnetic force dish 67 it is firmly secured on the main shaft 32; Therefore passing axis hole on the supporting disk 25 appropriate location that makes progress when main shaft 32 upper ends just can will be fixed in moving magnetic force dish 67 on the main shaft 32 and be able to activity and be fixed in the thrust magnetic bearing housing 26; Because the moving magnetic force dish 67 that is fixed on the main shaft 32 is the xenogenesis magnetic pole with the corresponding plane of magnetostatic power dish 71 on being fixed in supporting disk 25; Therefore both maintenances state that attracts each other; Because making, the positioning action of the mechanical bearing at setting and main shaft 32 two ends not only is able between moving magnetic force dish 67 upper surfaces and magnetostatic power dish 71 lower surfaces forever keep the power that attracts each other but also make the certain running clearance of maintenance between the two; Also keep suitable running clearance between the lower surface of moving magnetic force dish 67 and the thrust magnetic bearing lower seal end cap 73 and between the inwall of the radially outer edge of moving magnetic force dish 67 and thrust magnetic bearing housing 26; Be provided with the outside framework oil seal 66 that matches with the main shaft axle journal at the axis hole place of thrust magnetic bearing bottom end cover 73, make thrust magnetic bearing inside be able to the state that keeps airtight relatively.The axis hole that kept winning behind the backbone sealing ring 66 that matches with the main shaft diameter of axle that encircles 69 in the upper bearing (metal) that cooperates, set firmly in upper bearing (metal) housing 23 central shaft holes and upper bearing (metal) housing 23 central shaft holes on the impeller body with an impeller assembly with the supporting backbone sealing ring 66 of main shaft, with it that passes successively from bottom to top in the upper end of main shaft 32 that the endoporus top of upper bearing (metal) end cover 24, upper bearing (metal) end cover 24 sets firmly closely is connected; Connect the axle journal place and be provided with key bar 35; The spindle nose end of the main shaft 32 after passing impeller body be provided with wheel rotation in the opposite direction and with locking 58 retaining threads that match that emit; Lockingly emit 58 to be anchored on the spindle end of impeller outer, be installed with one through hexagon socket head cap screw 45 58 outside and protect locking 58 the wear-resisting guard shield 57 that emits locking emitting in case uppermost leaf wheel is loosening; The spindle nose place is provided with screw vertically in the upper end of main shaft 32 (being the impeller end of present embodiment); Pass wear-resisting guard shield 57 hexagon socket head cap screw 45 the threaded portion just tightening in the screw of this spindle nose end, thereby the head of this hexagon socket head cap screw 45 then the build-in protection that in the fixedly deep hole that the top of wear-resisting guard shield 57 is provided with, obtained wear-resisting guard shield 57 avoided receiving the wearing and tearing of comminuting matter.The main shaft 32 that is positioned at thrust magnetic bearing lower seal end cap 73 lower ends pass successively from top to bottom be arranged on the lower bearing axis hole of end cover 74 on the backbone sealing ring 66 on end cover 74 axis holes, the lower bearing, with it kept winning the axis hole of the lower bearing that cooperates encircles 69, lower bearing lower seal end cap 31 axis holes set firmly backbone sealing ring 66 and lower bearing lower seal end cap 31 after, the bottom of main shaft 32 closely is fixedly connected through key bar 35 with the axis hole of driving wheel or shaft joint 33.The axis hole of end cover 74 and the axis hole of lower bearing lower seal end cap 31 all keep suitable running clearance on the axis hole of the axis hole of main shaft 32 and upper bearing (metal) housing 23, the axis hole of upper bearing (metal) end cover 24, supporting disk 25, the axis hole of thrust magnetic bearing lower seal end cap 73, the lower bearing; The appropriate position of upper bearing (metal) housing 23 be respectively equipped with oil inlet pipe 20, air inlet pipe 21 and on oil return pipe 22; Be installed between last oil inlet pipe 20 and upper bearing (metal) housing 23 internal cavities on the upper bearing (metal) housing 23 and be connected through the oilholes in the upper bearing (metal) housing 23 that is located at the bearing upper end; Lubricating oil from last oil inlet pipe 20 can just be sprayed between this bearing inner ring and the outer race; Last oil return pipe 22 is connected with the foot place of upper bearing (metal) enclosure interior cavity through oilhole and the corresponding oilhole that is arranged on the upper bearing (metal) lower seal end cap 24 that is arranged at the upper bearing (metal) lower housing portion, makes that spray lubricating oil on the bearing upper bearing (metal) housing that can as far as possible all reflux out flows back to lubricating system through last oil return pipe 22; Appropriate location on end cover on the lower bearing 74 also is provided with an oilhole, is connected bottom the inner internal cavities with lower bearing housing 28 of this oilhole, its outer end be fixedly connected on lower bearing on lower bearing room's oil inlet pipe 70 on the end cover 74 be connected; The appropriate location also is provided with a spill port on the bottom sidewall of lower bearing lower seal end cap 31, and this oilhole is inner to be connected with the internal cavities of lower bearing housing 28, and its outer end is connected with the following oil return pipe 30 that is installed in lower bearing lower seal end cap 31; So the thin oil loop structure form of this lubricating system has guaranteed that the bearing of this machine is able to long-term normal operation under constant temperature; Between the concentric round ring boss at the axis hole position of the concentric toroidal cavity 135 at axis hole position, the lower surface of impeller body 63 and corresponding upper bearing (metal) housing 23 upper surfaces, keep the movable interlocking of mutual friction free and constitute the labyrinth type dust ring jointly; Promptly keep the two all to be positioned at same spindle axis and be halved together with the round ring boss 142 at the corresponding axis hole position of upper bearing (metal) housing 23 upper surfaces and keep suitable running clearance when impeller body 63 toroidal cavity 135 on it when freely rotate in this axle center, be in mutual non-contact state between the two; Be fixedly arranged between the axis hole internal cavities on air inlet pipe 21 and the upper bearing (metal) housing 23 on the upper bearing (metal) housing 23 (being the cavity between axis hole and the main shaft on the upper bearing (metal) housing 23) through the slotted hole that is arranged in the upper bearing (metal) housing and be connected; After the compressed-air actuated entering; Outwards release from inside to outside in the rotation slit that forces the axis hole position of its axis hole position, lower surface and upper bearing (metal) housing upper surface through rotation slit between main shaft 32 and the upper bearing (metal) housing and impeller body 63 to be halved together in the labyrinth type dust ring that constitutes; Therefore can prevent the entering of the high concentrate dust in the pulverizing chamber 64; Thereby protected rolling bearing to keep the normal operation of whole rotation system, prolonged the service life of machine greatly.
The impeller of no medium micron mill of the present invention is to be provided with like this: with reference to accompanying drawing 2,3,4,5,6, shown in 7, impeller mainly is made up of impeller body 63, replaceable primary blades 59, replaceable vanelets 61, replaceable fan-shaped wearing plate 129, replaceable material casting plate 130 and wear-resistant block 133; Impeller body 63 is a foundry goods; Be high heavy wall cylinder barrel shaped wherein; The inwall car of this cylinder become with the supporting hole of main shaft axle journal and within it wall be milled with the keyway of setting vertically that agrees with mutually with the main shaft key bar; The shaft hole diameter of impeller body all cooperates closely and positioning and fixing with the corresponding external diameter of main shaft and key bar with keyway on it; Have one in the peripheral casting of the outer wall middle of this cylindrical drum and keep the disk of same center of rotation with main shaft; And on the both ends of the surface up and down of this disk, radially be evenly equipped with several primary blades and vanelets fixed block one to one and make it be set to keep dynamic equilibrium state along center of rotation; Vertically be drilled with the circular hole that the screw 136 of identical several and replaceable fan-shaped wearing plate 129 reverse side matches in the identical position between each fixed block on the disk; So that replaceable fan-shaped wearing plate 129 positioning and fixing on the disc face between the fixed block of the upper surface of impeller body 63, also are respectively arranged with several screws and circular hole so that firm replaceable primary blades 59, replaceable vanelets 61 and replaceable material casting plate 130 positioning and fixing are become an integral body on it on each fixed block 132; Replaceable primary blades 59, replaceable vanelets 61, replaceable fan-shaped wearing plate 129 and replaceable material casting plate 130 are double-decker; Its inside or bottom are substrate layer 137; Process by carbon steel and medium hardness steel alloy; Its outside is a wearing layer 138, evenly also can be interrupted to be laid on the substrate layer 137 being welded by polylith high strength anti abrading block 133, and wearing layer and substrate layer firmly weld or be cast in an overall structure; Be provided with the screw 136 of several certain depths at the suitable position of the basal plate 137 of replaceable fan-shaped wearing plate 129, the mounting engagement face shape between the two primary blades fixed blocks 132 of the upper surface on the plate face shape of replaceable fan-shaped wearing plate 129 impeller body 63 corresponding with it is identical; Wearing layer 138 end faces of replaceable material casting plate 130 also are provided with several wear-resisting bolt holes; When wear-resisting bolt 131 is located the 132 last times of primary blades fixed block of being fixed in impeller body, make the wearing layer surface of this wear-resisting bolt 131 and the wearing layer flush of replaceable material casting plate 130; On the radially outer edge of impeller body 63, evenly also can be welded with several wear-resistant blocks 133 at interval, the material of this wear-resistant block 133 and wearing layer 138 is high hardness materials such as carbide alloy, diamond and tungsten carbide; With reference to accompanying drawing 6,7, shown in 10; Replaceable primary blades 59 is set to a cross section and is down " L " type structure with reference to shown in the accompanying drawing 6 in embodiment one; Also can be set to any of the strip of cross section shown in accompanying drawing 10; It is provided with several wear-resisting bolt holes 131; This hole is that the thickness that a kind of its marginal portion degree of depth of countersunk head screw surpasses wearing layer 138 gos deep into substrate layer 137 about 8-25 millimeters; Make that the surperficial wearing layer surface with replaceable primary blades 59 of the wearing layer on the wear-resisting bolt 131 is consistent after replaceable primary blades 59 installs; Lower surface part in replaceable primary blades 59 near impeller body; Promptly be provided with a boss in the bottom along its length of replaceable primary blades 59; The recess that makes this boss when installing just with the facing mutually that radial edges is halved together and replaceable primary blades 59 coincide and are fixed on the corresponding vanes fixed piece 132 of corresponding replaceable fan-shaped wearing plate 129, so replaceable fan-shaped wearing plate 129 is promptly pressed solidly on the upper surface of its corresponding impeller body 63 and is seen through in the bolt hole 134 that is arranged at impeller body 63 is anchored on replaceable fan-shaped wearing plate 129 by fastening bolt 3 the corresponding screw 136 of substrate layer, makes the two positioning and fixing in one; Replaceable vanelets 61 is at " U " type groove structure that is set to the end sealing of cross section shown in accompanying drawing 9 among the embodiment one; Also can be set to any form of the end sealing of cross section shown in accompanying drawing 10; Also be provided with several wear-resisting bolt holes 134 on it, through wear-resisting bolt 131 positioning and fixing on the vanelets fixed block 143 of impeller body lower surface; The bottom of the side that is positioned at disengaged fixing replaceable primary blades on each primary blades fixed block 132 of the upper surface of impeller body 63 radially has been horizontally disposed with a holddown groove respectively; The height of this holddown groove just thickness with replaceable fan-shaped wearing plate 129 is identical; About about 2 centimeters of the horizontal depth of this groove; So when replaceable fan-shaped wearing plate 129 behind the holddown groove of primary blades fixed block 132 bottoms of the upper surface horizontal direction insertion impeller body 63 of impeller body 63; The radial edges that is arranged at just that it is the corresponding replaceable fan-shaped wearing plate 129 of boss on the bottom of replaceable primary blades 59 is tightly blocked and is made its positioning and fixing on the disc face of impeller body 63 upper ends, and the two joint is fixed in one.
This routine no medium micron mill is work like this:
Shown in accompanying drawing 2; Driving wheel on the no medium micron mill or shaft joint 33 be rotation at a high speed under the drive of motor; When lump ore class material is fallen by feed hopper 43; At first to pass through pan feeding inner core 54 and then material is evenly distributed on the upper surface of impeller assembly; Because the high speed rotating effect of impeller; Make lump material be able to instantaneous acceleration and under centrifugal action, dish out along the wheel rim tangential direction of impeller with very high linear velocity; And main liner plate 56 high-speed impacts in the pulverizing chamber 64 and bounce-back back and then and other material piece between and and impeller between impact each other, so that is to say under the drive that gets into the high velocity air of lump ore material in pulverizing chamber in the pulverizing chamber each other and and main liner plate between, high-speed friction and bump between the impeller, almost instantaneously just be ground into minimum powder material particle; And then under the drive of eddy airstream, get in the powder feeding chamber 55; Because eddy airstream has simultaneously the effect of cyclone classification again, promptly, so just can the material of the qualified particle diameter among them be sorted out with isodensity particles with different sizes material can just it separately becomes different particle diameter cohorts according to its suffered centrifugal force, running resistance and the difference of climbing power in air stream according to its size; Therefore get into powder material particles in the powder feeding chamber 55 and nearly all be qualified particle diameter; Have once in a while after the entering of big particle diameter because its air that can not afford greater than the gravity of its particle itself brushes the power effect; Thereby this bulky grain material piece can not continue uply can fall on the contrary along the internal cavities in powder feeding chamber 55, then falls again to continue in the pulverizing chamber 64 to obtain pulverizing to reach littler qualified particle diameter up to its particle diameter and can get in the mixed powder chamber 49 through powder feeding chamber 55; Qualified ore particles in mixing the powder chamber owing to receive the effect that blows of the air-flow of the certain pressure of discharging in the pulverizing chamber; Thereby get in the slurry mixing chamber in the swiftly flowing ore pulp moment from top to bottom with certain speed and mix with the ore pulp of low concentration wherein; Pulp amount in the ore pulp is more and more to make the pulp density in the slurry mixing chamber constantly increase along with the prolongation of time is sneaked into, and is discharged outside the bodies by discharge pipe 4 after reaching certified concentration; Also but Open valve 13 feeds the ore pulp that pipe 12 constantly feeds outside whole grinding system through the premix ore pulp;, slurry mixing chamber discharges the outside ore pulp of entering system outside the body through discharge pipe 4 immediately after sneaking into dried breeze; The reciprocation cycle of the ore pulp of whole like this ore pulp system through so not stopping just can rise to the pulp density of whole system needed pulp density level and then must think next step and proceed sorting operation and rationally utilize ready; Ease slurry pipe 10 plays the effect of keeping watch on ore pulp face 52 in the slurry mixing chamber 53; After ore pulp face 52 is too high, surpass and just have ore pulp in the setting value ease slurry pipe 10 and overflow; Also can strengthen ore pulp amount that discharge pipe 4 discharges through the ore pulp amount that feeds that feeds pipe 12 through the premix ore pulp and make ore pulp face 52 in the slurry mixing chamber keep being stabilized in to allow in the reasonable range thereby so just can reduce, thereby keep the high-quality and the stable operation of producing through adjustment valve 13; Atomized water feeds and replenishes clear water stablizing with the pulp density that satisfies the whole system in grinding process in pipe 6 and main feed water pipe 7 usefulness the dealing bodies; Guarantee the stable supplying of the interior ore grinding amount of unit interval of whole grinding system simultaneously; For the ore dressing operation of carrying out next step provides a good basic platform; Concrete working order is performed such: the clear water that is fed by main feed water pipe 7 at first gets into annular water chamber 37 and then the bottom in each distributive pipe 36 is sent into the tank 47 in the body; Then the ascending water along with the water level in the tank 47 just flows on the net grid 42 of spray chamber 48 bottoms along the top edge of sink body 51; Simultaneously feed the clear water that has filtered that pipe 6 feeds and at first get into annular conduit 38 by atomized water, and after each shower nozzle 39 atomizings and spray in the spray chamber and then also fallen on the net grid 42; So when machine run, enter the overmulling of flowing through of the air that carries a large amount of pulps slurry mixing chamber in and starch that possibly to have minute quantity when afterwards air is overflowed by the ore pulp face 52 in the slurry mixing chamber 53 wetted and dry powder that become ore pulp is entrained out; Upwards get into spray chamber after getting into the cavity of ore pulp face more than 52 in the slurry mixing chamber 53 then through multilayer net grid 42; In this section process because very fine and closely woven and its surperficial moisture films that has been covered with of sky of netting grid 42; Because the attraction force acts that is produced between ion that dry powder carries and the moisture film ion; Making the dry powder particle be easy to be drawn onto on the moisture film soaks; Also the dry powder particle is caught, soaked and downward flushing action by a large amount of water mist particles of shower nozzle 39 ejections; Therefore the air that gets into spray chamber 48 gets into clear water " cleaning " in the tank 47 and spills into aqueous vapor separation chamber 46 through the water surface then and carry out gas-water separation under the effect of internal body air pressure, the clean air that does not contain the breeze particle then is outside steam vent 5 discharge bodies.
Embodiment two, and with reference to accompanying drawing 3,6,7,8,9,10,11,12, shown in 13, the structure of itself and embodiment one is basic identical, and its improvements are:
One, the pulverizing chamber 64 among the embodiment two adopts the tube structure of oblate cylindricality fully; Main liner plate in the pulverizing chamber also change into by last liner plate 81 and arc master liner plate 82 about two parts combine, and be packed in the lump in the pulverizing chamber cylinder case 15 and and fit tightly with its inwall maintenance; Last liner plate 81 is big discoid thick wearing plates such as internal diameter of an external diameter and pulverizing chamber cylinder case 15; The aperture at its center is slightly smaller than the internal diameter of leading powder tube 9 that is positioned at its upper end; Its thickness is identical or slightly thin with the thickness of arc master liner plate 82, and its lower surface is set to certain convex shape; Following arc master liner plate 82 its integral body are first-class high annulars; The internal diameters of its external diameter and pulverizing chamber cylinder case 15 etc. are big; Its height adapts with the height of pulverizing chamber cylinder case 15; It can be cast into an overall structure, also can be set to combined by several piece shape volume and the identical monolithic arc of dimensional weight liner plate, and the external diameter after its combination and the internal diameter of pulverizing chamber cylinder case 15 etc. are big; Its inwall also is set to certain shape for lugs, and its height adapts with the height of pulverizing chamber cylinder case 15; Bottom set inside at arc master liner plate 82 has a circular bottom lining plate 62, and its thickness is slightly thinner and upper surface is more smooth than other liner plate, and its endoporus and bottom are respectively with the central upper portion boss of upper bearing (metal) housing 23 and upper surface fits tightly and fixation.
Two, radially be welded with several piece triangle support plate 79 at interval in the junction of leading powder tube 9 and pulverizing chamber cylinder case 15, to increase its bonding strength and stability.
Three, with reference to shown in the accompanying drawing 3; The rotating part of embodiment two changes and is made as the rolling bearing that is replaced embodiment one by the sliding bearing sleeve of thin oil lubricant and hydrostatic thrust bearing, is electroplate with high-abrasive material such as high hard chrome at the trunnion place at the bearing holder (housing, cover) position of correspondence or is provided with the anti-wearing liner of high rigidity; Hydrostatic thrust bearing and upper bearing sleeve 84 shared housings are called upper bearing (metal) housing 23; The endoporus of end cover 74 and upper bearing (metal) housing 23 all is positioned at same spindle axis line on upper bearing sleeve 84, lower bearing sleeve 88, hydrostatic thrust bearing end cover 87, hydrostatic thrust bearing price fixing 86, lower bearing lower seal end cap 31, the lower bearing; Its endoporus and keep minimum running clearance separately between the main shaft axle journal of corresponding site, between upper bearing sleeve 84, lower bearing sleeve 88 and its corresponding main shaft axle journal and between hydrostatic thrust bearing Moving plate 85 and the hydrostatic thrust bearing price fixing 86 all the corresponding separately running clearance of maintenance be that activity orientation is fixed; The lower end endoporus of end cover 74 is provided with the backbone sealing ring 66 supporting with its each position on the upper end endoporus of the upper end endoporus of the upper end of upper bearing (metal) housing 23 endoporus, hydrostatic thrust bearing end cover 87, lower bearing lower seal end cap 31 and lower bearing; Closely be fixed with the wear washer 83 of a concentric at the bottom notch place near backbone sealing ring 66 of upper bearing (metal) housing 23; Keeping between the endoporus of this wear washer 83 and its corresponding axle journal relatively slides rotates is that the two maintenance is located and is slidingly connected; The suitable position of two sections up and down of upper bearing sleeve 84, lower bearing sleeve 88 is interrupted separately and is drilled with the bearing holder (housing, cover) spill port 89 that several are communicated with down vertically; Be provided with on the lower end wall of upper bearing (metal) the housing 23 and oil groove of hydrostatic thrust bearing end cover 87 bottom that oil return pipe is connected on an oilhole and the outside; The bottom also is provided with an oilhole and is connected with the following oil return pipe 30 at outer wall place under the inside tank of lower bearing lower seal end cap 31; The medium position of upper bearing (metal) housing 23 corresponding upper bearing sleeves 84 be provided with one radially the aperture that runs through the two be fixed in the upper bearing (metal) housing outside on oil inlet pipe 20 be connected; Also be provided with one in the appropriate location, middle part of upper bearing (metal) housing 23 corresponding hydrostatic thrust bearing price fixings 86 and run through the aperture of the two and be connected, also be provided with radially an aperture that runs through the two at the medium position vertically that is positioned at lower bearing sleeve 88 together with lower bearing housing 28 middle parts and be connected with the lower bearing room's oil inlet pipe 70 that is fixed in lower bearing housing 28 with pressure oil pipe 90 outside being fixed in the upper bearing (metal) housing; The top of the backbone sealing ring 66 in the endoporus of the upper end of upper bearing (metal) housing 23 is drilled with an aperture along this inner hole wall corresponding to the gap between the axle journal of main shaft 32 and is connected with the air inlet pipe 21 of the upper end of being fixed in upper bearing (metal) housing 23.
Four, in the present embodiment the slurry mixing chamber 53 and the cavity between the spray chamber 48; Be provided with several layers of net grid 42 from top to bottom, also can (shown in accompanying drawing 3 upper left quarters) be horizontally disposed with several layers of annular angle steel 80 be welded on respectively sink body 51 inwall and in suitable position corresponding positioning and fixing up and down on the outer wall of separating tube 40.This structure makes in the tank 47 clear water that overflows along the inwall of sink body 51 and will be through back haul repeatedly when the atomized water of shower nozzle ejection falls with certain speed from top to bottom; This just to more effectively the cutting at the end of the air purge of the dust-laden mineral grain that overflows along the ore pulp face from slurry mixing chamber 53, has been avoided mine dust the harm of operating environment on every side to be improved simultaneously the organic efficiency of breeze.
Five, in the present embodiment mutually airtight being located by connecting of bottom endoporus of upper end outer wall and collection chamber housing 78 of slurry mixing chamber housing 8; The toroidal cavity that so constitutes is a collection chamber 77, and the air that is got into collection chamber 77 by aqueous vapor separation chamber 46 is discharged outside the body through blast pipe 76.
Embodiment three, and with reference to accompanying drawing 4,6,7,8,9,10,11,12,13,14,15,16, shown in 17, embodiment three and previous embodiment one, embodiment two have a lot of similarities, and its improvements are:
One, among the embodiment three; One-level pulverised form among embodiment one, the embodiment two is improved to multistage pulverised form; The embodiment three here is that example describes with the secondary pulverised form: following three parts during the pulverizing chamber housing among the embodiment three is divided into, top are that last pulverizing chamber body shell (claim not only one-level pulverizing chamber body shell) 120, middle part are that cyclone separating chamber 96, bottom are pulverizing chamber cylinder case (but also claiming secondary pulverizing chamber body shell) 15; In last pulverizing chamber body shell 120, be provided with liner plate 1, arc master liner plate 82, wear ring 144 and guide liner plate 93 from top to bottom; It is a short funnel-form that the steel disc that last liner plate 1 is a heavy wall and middle is cast; Fit with the plane of the upper interior end of last pulverizing chamber body shell 120 and be fixedly connected in its upper surface; Its outer rim engages with vertical inwall of last pulverizing chamber body shell 120; Its lower end engages fixing with the upper surface of arc master liner plate 82, arc master liner plate 82 positioning and fixing are on vertical inwall of last pulverizing chamber body shell 120, and the inwall of its bottom and the outer rim of wear ring 144 closely are abutted against; Transverse plane fits and positioning and fixing on the common and guide liner plate 93 in its two lower surface; Guide liner plate 93 profiles are similar with last liner plate 1, also be that steel disc and the centre of a heavy wall cast are a funnel-form, and just this funnel part is higher greatly slightly slightly and be with the tubular mouth along (shown in accompanying drawing 4) slightly.Pulverizing chamber cylinder case 15 is a cylinder barrel shaped; Its inwall positioning and fixing has arc master liner plate 82; The upper surface of this arc master liner plate 82 engages and is fixedly connected with the outer rim position of last liner plate 2 95 lower surfaces; The lower end inwall of this arc master liner plate 82 is connected with the outer rim positioning and fixing of bottom lining plate 62, and the lower surface of bottom lining plate 62 keeps the location with the upper surface of upper bearing (metal) housing 23 and is fixedly connected.Cyclone separating chamber 96 is one by guide liner plate 93, goes up the cavity structures that liner plate 2 95 and Arc grid liner plate 91 are formed jointly, and its end opening communicates with following pulverizing chamber inner chamber 101, and its periphery is connected with powder feeding chamber 55 through the duct on the Arc grid liner plate 91.
Two, the bottom position at last pulverizing chamber inner chamber 100 and following pulverizing chamber inner chamber 101 centers is provided with and pulverizes impeller (being impeller one) and pulverize impeller (being impeller two) down; Last pulverizing impeller, pulverize impeller down and be set on the main shaft 32 together with between the two protective shaft sleeve 99; And by it each self-corresponding key bar 35 and locking emit 38 be fixed together with main shaft 32 on. on pulverize impeller and pulverize impeller down and have a little different, show down that mainly toroidal cavity that the centre of pulverizing its lower surface of impeller is provided with a plurality of concentrics is used for forming the labyrinth type dust ring in case the outdoor dust of upper bearing (metal) gets into and goes up the pulverizing impeller in it and then need not to be provided with this groove with the boss of the corresponding site of the upper surface of upper bearing (metal) housing.
Three, the upper surface of pulverizing the replaceable fan-shaped wearing plate 129 of impeller on is the wearing and tearing of the slightly high raw mineral materials piece that impeller is discharged when reducing machine run of the upper surface of surface ratio wear ring 144 of its wearing layer 138 to wear ring 144.
Four, in embodiment three; The appropriate location, lower surface and the interior separating tube 40 of feed hopper upper flange 1 closely are welded as a whole; Lateral wall horizontal welding along interior separating tube 40 is connected to the annulus that several roll with angle steel, and makes the outer rim of this annulus corresponding with the angle of angle steel, is connected to the annulus that several roll with angle steel in the inboard horizontal welding that mixes vertical outer wall of starching staving 102; And make the inner edge of this annulus corresponding with the angle of angle steel; When the lower surface of feed hopper upper flange 1 is connected with the upper flanges of mixing slurry staving 102, make the bight that is positioned at the annulus angle steel on its two that staggered up and down evenly the setting and the space equidistance between the angle of annulus angle steel is set in opposite directions; Mix slurry staving 102 and be arranged to cylinder barrel shape structure; Its inner bottom and isolating cylinder 103 are welded in one; Isolating cylinder 103 inwardly with last pulverizing chamber body shell 120 between radially vertical put welding several piece connecting plate the two is firmly connected into as a whole, between the connecting plate the inwall of isolating cylinder 103 and on maintenance equi-spaced apart setting on the outer wall of pulverizing chamber body shell 120; Isolating cylinder 103 inwardly with last pulverizing chamber body shell 120 between and be separated with suitable distance between equal outwards and between the interior separating tube 40; The lateral wall place near the bottom of mixing slurry staving 102 sets gradually from bottom to top and is fixed with the premix ore pulp and feeds pipe 12, discharge pipe 4 and ease slurry pipe 10, and the longitudinal side wall place on its top sets gradually from top to bottom and is fixed with blast pipe 76, atomized water feeds pipe 6 and main feed water pipe 7.Mixing the bottom of slurry staving 102 locatees and is fixedly connected with the upper flanges of pulverizing chamber cylinder case 15.Form spray chamber 48 between interior separating tube 40 and the mixed slurry staving 102 vertical inwalls; Keep the upper end airtight and be located by connecting between interior separating tube 40 and the last pulverizing chamber body shell 120; Slurry mixing chamber 53 is formed at isolating cylinder 103 and the bottom of mixing between slurry staving 102 vertical inwalls; Form to mix powder chamber 49 between isolating cylinder 103 and the interior separating tube 40, form between isolating cylinder 103 and the last pulverizing chamber body shell 120 between 55. powder feeding chambeies 55, powder feeding chamber and the cyclone separating chamber 96 and be connected through much individual grid liner plate bar holes 92 that are arranged on the Arc grid liner plate 91.
Five, the corresponding and positioning and fixing of the oral area of feed hopper 43 lower end oral areas and last liner plate 1 connects; Keep suitably material piece movement clearance between the oral area lower limb of the center position of last liner plate 1 and the replaceable blade of last pulverizing impeller, keep suitably material piece movement clearance between the replaceable blade of the oral area lower limb of the central position of guide liner plate 93 and following pulverizing impeller.
This routine no medium micron mill is work like this:
Shown in accompanying drawing 4; Driving wheel on this no medium micron mill or shaft joint 33 be rotation at a high speed under the drive of motor; When lump ore class material is fallen by feed hopper 43; At first the central oral area through last liner plate 1 evenly is laid between the replaceable blade of pulverizing impeller; Owing to high-speed impact moment of blade will be expected that piece accelerates to and impacted each other than fine granularity after very high linear velocity is pulverized and launched on along the tangential direction impelling at impeller edge to the arc master liner plate 82 of last pulverizing chamber inner chamber 100; Pass through under the drive of graininess material piece with the high velocity air funnel-form central authorities mouthful of guide liner plate 93 continue impelling and also impact each other and be ground into tiny powder material along being distributed in down downwards between the replaceable blade of pulverizing impeller; A large amount of tiny powder materials are being mingled with a certain amount of Powdered raw mineral materials dispatch that will conform with granularity requirements with the drive of the high velocity air in the pulverizing chamber inner chamber 101 down with the form of high speed vortex than little grainy material to be advanced to continue in the cyclone separating chamber 96 classifications the qualified Powdered mineral of high concentration is transported in the powder feeding chamber 55 through the grid liner plate bar hole 92 that is laid in the peripheral Arc grid liner plate 91 of cyclone separating chamber 96, so on be advanced into and mix the powder chamber and be advanced into for 49 times and be mixed into the high concentration ore pulp in the premix ore pulp in the slurry mixing chamber 53 after discharge pipe 4 is discharged outside the bodies.
Embodiment four is that example describes with the secondary pulverised form, and with reference to accompanying drawing 5,6,7,8,9,10,11,12,13,14,15,16, shown in 17, present embodiment and previous embodiment especially embodiment three have many similarities, and its difference is:
One, the upper bearing (metal) housing in embodiment three is set to the lower bearing housing in present embodiment four; 23 of upper bearing (metal) housings among the embodiment four are arranged on the medium position of the upper bearing plate 109 that is positioned on the feed hopper upper flange, locate and are fixedly connected with its maintenance.Following pulverizing chamber housing 122 in this example is that following pulverizing chamber cylinder case and upper bearing (metal) housing among the embodiment three are united two into one, and is cast in one after car system forms, and its lower end is located and is fixedly connected with supporting seat ring 124.
Two, main shaft 32 from top to bottom successively with hydrostatic thrust bearing Moving plate 85, Lower shaft sleeve 125, down pulverize impeller body 98, lower end protective shaft sleeve 99, on pulverize impeller body 97, upper end protective shaft sleeve 99 be connected in series mutually and each self-corresponding key bar 35 and principal shaft locking nut 119 fixedly secure via it, be located by connecting in one; The outer rim that is positioned at principal shaft locking nut 119 is overlapped intrinsic one dustproof dish 118; Pass through the appropriate position of adjustment screw 44 positioning and fixing on main shaft 32, location in the upper side of dustproof dish 118; And the round ring boss that makes the concentric that is arranged at its upper surface just upwards is embedded in the concentric toroidal cavity that is provided with on the corresponding medium position in upper bearing plate 109 lower surfaces, and keeps being between the two friction free and rotate relatively freely state; Central shaft hole and backbone sealing ring 66 and wear washer 83 that main shaft 32 is upward through axis hole, upper bearing (metal) housing 23 bottoms in the centre of upper bearing plate 109 thus kept the win positioning and fixing to be connected with Upper shaft sleeve 107, and then were upward through the central shaft hole of upper bearing (metal) upper end cover 108 and the backbone sealing ring 66 at this place is fixedly connected with the key bar 35 of main shaft shaft joint 33 through this place.
Three, in the lower bearing housing of embodiment four, be fixed with backbone sealing ring 66, wear washer 83, lower bearing sleeve 88, Lower shaft sleeve 125, hydrostatic thrust bearing Moving plate 85, hydrostatic thrust bearing price fixing 86 and hydrostatic thrust bearing end cover 87 from top to bottom successively; Lower shaft sleeve 125 kept the win positioning and fixing to be connected with the axle journal corresponding site of main shaft 32, and hydrostatic thrust bearing Moving plate 85 leans on screw thread and dog screw 44 closely to be fixedly connected with the lower shaft end of main shaft 32, becomes the overall structure of same center of rotation.Hydrostatic thrust bearing Moving plate 85 lower surfaces and hydrostatic thrust bearing price fixing 86 upper surfaces all are treated as the smooth mirror surface planar structure that is parallel to each other through grinding; In hydrostatic thrust bearing price fixing 86 upper surfaces, be provided with between several these oil grooves of annular oil groove and be interconnected through several oil grooves radially; And be connected with the main oil-hole that is arranged at hydrostatic thrust bearing price fixing 86 centres, this main oil-hole is connected with the hydrostatic thrust bearing oil inlet pipe 126 that is arranged at hydrostatic thrust bearing end cover 87 centers.
Four, upper bearing plate 109 is the disk that a thick steel sheet is processed; Near the position of about 1/2nd radius in its center two rectangular feeding throats along same diameter symmetry and about laterally arranging; On long limit, the left side of left charging aperture, connect left material bin bottom plate 117 with certain inclination angle positioning and fixing, the bottom of left material bin upper head plate 115 being welded near a long limit at upper bearing plate 109 centers at left feeding mouth becomes a firm integral body on the upper bearing plate 109; Right feeding mouth near the long limit at upper bearing plate 109 centers on the bottom of right material bin upper head plate 111 be welded in become a firm integral body on the upper bearing plate 109; On another long limit of right feeding mouth, right material bin bottom plate 112 is connected on the upper bearing plate 109 with certain inclination angle positioning and fixing; Arbitrary homonymy all is welded in one with a common side panel in the two sides of left material bin and right material bin; The edge of two feeding mouth minor faces on the lower limb of this side panel and the upper bearing plate 109 is welded in one; Thereby the left side constitutes left material bin inner chamber 116; The right constitutes right material bin inner chamber 110; Middle by left material bin upper head plate 115, right material bin upper head plate 111 and both sides panel to constitute the cavity structure that opens wide the upper end jointly be transmission cavity 127. in the inside of transmission cavity 127 suitably highly the inner surface horizontal welding of the left material bin upper head plate in edge, place 115, right material bin upper head plate 111 and both sides panel be connected to a vertical machine erection support 114, the appropriate position all is fixed with the tramp iron separator 113. of several piece magneto on the side panel of left material bin upper head plate 115, left material bin bottom plate 117, right material bin upper head plate 111, right material bin bottom plate 112 and two material bins
The no medium micron mill of present embodiment is work like this:
Shown in accompanying drawing 5; Driving wheel on this no medium micron mill or shaft joint 33 be rotation at a high speed under the drive of motor; When lump ore class material is fallen with right material bin inner chamber 110 by left feed hopper inner chamber 116 respectively; At first remove the metal sundries such as iron block treating to be mingled with in the ore grinding stone in order to avoid damage machine through the tramp iron separator 113 that is arranged at the material bin inwall; Nugget and then get into through material bin 43 and the bell mouth of going up liner plate 1 downwards and go up pulverizing chamber inner chamber 100; Under the high-speed projectile of impeller one and be ground into small particles material; After the outer rim of impeller one and wear ring 144 in intermarginal slit get into time pulverizing chamber inner chamber 101 through the bell mouth of last liner plate two downwards; The nugget material of larger particles will obtain relative bigger kinetic energy and pulverize under the high-speed projectile of impeller two, and tiny powdered material only obtains very little kinetic energy thereby pulverized very light, and raw mineral materials is crushed into fine powdered uniformly after multistage pulverizing; It is indoor that the inlet of the cyclone separating chamber 96 that is provided with through the upper end of afterbody pulverizing chamber inner chamber under the drive of the high velocity air of a large amount of tiny powdered materials in pulverizing chamber upwards gets into cyclonic separation; Get into powder feeding chambeies 55 after be arranged at the grid liner plate bar holes 92 of cyclone separating chamber 96 periphery, and then upwards get into and mix powder chamber 49, get into downwards in the slurry mixing chamber 53 to mix and reach finite concentration after outside the discharge pipe 4 discharge bodies with the premix ore pulp along mixing the powder chamber.The mineral dust that does not get into ore pulp ore pulp face in the slurry mixing chamber 53 under the drive of air-flow overflows continued and upwards gets into spray chamber 48, behind the spray washing of spray water, gets into downwards in the ore pulp in the slurry mixing chamber 53.

Claims (8)

1. no medium micron mill; Body is provided with loading hopper; The below of loading hopper connects the guide tube, and feed hopper upper flange below connects mixes the slurry tube, below the guide tube, is provided with at least one and pulverizes chamber; Be provided with in the upper end of the pulverizing chamber of next stage and lead among both any of powder tube or cyclone separating chamber; It is characterized in that the rotating part of no medium micron mill of the present invention is vertical rotating shaft form, and string is adorned one or more impeller bodies on axle; On upper and lower two end faces of this impeller body, optionally be fixed with a plurality of removable abrasion-resistant blades and skin, make it become impeller of rotor assembly with individual layer or twi-tier blade; The peripheral corresponding setting of impeller assembly by by on the wear-resisting lining formed such as liner plate, guide liner plate, wear-resisting retainer ring, arc master liner plate, bottom lining plate, its internal cavities promptly constitutes the pulverizing chamber, is UNICOM up and down between the pulverizing chambers at different levels; Gape is arranged at the appropriate location of the next stage pulverizing chamber upper end of flour mill; It is positioned at leads the lower end oral area that powder tube inner bottom is the powder feeding chamber (pulverizing chamber more than the secondary then its gape is the feeding mouth of cyclone separating chamber); It is upwards through being connected with slurry mixing chamber through mixing the powder chamber on the powder feeding chamber with after mixed powder chamber is communicated with; Slurry mixing chamber is divided into inside and outside two parts that the lower end communicates by interior separating tube with its upper cavity; Inner and mixed powder chamber is communicated with the outside and is communicated with spray chamber; Tank upper end cavity is divided into inside and outside two parts that the lower end is communicated with by outer separating tube, and the inner outside that is connected with spray chamber is connected with the aqueous vapor separation chamber, and the aqueous vapor separation chamber is connected with the steam vent that is arranged at slurry mixing chamber housing top.
2. this no medium micron mill according to claim 1; It is characterized in that; This machine mainly is made up of rotating part and standing part, and rotating part mainly is made up of driving wheel or shaft joint, time rolling bearing assembly, thrust magnetic bearing assembly (or mechanical hydrostatic thrust bearing assembly), last rolling bearing assembly, vertical main shaft and impeller assembly etc.; Following rolling bearing assembly is made up of end cover, lower bearing lower seal end cap, lower bearing room's oil inlet pipe, following oil return pipe, corresponding backbone sealing ring and bearing roller on lower bearing housing, bearing inner ring, outer race, the lower bearing; Last rolling bearing assembly is made up of ring, upper bearing (metal) outer shroud, upper bearing (metal) end cover, air inlet pipe, last oil inlet pipe, last oil return pipe, corresponding backbone sealing ring and bearing roller in upper bearing (metal) housing, the upper bearing (metal); The thrust magnetic bearing assembly is arranged on the optional position near two ends or centre of main shaft; Magnetostatic power dish 71, moving magnetic force dish 67, thrust magnetic bearing lower seal end cap 73 and corresponding backbone sealing ring 66 that (if selecting mechanical hydrostatic thrust bearing to replace thrust magnetic bearing to adopt the identical form that is provided with), thrust magnetic bearing assembly mainly by thrust magnetic bearing housing 26, directly or indirectly are fixed on the supporting disk 25 at connecting cylinder 34 middle parts are formed; The impeller assembly is made up of impeller body 63, replaceable primary blades 59, replaceable vanelets 61, replaceable fan-shaped wearing plate 129, replaceable material casting plate 130, wear-resisting check bolt 60; The standing part of this no medium micron mill is mainly by feed hopper upper flange 1; Feed hopper 43; Mix slurry cylinder shell 8; Interior separating tube 40; Outer separating tube 41; Regulate tube 75; Sink body 51; Net grid 42; Distributive pipe 36; Annular conduit 38; Annular water chamber 37; Water main 7; Shower nozzle 39; Discharge pipe 4; Ease slurry pipe 10; The premix ore pulp feeds pipe 12; Pan feeding inner core 54; Lead powder tube 9; Pulverizing chamber upper cone shell 14; Pulverizing chamber cylinder case 15; Main liner plate 56; Bottom lining plate 62; Upper bearing (metal) housing 23; Connecting cylinder 34; Compositions such as lower bearing housing 28 and bearing 29; The upper bearing (metal) housing 23 of rotating part through upper bearing (metal) shell flange 18 with pulverizing chamber housing lower flange 7 and be connected the connection of cylindrical shell upper flange 19 positioning and fixing; Lower bearing housing 28 be connected cylindrical shell lower flange 27 location and be fixedly connected; The rotating part positioning and fixing is in the body shell of machine and form the overall structure that can rotate around spindle axis; The impeller assembly is positioned at its center that belongs to crushing chamber accordingly location on the lower side; And keep suitable running clearance between the replaceable vanelets 61 of impeller lower surface and the bottom lining plate 62, keep being slightly larger than the radial clearance of impeller radius length between the inwall of the main liner plate of the radially outward edge of impeller and the crushing chamber at its place.Directly over the center of first order impeller, one cylindrical shape pan feeding inner core 54 vertically is set along the suitable at interval distance of spindle axis line direction; The lower end cylindrical shape outlet outer wall that this pan feeding inner core upper end is long cylinder barrel shaped and feed hopper 43 is fit and can keep sliding up and down also between the two that socket is positioned the appropriate location mutually just; The center line of pan feeding inner core and spindle axis line remain same straight line, and the bottom of pan feeding inner core 54 is the suitable distance of maintenance between the replaceable blade of the horn shape of under shed and its lower limb and impeller upper surface; Pulverizing chamber is arranged at the medium position of body; The upper end of pulverizing chamber is that profile is centrum shell 14 on the pulverizing chamber of a truncated cone-shaped in embodiment one; The bottom is that profile is a flat columniform pulverizing chamber cylinder case 15; In the inside of pulverizing chamber cone shell 14 and pulverizing chamber cylinder case 15, lean on its inwall place evenly to be provided with the main liner plate 56 of certain thickness high-wearing feature; Be fixed with the bottom lining plate 62 of an annular in main liner plate 56 bottom inner horizontal, the radially inward edge of bottom lining plate and lower surface respectively with the upper surface of the middle boss outward flange of upper bearing (metal) housing 23 and upper bearing (metal) housing be abutted against mutually its radially outward edge just with the lower end inward flange tabling of main liner plate; The upper bearing (metal) shell flange 18 of pulverizing chamber housing lower flange 17 and upper bearing (metal) housing 23 and be connected cylindrical shell upper flange 19 location and closely be fixed in one; Pulverizing chamber upper cone shell 14 suitable for reading with lead powder tube 9 and firmly be welded into a sealed whole structure; The outer wall of leading the appropriate position on powder tube 9 tops welds with the interior bore edges of the center bottom of mixing slurry cylinder shell 8 mutually; Make it become one firmly and the sealed whole structure, outwards just form slurry mixing chamber 53 between the cylinder shell 8 with mixing to starch leading appropriate position, powder tube 9 top; Feed hopper 43 and pan feeding inner core 54 and lead powder tube 9 and the cavity regulated between the tube 75 constitutes powder feeding chamber 55; The cavity of regulating tube 75 and leading between powder tube 9 and the interior separating tube 40 constitutes mixed powder chamber 49; Be with a cylindrical tube closely at the topmost outer wall of leading powder tube 9 and promptly regulate tube 75; On the lower part wall of this adjusting tube 75, be provided with several location adjustment screw 44, will regulate tube 75 through this location adjustment screw 44 and closely be fixed in the appropriate position of leading the powder tube; The upper end of interior separating tube 40 and outer separating tube 41 and the lower surface of feed hopper upper flange 1 structure that is welded as a whole; Cavity between interior separating tube 40 and the outer separating tube 41 constitutes spray chamber 48; Outer separating tube 41 and the cavity that mixes between the slurry cylinder shell 8 constitute aqueous vapor separation chamber 46; The toroidal cavity that forms between sink body 51 and the mixed slurry cylinder shell 8 constitutes tank 47; In the position level welding fixing annular water chamber 37 of the inwall that mixes slurry cylinder shell 8 a little more than sink body 51; There is a main water inlet tube 7 that passes and closely be fixed on the mixed slurry cylinder shell 8 to communicate with these annular water chamber 37 inside; On the going to the bottom of annular water chamber 37 at interval suitably distance divide equally and be communicated with the distributive pipe 36 that several end openings insert tank 47 at; Along the inwall of outer separating tube 41 and welding angle fixed-site one annular conduit 38 between the feed hopper upper flange 1, on this annular conduit 38 at interval suitably distance divide equally and be fixedly connected with several and be attached thereto the logical shower nozzle that Open Side Down 39, annular conduit 38 and passes to mix and starches atomized water that cylinder shell 8 reaches outer separating tube 41 and feed and manage 6 and be connected; Airtightly in the bottom of mixing slurry cylinder shell 8 be welded with the premix ore pulp that an inner with it slurry mixing chamber 53 is connected and feed pipe 12, the lower end that the premix ore pulp feeds pipe 12 is connected with the flow inlet of valve 13 and outside; Inside at slurry mixing chamber 53 is provided with a kuppe 50 near the mouth of pipe place that the premix slurry feeds pipe 12; (being place, plane on the ore pulp of slurry mixing chamber) is provided with a thicker ore discharge pipe 4 and is connected with slurry mixing chamber 53 at the suitable height and position place of mixing slurry cylinder shell 8, the position slightly higher than discharge pipe 4 be provided with equally an ease slurry manage 10 with slurry mixing chamber 53 in ore pulp be connected; Upper position mixing slurry cylinder shell 8 is provided with a few steam vents 5; Be fixedly connected with several reinforced supports 11 between the centrum shell 14 on mixed slurry cylinder shell 8 and the pulverizing chamber; Mix slurry cylinder shell upper flange 2 and be fixedly connected on one with feed hopper upper flange 1; The lower end of the interior separating tube 40 that the lower surface of feed hopper upper flange 1 is fixing extend into ore pulp face about 10-25 below 52 centimetre appropriate position in the slurry mixing chamber 53; The lower end of the outer separating tube 41 that the lower surface of feed hopper upper flange 1 is fixedly connected extend into below the horizontal plane in the tank 47 about 8-15 centimetre appropriate location, between interior separating tube 40 and the sink body 51 and interior separating tube 40 and the mixed net grid 42 that are provided with several layers of suitable order degree between the cylinder shell 8 of starching.
3. no medium ultra micro flour mill according to claim 1 and 2 is characterized in that, on the main shaft of flour mill, optionally is provided with hydrostatic thrust bearing or non-lubricating permanent magnet suspension thrust bearing by thin oil lubricant.The Moving plate of hydrostatic thrust bearing is fixed on the main shaft and keeps concentric to be connected with main shaft; The price fixing of hydrostatic thrust bearing is fixed in the bearing chamber shell indirect securement on frame, and the oilhole maintenance in the price fixing of the oilhole of pressure oil pipe through being arranged on the hydrostatic thrust bearing housing (among the embodiment four for being arranged on the hydrostatic thrust bearing end cover) and hydrostatic thrust bearing is interconnected; The movable magnetic disc of permanent magnet suspension thrust bearing is connected with main shaft, decides disk and directly or indirectly is fixed on the frame.
4. no medium ultra micro flour mill according to claim 1 and 2; It is characterized in that; No its rotating part of medium micron mill is to be provided with like this: the center of the supporting disk 25 in connecting cylinder 34 is provided with an axis hole; Set firmly the backbone sealing ring 66 that matches with main shaft at the upper limb of this axis hole; On the lower surface of supporting disk 25, be fixedly connected sequentially from top to bottom magnetic pole downward magnetostatic power dish 71, thrust magnetic bearing housing 26 and thrust magnetic bearing end cap 73 of same axle center with the axis hole center line, the moving magnetic force dish 67 that tight socket one magnetic pole makes progress in the appropriate location, middle part of main shaft 32, and moving magnetic force dish 67 is firmly secured on the main shaft 32; Moving magnetic force dish 67 activities are fixed in the thrust magnetic bearing housing 26; The moving magnetic force dish 67 that is fixed on the main shaft 32 is the xenogenesis magnetic pole and makes the certain running clearance of maintenance between the two with the corresponding plane of magnetostatic power dish 71 on being fixed in supporting disk 25; Also keep suitable running clearance between the lower surface of moving magnetic force dish 67 and the thrust magnetic bearing lower seal end cap 73 and between the inwall of the radially outer edge of moving magnetic force dish 67 and thrust magnetic bearing housing 26, be provided with the outside framework oil seal 66 that matches with the main shaft axle journal at the axis hole place of thrust magnetic bearing bottom end cover 73.The axis hole that kept winning behind the backbone sealing ring 66 that matches with the main shaft diameter of axle that encircles 69 in the upper bearing (metal) that cooperates, set firmly in upper bearing (metal) housing 23 central shaft holes and upper bearing (metal) housing 23 central shaft holes on the impeller body with an impeller assembly with the supporting backbone sealing ring 66 of main shaft, with it that passes successively from bottom to top in the upper end of main shaft 32 that the endoporus top of upper bearing (metal) end cover 24, upper bearing (metal) end cover 24 sets firmly closely is connected; Connect the axle journal place and be provided with key bar 35; The spindle nose end of the main shaft 32 after passing impeller body be provided with wheel rotation in the opposite direction and with locking 58 retaining threads that match that emit; Lockingly emit 58 to be anchored on the spindle end retaining thread of impeller outer, be installed with a wear-resisting guard shield 57 through hexagon socket head cap screw 45 locking emitting outside 58; The spindle nose place is provided with screw vertically in the upper end of main shaft 32; Pass wear-resisting guard shield 57 hexagon socket head cap screw 45 the threaded portion just tightening in the screw of this spindle nose end, the head of this hexagon socket head cap screw 45 then build-in in the fixedly deep hole that the top of wear-resisting guard shield 57 is provided with.The main shaft 32 that is positioned at thrust magnetic bearing lower seal end cap 73 lower ends pass successively from top to bottom be arranged on the lower bearing axis hole of end cover 74 on the backbone sealing ring 66 on end cover 74 axis holes, the lower bearing, with it kept winning the axis hole of the lower bearing that cooperates encircles 69, lower bearing lower seal end cap 31 axis holes set firmly backbone sealing ring 66 and lower bearing lower seal end cap 31 after, the bottom of main shaft 32 closely is fixedly connected through key bar 35 with the axis hole of driving wheel or shaft joint 33.The axis hole of end cover 74 and the axis hole of lower bearing lower seal end cap 31 all keep suitable running clearance on the axis hole of the axis hole of main shaft 32 and upper bearing (metal) housing 23, the axis hole of upper bearing (metal) end cover 24, supporting disk 25, the axis hole of thrust magnetic bearing lower seal end cap 73, the lower bearing; The appropriate position of upper bearing (metal) housing 23 be respectively equipped with oil inlet pipe 20, air inlet pipe 21 and on oil return pipe 22; Be installed between last oil inlet pipe 20 and upper bearing (metal) housing 23 internal cavities on the upper bearing (metal) housing 23 and be connected through the oilholes in the upper bearing (metal) housing 23 that is located at the bearing upper end, last oil return pipe 22 is connected with the foot place of upper bearing (metal) enclosure interior cavity through oilhole and the corresponding oilhole that is arranged on the upper bearing (metal) lower seal end cap 24 that is arranged at the upper bearing (metal) lower housing portion; Appropriate location on end cover on the lower bearing 74 also is provided with an oilhole, and this oilhole is inner to be connected with the internal cavities of lower bearing housing 28, its outer end be fixedly connected on lower bearing on lower bearing room's oil inlet pipe 70 on the end cover 74 be connected; The appropriate location also is provided with a spill port on the bottom sidewall of lower bearing lower seal end cap 31, and this oilhole is inner to be connected with the internal cavities bottom of lower bearing housing 28, and its outer end is connected with the following oil return pipe 30 that is installed in lower bearing lower seal end cap 31; The concentric toroidal cavity 135 and the corresponding setting that are arranged on the axis hole position, lower surface of impeller body 63 keep the movable interlocking of mutual friction free and constitute the labyrinth type dust ring jointly between the concentric round ring boss at the axis hole position of upper bearing (metal) housing 23 upper surfaces; Keep the two all to be positioned at same spindle axis; When impeller body 63 toroidal cavity 135 on it when freely rotate in this axle center is halved together with the round ring boss 142 at the corresponding axis hole position of upper bearing (metal) housing 23 upper surfaces and keeps suitable running clearance, do not contact mutually between the two; Be fixedly arranged between the axis hole internal cavities on air inlet pipe 21 and the upper bearing (metal) housing 23 on the upper bearing (metal) housing 23 (being the cavity between axis hole and the main shaft on the upper bearing (metal) housing 23) through the slotted hole that is arranged in the upper bearing (metal) housing and be connected.
5. according to claim 1,2,4 described no medium ultra micro flour mills; It is characterized in that; The impeller of no medium micron mill of the present invention is to be provided with like this: with reference to accompanying drawing 2,3,4,5,6, shown in 7, impeller mainly is made up of impeller body 63, replaceable primary blades 59, replaceable vanelets 61, replaceable fan-shaped wearing plate 129, replaceable material casting plate 130 and wear-resistant block 133; Impeller body 63 is a foundry goods; Be high heavy wall cylinder barrel shaped wherein; The inwall car of this cylinder become with the supporting hole of main shaft axle journal and within it wall be milled with one with main shaft on the keyway of setting vertically that agrees with mutually of the key bar that is provided with; The internal diameter of impeller body all cooperates closely and positioning and fixing with the corresponding external diameter of main shaft and key bar with keyway on it; Have one in the casting of the periphery of the outer wall middle of this cylindrical drum and keep the disk of same center of rotation with main shaft; And on the both ends of the surface up and down of this disk, radially be evenly equipped with several primary blades and vanelets fixed block one to one and make it keep dynamic balancing along center of rotation; Vertically be drilled with the circular hole that the screw 136 of identical several and replaceable fan-shaped wearing plate 129 reverse side matches in the identical position between each fixed block on the disk; Replaceable fan-shaped wearing plate 129 positioning and fixing on the disc face between the fixed block of the upper surface of impeller body 63, on each fixed block 132, also be respectively arranged with several screws and circular hole so as firm with replaceable primary blades 59, replaceable vanelets 61 and replaceable material casting plate 130 positioning and fixing in one; Replaceable primary blades 59, replaceable vanelets 61, replaceable fan-shaped wearing plate 129 and replaceable material casting plate 130 are double-decker; Its inside or bottom are substrate layer 137; Process by carbon steel and medium hardness steel alloy; Its outside or top are wearing layer 138, evenly also can be interrupted to be laid on the substrate layer 137 being welded by polylith high strength anti abrading block 133, and wearing layer and substrate layer firmly weld or be cast in an overall structure; Be provided with the screw 136 of several certain depths at the suitable position of the substrate layer 137 of replaceable fan-shaped wearing plate 129, the mounting engagement face shape between the two primary blades fixed blocks 132 of the upper surface on the plate face shape of replaceable fan-shaped wearing plate 129 impeller body 63 corresponding with it is identical; Wearing layer 138 end faces of replaceable material casting plate 130 also are provided with several wear-resisting bolt holes; When wear-resisting bolt 131 is located the 132 last times of primary blades fixed block of being fixed in impeller body, make the wearing layer surface of this wear-resisting bolt 131 and the wearing layer flush of replaceable material casting plate 130; On the radially outer edge of impeller body 63, evenly also can be welded with several wear-resistant blocks 133 at interval, the material of this wear-resistant block 133 and wearing layer 138 is high hardness materials such as carbide alloy, diamond and tungsten carbide; With reference to accompanying drawing 6,7, shown in 10; Replaceable primary blades 59 is set to a cross section and is down " L " type structure with reference to shown in the accompanying drawing 6 in embodiment one; Also can be set to any of the strip of cross section shown in accompanying drawing 10; It is provided with several wear-resisting bolt holes 131; This hole is that the thickness that a kind of its marginal portion degree of depth of countersunk head screw surpasses wearing layer 138 gos deep into substrate layer 137 about 8-25 millimeters; Make that the surperficial wearing layer surface with replaceable primary blades 59 of the wearing layer on the wear-resisting bolt 131 is consistent after replaceable primary blades 59 installs; Lower surface part in replaceable primary blades 59 near impeller body; Promptly be provided with a boss in the bottom along its length of replaceable primary blades 59, the recess that makes this boss when installing just with the facing mutually that radial edges is halved together and replaceable primary blades 59 coincide and are fixed on the corresponding vanes fixed piece 132 of corresponding replaceable fan-shaped wearing plate 129, positioning and fixing is in one on the upper surface of replaceable fan-shaped wearing plate 129 its corresponding impeller bodies 63; Replaceable vanelets 61 is at " U " type groove structure that is set to the end sealing of cross section shown in accompanying drawing 9 among the embodiment one; Also can be set to any form of the end sealing of cross section shown in accompanying drawing 10; Also be provided with several wear-resisting bolt holes 134 on it, through wear-resisting bolt 131 positioning and fixing on the vanelets fixed block 143 of impeller body lower surface; The bottom of the side that is positioned at disengaged fixing replaceable primary blades on each primary blades fixed block 132 of the upper surface of impeller body 63 radially respectively is provided with a holddown groove; Replaceable fan-shaped wearing plate 129 inserts the holddown groove of primary blades fixed block 132 bottoms of impeller body 63 along the upper surface horizontal direction of impeller body 63; The radial edges that is arranged at just that it is the corresponding replaceable fan-shaped wearing plate 129 of boss on the bottom of replaceable primary blades 59 is tightly blocked and is made its positioning and fixing on the disc face of impeller body 63 upper ends, and the two joint is fixed in one.
6. according to claim 1,2,4 described no medium ultra micro flour mills; It is characterized in that; Pulverizing chamber 64 among the embodiment two adopts the tube structure of oblate cylindricality fully; Main liner plate in the pulverizing chamber also change into by last liner plate 81 and arc master liner plate 82 about two parts combine, and be packed in the lump in the pulverizing chamber cylinder case 15 and and fit tightly with its inwall maintenance; Last liner plate 81 is big discoid thick wearing plates such as internal diameter of an external diameter and pulverizing chamber cylinder case 15, and its lower surface is set to certain convex shape; Following arc master liner plate 82 its integral body are first-class high annulars; The internal diameters of its external diameter and pulverizing chamber cylinder case 15 etc. are big; It can be cast into an overall structure, also can be set to combined by several piece shape volume and the identical monolithic arc of dimensional weight liner plate, and the external diameter after its combination and the internal diameter of pulverizing chamber cylinder case 15 etc. are big; Its inwall also is set to certain shape for lugs, and its height adapts with the height of pulverizing chamber cylinder case 15; Bottom set inside at arc master liner plate 82 has a circular bottom lining plate 62, and its thickness is slightly thinner and upper surface is more smooth than other liner plate, and its endoporus and bottom are respectively with the central upper portion boss of upper bearing (metal) housing 23 and upper surface fits tightly and fixation.Radially be welded with several piece triangle support plate 79 at interval in the junction of leading powder tube 9 and pulverizing chamber cylinder case 15, to increase its bonding strength and stability.The rotating part of embodiment two changes sliding bearing sleeve and the hydrostatic thrust bearing that is made as by thin oil lubricant, is electroplate with high-abrasive materials such as high hard chrome at the trunnion place at the bearing holder (housing, cover) position of correspondence or is provided with the anti-wearing liner of high rigidity; Hydrostatic thrust bearing and upper bearing sleeve 84 shared housings are called upper bearing (metal) housing 23; The endoporus of end cover 74 and upper bearing (metal) housing 23 all is positioned at same spindle axis line on upper bearing sleeve 84, lower bearing sleeve 88, hydrostatic thrust bearing end cover 87, hydrostatic thrust bearing price fixing 86, lower bearing lower seal end cap 31, the lower bearing; Its endoporus and keep certain running clearance separately between the main shaft axle journal of corresponding site, between upper bearing sleeve 84, lower bearing sleeve 88 and its corresponding main shaft axle journal and between hydrostatic thrust bearing Moving plate 85 and the hydrostatic thrust bearing price fixing 86 all the corresponding separately running clearance of maintenance be that activity orientation is fixed; The lower end endoporus of end cover 74 is provided with the backbone sealing ring 66 supporting with its each position on the upper end endoporus of the upper end endoporus of the upper end of upper bearing (metal) housing 23 endoporus, hydrostatic thrust bearing end cover 87, lower bearing lower seal end cap 31 and lower bearing; Closely be fixed with the wear washer 83 of a concentric at the bottom notch place near backbone sealing ring 66 of upper bearing (metal) housing 23; Keep the location to be slidingly connected between the corresponding axle journal of the endoporus of this wear washer 83 with it; The suitable position of two sections up and down of upper bearing sleeve 84, lower bearing sleeve 88 is interrupted separately and is drilled with the bearing holder (housing, cover) spill port 89 that several are communicated with down vertically; Be provided with on the lower end wall of upper bearing (metal) the housing 23 and oil groove of hydrostatic thrust bearing end cover 87 bottom that oil return pipe is connected on an oilhole and the outside; The bottom also is provided with an oilhole and is connected with the following oil return pipe 30 at outer wall place under the inside tank of lower bearing lower seal end cap 31; Oil inlet pipe 20 is connected on outside the middle part of upper bearing (metal) housing 23 corresponding upper bearing sleeves 84 is provided with an aperture that runs through the two and is fixed in the upper bearing (metal) housing; Also be provided with one in the appropriate location, middle part of upper bearing (metal) housing 23 corresponding hydrostatic thrust bearing price fixings 86 and run through the aperture of the two and be connected, also be provided with an aperture that runs through the two at the medium position vertically that is positioned at lower bearing sleeve 88 together with lower bearing housing 28 middle parts and be connected with the lower bearing room's oil inlet pipe 70 that is fixed in lower bearing housing 28 with pressure oil pipe 90 outside being fixed in the upper bearing (metal) housing; The top of the backbone sealing ring 66 in the endoporus of the upper end of upper bearing (metal) housing 23 is drilled with an aperture along this inner hole wall corresponding to the gap between the axle journal of main shaft 32 and is connected with the air inlet pipe 21 of the upper end of being fixed in upper bearing (metal) housing 23.In the slurry mixing chamber 53 and the cavity between the spray chamber 48 in present embodiment two; Be provided with several layers of net grid 42 from top to bottom, also can (shown in accompanying drawing 3 upper left quarters) be horizontally disposed with several layers of annular angle steel 80 be welded on respectively sink body 51 inwall and in suitable position corresponding positioning and fixing up and down on the outer wall of separating tube 40.Mutually airtight being located by connecting of bottom endoporus of the upper end outer wall of slurry mixing chamber housing 8 and collection chamber housing 78 constitutes collection chamber 77.
7. according to claim 1,2,4 described no medium ultra micro flour mills; It is characterized in that; The pulverised form of embodiment three is set to multistage pulverised form; Following three parts during pulverizing chamber housing among (the embodiment three here is that example describes with the secondary pulverised form) embodiment three is divided into, top are that last pulverizing chamber body shell (claim not only one-level pulverizing chamber body shell) 120, middle part are that cyclone separating chamber 96, bottom are pulverizing chamber cylinder case (but also claiming secondary pulverizing chamber body shell) 15; In last pulverizing chamber body shell 120, be provided with liner plate 1, arc master liner plate 82, wear ring 144 and guide liner plate 93 from top to bottom; It is a short funnel-form that the steel disc that last liner plate 1 is a heavy wall and middle is cast; Its lower end engages fixing with the upper surface of arc master liner plate 82; Arc master liner plate 82 positioning and fixing are on vertical inwall of last pulverizing chamber body shell 120; The inwall of its bottom and the outer rim of wear ring 144 closely are abutted against; Its two lower surface common with guide liner plate 93 on transverse plane fit and positioning and fixing, guide liner plate 93 is that steel disc and the centre of a heavy wall cast is a funnel-form, this funnel part is higher greatly slightly slightly and be with tubular mouth edge (shown in accompanying drawing 4) slightly.Pulverizing chamber cylinder case 15 is a cylinder barrel shaped; Its inwall positioning and fixing has arc master liner plate 82; The upper surface of this arc master liner plate 82 engages and is fixedly connected with the outer rim position of last liner plate 2 95 lower surfaces; The lower end inwall of this arc master liner plate 82 is connected with the outer rim positioning and fixing of bottom lining plate 62, and the lower surface of bottom lining plate 62 keeps the location with the upper surface of upper bearing (metal) housing 23 and is fixedly connected.Cyclone separating chamber's 96 end openings communicate with following pulverizing chamber inner chamber 101, and its periphery is connected with powder feeding chamber 55 through the duct on the Arc grid liner plate 91.Bottom position at last pulverizing chamber inner chamber 100 and following pulverizing chamber inner chamber 101 centers is provided with to be pulverized impeller (being impeller one) and pulverizes impeller (being impeller two) down; Last pulverizing impeller, pulverize impeller down and be set on the main shaft 32 together with between the two protective shaft sleeve 99; Last pulverizing impeller with pulverize down impeller and have a little different, the toroidal cavity that the centre of following pulverizing impeller lower surface is provided with a plurality of concentrics is gone up the pulverizing impeller and then need not to be provided with this groove.The upper surface of the replaceable fan-shaped wearing plate 129 of last pulverizing impeller is that the upper surface of the surface ratio wear ring 144 of its wearing layer 138 omits height.The appropriate location, lower surface and the interior separating tube 40 of feed hopper upper flange 1 closely are welded as a whole; Lateral wall horizontal welding along interior separating tube 40 is connected to the annulus that several roll with angle steel; And make the outer rim of this annulus corresponding with the angle of angle steel; Inboard horizontal welding at the vertical outer wall that mixes slurry staving 102 is connected to the annulus that several roll with angle steel, and makes the inner edge of this annulus corresponding with the angle of angle steel, is positioned at staggered up and down even setting space equidistance also in opposite directions between the angle of the annulus angle steel on its two; Mix slurry staving 102 and be arranged to cylinder barrel shape structure; Its inner bottom and isolating cylinder 103 are welded in one; Isolating cylinder 103 inwardly with last pulverizing chamber body shell 120 between radially vertical put welding several piece connecting plate the two is firmly connected into as a whole, between the connecting plate the inwall of isolating cylinder 103 and on maintenance equi-spaced apart setting on the outer wall of pulverizing chamber body shell 120; Isolating cylinder 103 inwardly with last pulverizing chamber body shell 120 between and be separated with suitable distance between equal outwards and between the interior separating tube 40; The lateral wall place near the bottom of mixing slurry staving 102 sets gradually from bottom to top and is fixed with the premix ore pulp and feeds pipe 12, discharge pipe 4 and ease slurry pipe 10, and the longitudinal side wall place on its top sets gradually from top to bottom and is fixed with blast pipe 76, atomized water feeds pipe 6 and main feed water pipe 7.Mixing the bottom of slurry staving 102 locatees and is fixedly connected with the upper flanges of pulverizing chamber cylinder case 15.Keep the upper end airtight and be located by connecting between interior separating tube 40 and the last pulverizing chamber body shell 120, be connected through a lot of individual grid liner plate bar holes 92 that are arranged on the Arc grid liner plate 91 between powder feeding chamber 55 and the cyclone separating chamber 96.Corresponding and the positioning and fixing of the oral area of feed hopper 43 lower end oral areas and last liner plate 1 connects; Keep appropriate gap between the oral area lower limb of the center position of last liner plate 1 and the replaceable blade of last pulverizing impeller, keep appropriate gap between the replaceable blade of the oral area lower limb of the central position of guide liner plate 93 and following pulverizing impeller.
8. according to claim 1,2,4 described no medium ultra micro flour mills, it is characterized in that the upper bearing (metal) housing 23 among the embodiment four is arranged on the medium position of the upper bearing plate 109 that is positioned on the feed hopper upper flange, and locate and be fixedly connected with its maintenance.Following pulverizing chamber housing 122 lower ends are located and are fixedly connected with supporting seat ring 124.Main shaft 32 from top to bottom successively with hydrostatic thrust bearing Moving plate 85, Lower shaft sleeve 125, down pulverize impeller body 98, lower end protective shaft sleeve 99, on pulverize impeller body 97, upper end protective shaft sleeve 99 be connected in series mutually and each self-corresponding key bar 35 and principal shaft locking nut 119 are located by connecting in one via it; The outer rim that is positioned at principal shaft locking nut 119 is overlapped intrinsic one dustproof dish 118; The appropriate position of dustproof dish 118 positioning and fixing on main shaft 32; The round ring boss that is arranged at the concentric of its upper surface just upwards is embedded in the concentric toroidal cavity that is provided with on the corresponding medium position in upper bearing plate 109 lower surfaces, is in friction free between the two and rotates relatively freely state; Central shaft hole and backbone sealing ring 66 and wear washer 83 that main shaft 32 is upward through axis hole, upper bearing (metal) housing 23 bottoms in the centre of upper bearing plate 109 kept the win positioning and fixing to be connected with Upper shaft sleeve 107, were upward through the central shaft hole of upper bearing (metal) upper end cover 108 and the backbone sealing ring 66 at this place and were connected with key bar 35 positioning and fixing of main shaft shaft joint 33 through this place.Be fixed with backbone sealing ring 66, wear washer 83, lower bearing sleeve 88, Lower shaft sleeve 125, hydrostatic thrust bearing Moving plate 85, hydrostatic thrust bearing price fixing 86 and hydrostatic thrust bearing end cover 87 in the lower bearing housing from top to bottom successively; Lower shaft sleeve 125 kept the win positioning and fixing to be connected with the axle journal corresponding site of main shaft 32, and hydrostatic thrust bearing Moving plate 85 leans on screw thread and dog screw 44 closely to be fixedly connected with the lower shaft end of main shaft 32.Hydrostatic thrust bearing Moving plate 85 lower surfaces and hydrostatic thrust bearing price fixing 86 upper surfaces all are treated as the smooth mirror surface planar structure that is parallel to each other through grinding; In hydrostatic thrust bearing price fixing 86 upper surfaces, be provided with between several these oil grooves of annular oil groove and be interconnected through several oil grooves radially; And be connected with the main oil-hole that is arranged at hydrostatic thrust bearing price fixing 86 centres, main oil-hole is connected with the hydrostatic thrust bearing oil inlet pipe 126 that is arranged at hydrostatic thrust bearing end cover 87 centers.Upper bearing plate 109 is the disk that a thick steel sheet is processed; Near the position of about 1/2nd radius in its center two rectangular feeding throats along same diameter symmetry and about laterally arranging; On long limit, the left side of left charging aperture, connect left material bin bottom plate 117 with certain inclination angle positioning and fixing, the bottom of left material bin upper head plate 115 being welded near a long limit at upper bearing plate 109 centers at left feeding mouth becomes a firm integral body on the upper bearing plate 109; Right feeding mouth near the long limit at upper bearing plate 109 centers on the bottom of right material bin upper head plate 111 be welded in become a firm integral body on the upper bearing plate 109; On another long limit of right feeding mouth, right material bin bottom plate 112 is connected on the upper bearing plate 109 with certain inclination angle positioning and fixing; Arbitrary homonymy all is welded in one with a common side panel in the two sides of left material bin and right material bin; The edge of two feeding mouth minor faces on the lower limb of this side panel and the upper bearing plate 109 is welded in one respectively; The left side constitutes left material bin inner chamber 116; The right constitutes right material bin inner chamber 110; Middle constitute the inner surface horizontal welding that transmission cavity 127. suitably highly locates in the inside of transmission cavity 127 jointly by left material bin upper head plate 115, right material bin upper head plate 111 and both sides panel and be connected to a vertical machine erection support 114, the appropriate position all is fixed with the tramp iron separator 113 of several piece magneto on the side panel of left material bin upper head plate 115, left material bin bottom plate 117, right material bin upper head plate 111, right material bin bottom plate 112 and two material bins.
CN2012102844265A 2012-08-04 2012-08-04 Medium-free micro pulverizer Pending CN102806130A (en)

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CN108212015A (en) * 2017-11-15 2018-06-29 广州燃烧医疗技术开发有限公司 A kind of Modified Chemical reagent device
CN108212006A (en) * 2017-10-23 2018-06-29 韦龙生 A kind of modified form chemical reagent device
CN108212227A (en) * 2017-11-01 2018-06-29 韦华新 A kind of Modified Chemical reagent device
CN108212007A (en) * 2017-10-23 2018-06-29 韦龙生 A kind of Modified Chemical reagent device
CN108251284A (en) * 2017-12-19 2018-07-06 环境保护部华南环境科学研究所 The equipment that a kind of microorganism nitrification process decomposes solid organic matters waste
CN109174327A (en) * 2018-09-12 2019-01-11 景德镇陶瓷大学 A kind of high-effective multilayer roller continuous type ball mill
CN109252858A (en) * 2018-08-31 2019-01-22 沃德传动(天津)股份有限公司 A kind of towing tank driving wheel structure and assembly technology
CN110124821A (en) * 2019-05-18 2019-08-16 陈益敏 A kind of automatic subhead of raw ore grinds collection device and application method
CN110496684A (en) * 2019-09-10 2019-11-26 江苏神农灭菌设备股份有限公司 A kind of clinical waste crushes the medical wastes grinder structure in sterilizing cabinet
CN111017592A (en) * 2019-12-21 2020-04-17 王桂花 Flip-chip separation type bucket formula spills material device
CN111686903A (en) * 2020-07-28 2020-09-22 贵州成智重工科技有限公司 Vertical shaft type high-pressure three-dimensional flow ultrafine grinding equipment
CN116371575A (en) * 2023-06-06 2023-07-04 福建省德化县灿东陶瓷有限公司 Ceramic dry mud material refines grinds machine

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CN108212007A (en) * 2017-10-23 2018-06-29 韦龙生 A kind of Modified Chemical reagent device
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CN109252858A (en) * 2018-08-31 2019-01-22 沃德传动(天津)股份有限公司 A kind of towing tank driving wheel structure and assembly technology
CN109174327A (en) * 2018-09-12 2019-01-11 景德镇陶瓷大学 A kind of high-effective multilayer roller continuous type ball mill
CN110124821A (en) * 2019-05-18 2019-08-16 陈益敏 A kind of automatic subhead of raw ore grinds collection device and application method
CN110496684A (en) * 2019-09-10 2019-11-26 江苏神农灭菌设备股份有限公司 A kind of clinical waste crushes the medical wastes grinder structure in sterilizing cabinet
CN110496684B (en) * 2019-09-10 2023-09-12 江苏神农灭菌设备股份有限公司 Medical waste smashing mechanism in medical waste smashing and sterilizing cabinet
CN111017592A (en) * 2019-12-21 2020-04-17 王桂花 Flip-chip separation type bucket formula spills material device
CN111686903A (en) * 2020-07-28 2020-09-22 贵州成智重工科技有限公司 Vertical shaft type high-pressure three-dimensional flow ultrafine grinding equipment
CN116371575A (en) * 2023-06-06 2023-07-04 福建省德化县灿东陶瓷有限公司 Ceramic dry mud material refines grinds machine
CN116371575B (en) * 2023-06-06 2023-08-15 福建省德化县灿东陶瓷有限公司 Ceramic dry mud material refines grinds machine

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