CN117654710A - Ball mill for fused quartz processing - Google Patents

Abstract

The invention relates to the technical field of quartz processing, and discloses a ball mill for fused quartz processing, which comprises a base, a grinding mechanism, a screening mechanism and an oscillating mechanism, wherein the grinding mechanism is arranged on the base, the screening mechanism is arranged below the grinding mechanism, the oscillating mechanism is arranged below the screening mechanism, the oscillating mechanism is arranged on the base, and the oscillating mechanism is used for assisting the screening mechanism in screening. According to the invention, one material port is adopted as the material inlet and the material outlet, after grinding is finished, the quartz particles and the grinding balls can fall into the screening mechanism, the grinding balls are conveniently taken out, whether the grinding balls are rusted or not is conveniently observed before grinding so as to be replaced in time, the purity of the quartz particles is not influenced, and the collecting box, the first filter frame and the second filter frame are adopted to screen the grinding balls and the ground quartz particles, so that the grinding balls, the quartz particles meeting the requirements and the quartz particles not meeting the requirements are distinguished, and the quality of the ground quartz particles is improved.

Description

Ball mill for fused quartz processing

Technical Field

The invention relates to the field of quartz processing, in particular to a ball mill for fused quartz processing.

Background

Quartz is one of the most widely distributed minerals on the earth surface, the application of the quartz is very wide, the glass manufactured by melting the quartz can be used for manufacturing optical instruments, glasses, glass tubes and other products, in the manufacturing process, the fused quartz is required to be processed, the fused quartz is ground into quartz particles with a certain mesh, and a ball mill is common fused quartz grinding equipment.

The ball mill that uses commonly used uses the auger to carry quartz to the ball mill barrel in, utilizes the throwing striking of the interior grinding ball of barrel to grind, and the grinding ball can produce certain corrosion after long-time use, can pollute quartz in the grinding process, leads to quartz purity to reduce, and then influences quartz product quality, and the grinding ball of commonly used ball mill is located the barrel, can't directly observe whether the grinding ball produces corrosion, takes out the grinding ball and observes then need a large amount of dismantlement work, very inconvenience.

Disclosure of Invention

The invention provides a ball mill for processing molten quartz, which solves the technical problem that whether the grinding ball of the mill is rusted or not is difficult to observe in the related art.

According to one aspect of the invention, there is provided a ball mill for fused quartz processing, comprising a base, a grinding mechanism, a screening mechanism and an oscillating mechanism, wherein the grinding mechanism is arranged on the base, the screening mechanism is arranged below the grinding mechanism, the oscillating mechanism is arranged below the screening mechanism, the oscillating mechanism is arranged on the base, the oscillating mechanism is used for assisting the screening mechanism in screening, the grinding mechanism comprises a cylinder body, a cylinder shaft, a gear motor, a lining plate and a cylinder cover, the two ends of the cylinder body are fixedly connected with the cylinder shaft, the cylinder shaft and the cylinder body are coaxially arranged, two groups of bearing seats are fixedly arranged on the base, the two groups of cylinder shafts are respectively arranged in the two groups of bearing seats, one group of cylinder shaft is fixedly connected with a gear motor, the gear motor drives the cylinder shaft to rotate so as to drive the cylinder body to rotate, a grinding cavity is arranged in the cylinder body, the grinding ball is arranged in the grinding cavity, the inner wall of the cylinder body is fixedly provided with the lining plate distributed along the circumference of the axis of the cylinder body, the lining plate can drive the grinding ball to rise to a proper height, the grinding efficiency is improved, the cylinder body is provided with a material port, the material port is communicated with the grinding cavity, the material port is used for feeding and discharging, the cylinder cover is detachably arranged at the material port, and the material port is convenient to seal.

Further, the grinding cavity is in a waist drum shape, the middle of the grinding cavity is large, and the two sides of the grinding cavity are small, so that quartz and grinding balls can smoothly fall from the material opening during discharging.

Further, a bearing bush seat is fixedly connected to the base, and a bearing bush at the top of the bearing bush seat is rotationally connected with the outer ring of the cylinder shaft.

Further, screening mechanism includes collecting box, filter frame one and filter frame two all with collecting box joint, and filter frame two is located filter frame below, and multiunit filtration pore first has been seted up to filter frame one bottom, and multiunit filtration pore second has all been seted up to filter frame two bottoms and all around, and the diameter of filtration pore first is less than the diameter of grinding ball, and quartz granule and the grinding ball after grinding fall into filter frame one from the feed inlet, and the grinding ball stays in filter frame one, and quartz granule falls into filter frame two from filtration pore first, and quartz granule that accords with the requirement falls into collecting box bottom from filtration pore second, and quartz granule that does not accord with the requirement stays in filter frame two, needs to continue to grind.

Further, the top of the inner walls of the left side and the right side of the collecting box are fixedly connected with a supporting plate I, the left side and the right side of the filter frame I are fixedly connected with a limiting plate I, the width of the limiting plate I is smaller than that of the supporting plate I, the length of the filter frame I is consistent with the distance between the two groups of supporting plates I, the outer walls of the front side and the rear side of the filter frame I are attached to the inner walls of the front side and the rear side of the collecting box, the position of the filter frame I is limited, and the filter frame I is prevented from falling.

Further, the two side inner walls are all fixedly connected with support layer board two around the collecting box, support layer board two and lie in and prop layer board below, the equal fixedly connected with baffle of collecting box left and right sides inner wall, baffle and support layer board two in same altitude department, the width of baffle is greater than the width of propping layer board one, the equal fixedly connected with limiting plate two of both sides around the filter frame, the width of limiting plate two is less than the width of propping layer board two, the width of filter frame two is unanimous with the interval between two sets of support layer boards two, the length of filter frame two is unanimous with the interval between two sets of baffles, in order to avoid propping layer board one to hinder the placing of filter frame two, restriction filter frame two simultaneously, prevent that filter frame two from dropping.

Further, vibrate mechanism includes guide rail, slip table and drive assembly, the guide rail has two sets of, two sets of guide rail parallel arrangement, two sets of guide rails are equal fixed mounting on the base, be provided with the slip table between two sets of guide rails, and slip table and the equal sliding connection of two sets of guide rails, slip table top fixedly connected with locating piece, collecting box and locating piece joint, thereby limit the position of collecting box, slip table one side fixedly connected with two sets of connecting plates, be provided with the drive assembly who connects rather than between two sets of connecting plates, drive assembly drive connecting plate removes, and then drive the slip table and carry out reciprocating motion along guide rail length direction, make screening mechanism carry out reciprocating oscillation, in order to filter frame one and the filter frame quartz granule whereabouts in two.

Further, the drive assembly includes actuating lever, the connecting rod, the fixing base, carousel and double-end motor, actuating assembly has two sets of, two sets of actuating assembly are located the one side that two sets of connecting plates are close to each other respectively, the one end and the connecting plate of actuating lever rotate and are connected, the other end of actuating lever rotates and is connected with the connecting rod, the other end and the fixing base of connecting rod rotate and are connected, fixing base fixed mounting is on the base, the connecting rod runs through there is logical groove, the output fixedly connected with at double-end motor both ends two sets of carousels, the equal fixedly connected with drive shaft of one side that the double-end motor was kept away from to two sets of carousels, the drive shaft is located the edge of carousel, the diameter of drive shaft is unanimous with logical groove, drive shaft and logical groove swing joint, double-end motor drives carousel and drive shaft rotation, the drive shaft rotates periodic extrusion logical groove opposite direction's both sides inner wall, thereby drive connecting rod swing, and then drive actuating lever removes and promotes the connecting plate and removes, and then make the slip table carry out reciprocating motion along guide rail length direction.

The invention has the beneficial effects that:

1. according to the invention, one material port is used as the material inlet and the material outlet, after grinding is finished, quartz particles and grinding balls can fall into the screening mechanism, the grinding balls are conveniently taken out, and whether the grinding balls are rusted or not is conveniently observed before grinding so as to be replaced in time, so that the purity of the quartz particles is not influenced.

2. According to the invention, the collecting box, the first filter frame and the second filter frame are adopted to screen the grinding balls and the ground quartz particles, so that the grinding balls, the quartz particles meeting the requirements and the quartz particles not meeting the requirements are separated, and the vibration mechanism is used for assisting in screening, so that manual screening is not needed, the manpower is saved, and the quality of the ground quartz particles is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a ball mill for processing fused silica, which is provided by the invention;

FIG. 2 is a schematic perspective view of a part of a grinding mechanism in a ball mill for processing fused silica;

FIG. 3 is a schematic front cross-sectional view of a ball mill for processing fused silica provided by the invention;

FIG. 4 is a schematic top cross-sectional view of a ball mill for processing fused silica provided by the present invention;

FIG. 5 is a perspective view showing a separation of a screening mechanism in a ball mill for processing fused silica according to the present invention;

FIG. 6 is an enlarged schematic view of the structure of FIG. 1A;

fig. 7 is a schematic perspective view of a connecting rod in a ball mill for processing fused silica.

Main symbol description:

1. a base; 11. a bearing seat; 12. a support plate; 13. a bearing bush seat; 14. a support table; 2. a grinding mechanism; 21. a cylinder; 211. a grinding chamber; 212. a material port; 213. a mounting plate; 22. a cylinder shaft; 23. a speed reducing motor; 24. a lining plate; 25. a cylinder cover; 3. a screening mechanism; 31. a collection box; 311. a first supporting plate; 312. a second supporting plate; 313. a baffle; 32. a first filter frame; 321. a first filter hole; 322. a first limiting plate; 33. a second filter frame; 331. a second filtering hole; 332. a limiting plate II; 4. an oscillating mechanism; 41. a guide rail; 42. a sliding table; 421. a positioning block; 422. a connecting plate; 43. a driving rod; 44. a connecting rod; 441. a through groove; 45. a fixing seat; 46. a turntable; 461. a drive shaft; 47. a double-ended motor.

Detailed Description

The subject matter described herein will now be discussed with reference to example embodiments. It should be appreciated that these embodiments are discussed so that those skilled in the art will better understand and realize the subject matter described herein. Changes may be made in the function and arrangement of elements discussed without departing from the scope of the disclosure as set forth in the specification. Various examples may omit, replace, or add various procedures or components as desired. In addition, features described with respect to some examples may be combined in other examples as well.

Example 1:

as shown in fig. 1-5, a ball mill for fused quartz processing comprises a base 1, a grinding mechanism 2, a screening mechanism 3 and an oscillating mechanism 4, wherein the grinding mechanism 2 is installed on the base 1, the screening mechanism 3 is arranged below the grinding mechanism 2, the oscillating mechanism 4 is arranged below the screening mechanism 3, the oscillating mechanism 4 is installed on the base 1, and the oscillating mechanism 4 is used for assisting the screening mechanism 3 in screening.

The grinding mechanism 2 comprises a cylinder 21, a cylinder shaft 22, a gear motor 23, a lining plate 24 and a cylinder cover 25, wherein the cylinder shaft 22 is fixedly connected to both ends of the cylinder 21, the cylinder shaft 22 and the cylinder 21 are coaxially arranged, two groups of bearing seats 11 are fixedly installed on the base 1, the two groups of cylinder shafts 22 are respectively installed in the two groups of bearing seats 11, one group of cylinder shafts 22 is fixedly connected with the gear motor 23, the gear motor 23 drives the cylinder shaft 22 to rotate so as to drive the cylinder 21 to rotate, grinding quartz is arranged in the cylinder 21, grinding balls are placed in the grinding cavity 211, the lining plate 24 distributed along the circumferential array of the axis of the cylinder 21 is fixedly installed on the inner wall of the cylinder 21, the lining plate 24 can drive the grinding balls to rise to a proper height along with the rotation of the cylinder 21, the grinding efficiency is improved, a material opening 212 is formed in the outer ring of the cylinder 21, the material opening 212 is communicated with the grinding cavity 211, the material opening 212 is used for feeding and discharging, and the cylinder cover 25 is detachably installed at the material opening 212 of the cylinder 21, so that the material opening 212 is sealed, and feeding and discharging is facilitated.

In this embodiment, a bearing is fixedly installed in the bearing seat 11, the cylinder shaft 22 is fixedly sleeved with an inner ring of the bearing, the gear motor 23 drives the cylinder shaft 22 to rotate to drive the cylinder 21, the cylinder cover 25 and the lining plate 24 to rotate, in this process, under the action of centrifugal force and friction force, the lining plate 24 pushes the grinding ball to rise to a certain height, and then the grinding ball is thrown down under the action of gravity to strike quartz in the cylinder 21, so that the quartz is crushed and ground.

In this embodiment, the cylinder cover 25 is clamped with the material port 212, two groups of L-shaped mounting plates 213 are fixedly connected to the material port 212 of the cylinder 21, two groups of positioning holes are formed in the two groups of mounting plates 213 in a penetrating manner, four groups of mounting holes are formed in the cylinder cover 25 in a penetrating manner, the four groups of mounting plates 213 are in one-to-one correspondence with the four groups of mounting holes, and the cylinder cover 25 is fixedly mounted on the cylinder 21 through bolts and nuts.

In this embodiment, the support plate 12 is fixedly connected to one side of the bearing seat 11 away from the cylinder 21, the speed reduction motor 23 is composed of a servo motor and a speed reducer, the servo motor and the speed reducer are fixedly mounted on the support plate 12, the output end of the servo motor is fixedly connected with the input end of the speed reducer, the output end of the speed reducer is fixedly connected with the cylinder shaft 22, and the servo motor drives the output end of the speed reducer to rotate, so that the rotation of the cylinder 21 is controlled.

The grinding cavity 211 is in a waist drum shape, and the middle of the grinding cavity 211 is large, and the two sides of the grinding cavity 211 are small, so that quartz and grinding balls can smoothly fall from the material port 212 during discharging.

The base 1 is fixedly connected with a bearing bush seat 13, and a bearing bush at the top of the bearing bush seat 13 is rotationally connected with the outer ring of the cylinder shaft 22.

In this embodiment, the top of the bearing bush seat 13 is coated with lubricating oil, which plays a role in supporting the cylinder 21 without affecting the rotation of the cylinder 21, and prevents part of the components from being deformed after the grinding mechanism 2 works for a long time, thereby affecting the normal operation of the grinding mechanism 2.

The screening mechanism 3 comprises a collecting box 31, a first filter frame 32 and a second filter frame 33, the first filter frame 32 and the second filter frame 33 are all connected with the collecting box 31 in a clamping mode, the second filter frame 33 is located below the first filter frame 32, a plurality of groups of first filter holes 321 are formed in the bottom of the first filter frame 32, a plurality of groups of second filter holes 331 are formed in the bottom and the periphery of the second filter frame 33, the diameter of each first filter hole 321 is smaller than that of a grinding ball, the ground quartz particles and the grinding balls fall into the first filter frame 32 from a material hole 212, the grinding balls stay in the first filter frame 32, the quartz particles fall into the second filter frame 33 from the first filter holes 321, the quartz particles meeting requirements fall into the bottom of the collecting box 31 from the second filter holes 331, and the quartz particles not meeting requirements stay in the second filter frame 33 and need to be continuously ground.

In this embodiment, the first handles are fixedly connected to both sides of the collecting box 31 so as to drag the collecting box 31.

The top of the inner walls on the left side and the right side of the collecting box 31 are fixedly connected with a supporting plate one 311, the left side and the right side of the filter frame one 32 are fixedly connected with a limiting plate one 322, the width of the limiting plate one 322 is smaller than that of the supporting plate one 311, the length of the filter frame one 32 is consistent with the distance between the two groups of supporting plates one 311, and the outer walls on the front side and the rear side of the filter frame one 32 are attached to the inner walls on the front side and the rear side of the collecting box 31, so that the position of the filter frame one 32 is limited, and the filter frame one 32 is prevented from falling.

In this embodiment, the top of the first limiting plates 322 is fixedly connected with a second handle, so as to lift the first filter frame 32.

The inner walls of the front side and the rear side of the collecting box 31 are fixedly connected with a supporting plate II 312, the supporting plate II 312 is positioned below the supporting plate I311, the inner walls of the left side and the right side of the collecting box 31 are fixedly connected with a baffle 313, the baffle 313 and the supporting plate II 312 are positioned at the same height, the width of the baffle 313 is larger than that of the supporting plate I311, the front side and the rear side of the filter frame II 33 are fixedly connected with a limiting plate II 332, the width of the limiting plate II 332 is smaller than that of the supporting plate II 312, the width of the filter frame II 33 is consistent with the interval between the two groups of supporting plates II 312, the length of the filter frame II 33 is consistent with the interval between the two groups of baffles 313, so that the supporting plate I311 prevents the placement of the filter frame II 33, and simultaneously limits the filter frame II 33 from falling.

In this embodiment, the third handles are fixedly connected to the tops of the second limiting plates 332, so as to lift the second filter frame 33.

This embodiment provides a ball mill for fused silica processing, before grinding, whether the grinding ball has the corrosion condition, change the grinding ball that has the corrosion, after the inspection is changed, start gear motor 23, make the feed opening 212 of barrel 21 upwards, then put into barrel 21 with quartz and grinding ball from feed opening 212, afterwards, install barrel cover 25 on barrel 21, seal feed opening 212, afterwards, start gear motor 23 again, drive barrel 21, spool 22 and welt 24 rotation, utilize the grinding ball in the barrel 21 to smash the quartz and grind.

After finishing grinding, the gear motor 23 is closed to make the material opening 212 upward, the cylinder cover 25 is detached, the gear motor 23 is started again to make the material opening 212 downward, the gear motor 23 is adjusted, the cylinder 21 is made to reciprocate by a small amplitude after the material opening 212 of the cylinder 21 is downward, quartz particles and grinding balls in the cylinder 21 fall into the first filter frame 32 from the material opening 212, the vibration mechanism 4 is started to vibrate the screening mechanism 3 so as to screen the quartz particles, the grinding balls are left in the first filter frame 32, the quartz particles fall into the second filter frame 33 from the first filter hole 321, the quartz particles meeting requirements fall into the bottom of the collecting box 31 from the second filter hole 331, the non-meeting quartz particles are left in the second filter frame 33, and when the next group of quartz is ground, the grinding balls in the first filter frame 32 and the non-meeting quartz particles in the second filter frame 33 are poured into the cylinder 21 from the material opening 212.

Example 2:

as shown in fig. 1, fig. 6 and fig. 7, this embodiment is further improved on the basis of embodiment 1 in that the oscillating mechanism 4 includes two sets of guide rails 41, a sliding table 42 and a driving assembly, the guide rails 41 have two sets of guide rails 41 arranged in parallel, the two sets of guide rails 41 are fixedly installed on the base 1, the sliding table 42 is arranged between the two sets of guide rails 41, the sliding table 42 is slidably connected with the two sets of guide rails 41, the top of the sliding table 42 is fixedly connected with a positioning block 421, the collecting box 31 is clamped with the positioning block 421, so that the position of the collecting box 31 is limited, two sets of connecting plates 422 are fixedly connected to one side of the sliding table 42, a driving assembly connected with the two sets of connecting plates 422 is arranged between the two sets of connecting plates 422, and the driving assembly drives the connecting plates 422 to move, so as to drive the sliding table 42 to reciprocate along the length direction of the guide rails 41, so that the screening mechanism 3 oscillates reciprocally, and quartz particles in the first filter frame 32 and the second filter frame 33 fall.

In this embodiment, the guide rail 41 is composed of two groups of vertical rods and a group of cross rods, the two groups of vertical rods are perpendicular to the base 1, the two groups of vertical rods are fixedly connected with the base 1, the top of the two groups of vertical rods is fixedly connected with the same cross rod, the length direction of the cross rod is perpendicular to the length direction of the cylinder 21, sliding grooves are formed in two sides of the sliding table 42, the cross rods are in sliding connection with the sliding grooves, the driving assembly drives the connecting plate 422 to move, and the sliding table 42 reciprocates along the length direction of the cross rods.

In the present embodiment, the positioning block 421 is L-shaped, the positioning block 421 has four groups, and the four groups of positioning blocks 421 are respectively located at four corners of the collecting box 31, so as to limit the collecting box 31 and prevent the collecting box 31 from moving relative to the sliding table 42, which results in poor vibration effect.

The driving component comprises a driving rod 43, a connecting rod 44, a fixed seat 45, a turntable 46 and a double-headed motor 47, wherein the driving component is provided with two groups, the two groups of driving components are respectively positioned on one side of the two groups of connecting plates 422, which are close to each other, one end of the driving rod 43 is rotationally connected with the connecting plates 422, the other end of the driving rod 43 is rotationally connected with the connecting rod 44, the other end of the connecting rod 44 is rotationally connected with the fixed seat 45, the fixed seat 45 is fixedly arranged on the base 1, the connecting rod 44 penetrates through a through groove 441, the output ends of the two ends of the double-headed motor 47 are fixedly connected with the two groups of turntable 46, one side of the two groups of turntable 46, which is far away from the double-headed motor 47, is fixedly connected with a driving shaft 461, the driving shaft 461 is positioned at the edge of the turntable 46, the diameter of the driving shaft 461 is consistent with the width of the through groove 441, the driving shaft 461 is movably connected with the through groove 441, the double-headed motor 47 drives the turntable 46 and the driving shaft 461 to rotate, the driving shaft 461 periodically extrudes the inner walls on two sides in the opposite directions of the through groove 441, so as to drive the connecting rod 44 to swing, and further drive the driving rod 43 to move, the driving rod 422 to push the driving rod 422 to move, and the driving slide table 422 to move, so that the driving rod 42 moves along the length direction of the guide rail 41.

In this embodiment, the first shafts are fixedly connected to the sides of the two groups of connection plates 422, which are close to each other, the driving rods 43 are rotatably sleeved with the first shaft outer ring, the driving rods 43 push the connection rods 44 to move by pushing the first shaft, the second shafts are fixedly connected to the sides of the two groups of fixing seats 45, which are close to each other, one ends of the connection rods 44 are rotatably sleeved with the second shaft outer ring, the driving shafts 461 rotate to drive the connection rods 44 to swing around the second shafts, the third shafts are fixedly connected to the sides of the two groups of turntables 46, which are close to the double-headed motors 47, the output ends of the double-headed motors 47 are fixedly connected with the third shafts, and the double-headed motors 47 rotate through driving the third shafts to drive the turntables 46 and the driving shafts 461.

In this embodiment, the top of the base 1 is fixedly connected with the supporting table 14, and the double-headed motor 47 is fixedly mounted on the supporting table 14.

The embodiment provides an oscillating mechanism 4 for assisting a screening mechanism 3 to screen quartz particles and grinding balls, a double-headed motor 47 drives a turntable 46 and a driving shaft 461 to rotate, the driving shaft 461 rotates to drive a connecting rod 44 to swing, and then a driving rod 43 is driven to move, the driving rod 43 moves to drive a connecting plate 422 to move, and then a sliding table 42 is pushed to reciprocate along the length direction of a guide rail 41, and the sliding table 42 drives the screening mechanism 3 to oscillate reciprocally, so that a first filter frame 32 and a second filter frame 33 screen the grinding balls and the quartz particles.

The embodiment of the present embodiment has been described above with reference to the accompanying drawings, but the embodiment is not limited to the above-described specific implementation, which is merely illustrative and not restrictive, and many forms may be made by those of ordinary skill in the art without departing from the spirit of the embodiment and the scope of the protection of the claims, which fall within the protection of the embodiment.

Claims (8)

1. The ball mill for processing the fused quartz is characterized by comprising a base (1), a grinding mechanism (2), a screening mechanism (3) and an oscillating mechanism (4), wherein the grinding mechanism (2) is arranged on the base (1), the screening mechanism (3) is arranged below the grinding mechanism (2), the oscillating mechanism (4) is arranged below the screening mechanism (3), the oscillating mechanism (4) is arranged on the base (1), and the oscillating mechanism (4) is used for assisting the screening mechanism (3) in screening;

grinding mechanism (2) including barrel (21), spool (22), gear motor (23), welt (24) and cover (25), barrel (21) both ends all fixedly connected with spool (22), and spool (22) and barrel (21) coaxial setting, two sets of bearing frames (11) of fixed mounting on base (1), two sets of spool (22) are installed respectively in two sets of bearing frames (11), wherein a set of spool (22) fixedly connected with gear motor (23), grinding chamber (211) have in barrel (21), grinding ball has been placed in grinding chamber (211), welt (24) of circumference array distribution along its axis are offered to barrel (21) inner wall fixed mounting, feed inlet (212) are offered in barrel (21) outer lane, feed inlet (212) and grinding chamber (211) intercommunication, feed inlet (212) are used for feeding and ejection of compact, cover (25) demountable installation is in feed inlet (212) department of barrel (21).

2. The ball mill for processing fused silica according to claim 1, wherein the grinding chamber (211) has a waist drum shape, and the grinding chamber (211) has a large middle and a small two sides.

3. The ball mill for fused quartz processing according to claim 2, wherein the base (1) is fixedly connected with a bearing bush seat (13), and a bearing bush at the top of the bearing bush seat (13) is rotationally connected with the outer ring of the cylinder shaft (22).

4. A ball mill for processing fused silica according to claim 3, wherein the screening mechanism (3) comprises a collecting box (31), a first filter frame (32) and a second filter frame (33), the first filter frame (32) and the second filter frame (33) are all clamped with the collecting box (31), the second filter frame (33) is positioned below the first filter frame (32), a plurality of groups of first filter holes (321) are formed in the bottom of the first filter frame (32), a plurality of groups of second filter holes (331) are formed in the bottom and the periphery of the second filter frame (33), and the diameter of the first filter holes (321) is smaller than that of the grinding balls.

5. The ball mill for fused silica processing according to claim 4, wherein the top parts of the inner walls on the left and right sides of the collecting box (31) are fixedly connected with a first supporting plate (311), the left and right sides of the first filter frame (32) are fixedly connected with a first limiting plate (322), the width of the first limiting plate (322) is smaller than that of the first supporting plate (311), the length of the first filter frame (32) is consistent with the distance between the two groups of first supporting plates (311), and the outer walls on the front and rear sides of the first filter frame (32) are attached to the inner walls on the front and rear sides of the collecting box (31).

6. The ball mill for fused silica processing according to claim 5, wherein the inner walls of the front and rear sides of the collecting box (31) are fixedly connected with a supporting plate II (312), the supporting plate II (312) is positioned below the supporting plate I (311), the inner walls of the left and right sides of the collecting box (31) are fixedly connected with a baffle (313), the baffle (313) and the supporting plate II (312) are positioned at the same height, the width of the baffle (313) is larger than that of the supporting plate I (311), the front and rear sides of the filter frame II (33) are fixedly connected with a limiting plate II (332), the width of the limiting plate II (332) is smaller than that of the supporting plate II (312), the width of the filter frame II (33) is consistent with the interval between the two groups of supporting plates II (312), and the length of the filter frame II (33) is consistent with the interval between the two groups of baffles (313).

7. The ball mill for fused silica processing according to claim 6, wherein the oscillating mechanism (4) comprises two groups of guide rails (41), two groups of sliding tables (42) and a driving assembly, the two groups of guide rails (41) are arranged in parallel, the two groups of guide rails (41) are fixedly installed on the base (1), the sliding tables (42) are arranged between the two groups of guide rails (41), the sliding tables (42) are in sliding connection with the two groups of guide rails (41), the top of the sliding table (42) is fixedly connected with a positioning block (421), the collecting box (31) is clamped with the positioning block (421), one side of the sliding table (42) is fixedly connected with two groups of connecting plates (422), and the driving assembly connected with the sliding box is arranged between the two groups of connecting plates (422).

8. The ball mill for fused silica processing according to claim 7, wherein the driving assembly comprises a driving rod (43), a connecting rod (44), a fixing seat (45), a turntable (46) and a double-headed motor (47), the driving assembly is provided with two groups, the two groups of driving assemblies are respectively positioned at one side of the two groups of connecting plates (422) which are close to each other, one end of the driving rod (43) is rotationally connected with the connecting plate (422), the other end of the driving rod (43) is rotationally connected with the connecting rod (44), the other end of the connecting rod (44) is rotationally connected with the fixing seat (45), the fixing seat (45) is fixedly arranged on the base (1), the connecting rod (44) penetrates through a through groove (441), the output ends at two ends of the double-headed motor (47) are fixedly connected with two groups of turntables (46), one side of the two groups of turntables (46) which are far away from the double-headed motor (47) is fixedly connected with a driving shaft (461), the driving shaft (461) is positioned at the edge of the turntables (46), the diameter of the driving shaft (461) is consistent with the width of the through groove (441), and the driving shaft (461) is movably connected with the through groove (441).