CN113058702B

CN113058702B - Titanium white powder ball-milling rubbing crusher

Info

Publication number: CN113058702B
Application number: CN202110179756.7A
Authority: CN
Inventors: 权明
Original assignee: Jiangxi Shengmei Synthetic Material Co ltd
Current assignee: Jiangxi Shengmei Synthetic Material Co ltd
Priority date: 2021-02-07
Filing date: 2021-02-07
Publication date: 2022-10-25
Anticipated expiration: 2041-02-07
Also published as: CN113058702A

Abstract

The invention relates to a titanium dioxide ball milling crusher, which comprises a base plate, a vibration device, a crushing device, a feeding and discharging device and a positioning device, wherein the vibration device is arranged on the base plate, the crushing device is arranged on the vibration device, and the feeding and discharging device and the positioning device are arranged on the crushing device; 2. the existing titanium dioxide crushing equipment cannot collect all titanium dioxide in the process of collecting powder, so that raw materials are wasted, the residual titanium dioxide affects the subsequent use of the equipment, and the service life of the equipment is shortened.

Description

Titanium white powder ball-milling pulverizer

Technical Field

The invention relates to the technical field of chemical industry, in particular to a titanium dioxide ball-milling pulverizer.

Background

Titanium dioxide is an important inorganic chemical pigment, the main component is titanium dioxide, the chemical property of the titanium dioxide (titanium dioxide) is stable, and the titanium dioxide does not react with most substances under general conditions. The production process of titanium dioxide comprises two process routes of a sulfuric acid method and a chlorination method. The product has important application in the industries of paint, printing ink, paper making, plastic rubber, chemical fiber, ceramics and the like. In the production process of titanium dioxide, the last process is to crush the titanium dioxide.

However, the existing titanium dioxide powder is difficult to crush, i.e. the traditional titanium dioxide powder crushing device has poor crushing effect on the titanium dioxide powder and low efficiency, and the production quality of the titanium dioxide powder is influenced; 2. the existing titanium dioxide crushing equipment cannot collect all titanium dioxide in the process of collecting powder, so that raw materials are wasted, the residual titanium dioxide affects the subsequent use of the equipment, and the service life of the equipment is shortened.

Disclosure of Invention

Technical problem to be solved

The titanium dioxide ball milling pulverizer provided by the invention can solve the problems of the titanium dioxide during pulverization.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme that the titanium white ball milling pulverizer comprises a bottom plate, a vibration device, a pulverizing device, a feeding and discharging device and a positioning device, wherein the vibration device is installed on the bottom plate, the pulverizing device is installed on the vibration device, and the feeding and discharging device and the positioning device are installed on the pulverizing device.

Vibrator include locating plate, a motor, roof, driven round bar, driven gear, internal tooth belt, square pole, rotatory round bar and vibrations board, the bottom plate on about the bottom plate around both ends the symmetry install the roof, install driven round bar through normal running fit's mode on the roof, driven round bar installs the square pole in the inner, install rotatory round bar between the square pole inner wall on the driven round bar on the roof that is located both ends around on the bottom plate, be connected through the vibrations board between the rotatory round bar, and rotatory round bar installs at vibrations board lower extreme through normal running fit's mode, the driven round bar front end that is located on the roof of front end on the bottom plate passes the roof and installs driven gear, be connected through internal tooth belt between the driven gear, the locating plate is installed in front end left side on the bottom plate, install a motor on the locating plate, a motor output is connected on the driven gear outer wall on the driven round bar that is located the left on the bottom plate on the front end roof, can carry out the ejection of compact operation to titanium white powder, the remaining phenomenon of titanium white powder can not take place.

The reducing mechanism include backing plate, backup pad, no. two motors, power gear, ring gear, connect the pole, smash round roller and crushing ball, vibrations board upper end install the backing plate, the backup pad is installed to backing plate upper end bilateral symmetry, install through normal running fit's mode in the backup pad and connect the pole, connect and be connected through smashing round roller between the pole, smash and install ring gear along its circumference direction on the outer wall of round roller left end, be located and install No. two motors on the backup pad outer wall of left end on the backing plate, no. two motor output passes the backup pad and installs power gear, and mutually support between power gear and the ring gear and use, evenly install crushing round ball from left end to right-hand member in smashing round roller, and smash mutually support between ball and the crushing round roller inner wall and use, can carry out comprehensive crushing operation to titanium white powder.

The feeding and discharging device comprises a cambered surface screen, a clamping block, a clamping spring rod, a cambered surface baffle, a U-shaped rod, a flat plate, a locking plate, a U-shaped rod, a locking spring rod and an L-shaped sliding plate, wherein the middle part of the outer wall at the upper end of the crushing roller is provided with a cambered surface groove, concave holes are formed in the inner walls of the left end and the right end of the cambered surface groove, the lower part of the inner wall of the cambered surface groove is provided with the cambered surface screen in a sliding fit mode, the middle part of the cambered surface screen is symmetrically provided with L-shaped grooves in the left-right direction, the clamping block is arranged in the L-shaped groove in a sliding fit mode, the clamping spring rod is arranged at the inner end of the clamping block, the inner end of the clamping spring rod is connected to the inner wall of the L-shaped groove, the clamping block is inserted into the concave holes and is matched with the concave holes, the cambered surface baffle is arranged at the upper part of the inner wall of the cambered surface groove in a sliding fit mode, the U-shaped rod is arranged at the upper end of the cambered surface baffle, smash round roller upper end and be located the cambered surface groove left and right sides symmetry and install the flat board, be located and smash and seted up the recess on the dull and stereotyped inner wall on right side on the round roller outer wall, it has seted up the through groove to be located on smashing round roller outer wall on the left flat board, and wear the inslot and install the locking plate through sliding fit's mode, and the locking plate right-hand member passes U type pole and inserts in the recess, locking plate left end outer wall middle part is provided with U form pole, be located and smash round roller outer wall on the left flat board outer wall around the symmetry seted up the straight flute, install L type sliding plate through sliding fit's mode in the straight flute, and mutually support between L type sliding plate and the locking plate and use, install locking spring lever on the L type sliding plate outer wall, locking spring lever outer end is connected on the straight flute inner wall, can carry out the business turn over material processing to titanium white powder, the production efficiency of titanium white powder has been improved.

According to a preferred technical scheme, the positioning device comprises a positioning disc, a positioning circular tube, a positioning circular ring, a positioning cylinder, a resisting circular ring, a lower pressing rod, an arc panel, a return spring rod and a brake plate, wherein the positioning circular disc is installed at the right end of a connecting circular rod on a supporting plate at the right end of a backing plate through the supporting plate, the positioning circular tube is installed at the position, located at the connecting circular rod, on the outer wall of the supporting plate at the right end of a floor, the positioning circular tube is installed on the outer wall of the right side of the positioning circular tube, the positioning cylinder is symmetrically installed at the upper and lower parts of the outer wall at the right end of the positioning circular ring, the resisting circular ring is installed at the output end of the positioning cylinder through the positioning circular ring, the positioning circular tube is installed on the resisting circular ring in a sliding fit manner, through holes are symmetrically formed in the positioning circular tube, the lower pressing rod is installed in the positioning circular tube at the inner end of the lower pressing rod, the return spring rod is symmetrically installed at the front and back on the arc panel, the outer end of the return spring rod is connected to the inner wall of the positioning circular tube, the arc panel is installed on the inner wall of the arc panel, the titanium dioxide plate, stable clamping and positioning circular disc can be used for clamping and positioning operation, and ensuring that the titanium dioxide powder can not rotate when the grinding roller is vibrated.

As a preferred technical scheme of the invention, the outer wall of the positioning disc is uniformly provided with omega-shaped holes along the circumferential direction, the outer wall of the brake plate is uniformly provided with convex blocks along the circumferential direction, and the brake plate and the positioning disc are matched with each other for use, so that the friction force between the brake plate and the positioning disc is improved.

As a preferred technical scheme of the invention, the inner wall of the tightly-supporting circular ring is provided with an inclined plane annular groove along the circumferential direction, the outer end of the lower pressing rod is an inclined arc surface, and the outer end of the lower pressing rod tightly supports against the inner wall of the tightly-supporting circular ring, so that the tightly-supporting circular ring can drive the lower pressing rod to move.

As a preferred technical scheme of the invention, the inner wall of the lower end of the cambered baffle is uniformly provided with the inserted rods along the circumferential direction, and the inserted rods and the meshes on the cambered screen are matched with each other for use, so that the crushed titanium dioxide cannot fall into the meshes of the cambered screen.

As a preferred technical scheme of the invention, the middle part of the base plate is provided with the collecting box, and the opening of the collecting box is gradually enlarged from the lower end to the upper end, so that stable collecting operation can be carried out on the titanium dioxide.

(III) advantageous effects

1. The invention can solve the following problems existing in the prior titanium dioxide grinding, i.e. the traditional titanium dioxide grinding device has poor grinding effect on the titanium dioxide, low efficiency and influence on the production quality of the titanium dioxide; 2. the existing titanium dioxide crushing equipment cannot collect all titanium dioxide in the process of collecting powder, so that raw materials are wasted, the residual titanium dioxide affects the subsequent use of the equipment, and the service life of the equipment is shortened.

2. The crushing device designed by the invention can completely crush the titanium dioxide through the mutual matching operation between the crushing round roller and the crushing round ball, thereby improving the production quality of the titanium dioxide.

3. The feeding and discharging device designed by the invention can be used for screening and discharging the completely crushed titanium dioxide through the cambered surface screen, and the crushed round balls are not doped in the titanium dioxide during the discharging of the titanium dioxide, so that the production quality of the titanium dioxide is ensured, the titanium dioxide raw material can be conveniently conveyed into the crushed round roller, and the production efficiency of the titanium dioxide is improved.

4. The vibrating device designed by the invention enables the titanium dioxide crushed in the crushing round roller to be completely discharged in a vibrating discharging mode, and the phenomenon that the titanium dioxide is remained in the crushing round roller is avoided.

Drawings

The invention is further illustrated by the following examples in conjunction with the drawings.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a partial cross-sectional view of FIG. 1 of the present invention;

FIG. 3 isbase:Sub>A partial cross-sectional view taken along line A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is an enlarged view of the invention taken from the N-direction of FIG. 2;

FIG. 5 is an enlarged view of the portion of the invention in the direction M of FIG. 2;

FIG. 6 is a schematic view of a partial structure of the vibration device of the present invention;

FIG. 7 is a partial cross-sectional view of the invention of FIG. 6;

FIG. 8 is a schematic view of a part of the structure of the feeding and discharging device of the present invention;

fig. 9 is a partial cross-sectional view of the positioning device of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 9, a titanium dioxide ball milling pulverizer comprises a bottom plate 1, a vibration device 2, a pulverizing device 3, a feeding and discharging device 4 and a positioning device 5, wherein the vibration device 2 is installed on the bottom plate 1, the pulverizing device 3 is installed on the vibration device 2, and the feeding and discharging device 4 and the positioning device 5 are installed on the pulverizing device 3.

Vibrator 2 include locating plate 21, a motor 22, roof 23, driven round bar 24, driven gear 25, internal tooth belt 26, square pole 27, rotatory round bar 28 and vibrations board 29, bottom plate 1 on about both ends around the symmetry install roof 23, install driven round bar 24 through normal running fit's mode on the roof 23, driven round bar 24 the inner installs square pole 27, be located and install rotatory round bar 28 between the square pole 27 inner wall on the driven round bar 24 on the roof 23 at both ends around on the bottom plate 1, be connected through vibrations board 29 between the rotatory round bar 28, and rotatory round bar 28 installs at vibrations board 29 lower extreme through normal running fit's mode, the driven round bar 24 front end on the roof 23 that is located the front end on bottom plate 1 passes roof 23 and installs driven gear 25, be connected through internal tooth belt 26 between the driven gear 25, locating plate 21 is installed on the left side of the front end on bottom plate 1, install a motor 22 on locating plate 21, a motor 22 output is connected on the driven gear 25 outer wall on the driven round bar 24 that is located the left roof 23 on the left of front end on bottom plate 1.

Reducing mechanism 3 include backing plate 31, backup pad 32, no. two motors 33, power gear 34, ring gear 35, connect round bar 36, smash round roller 37 and smash ball 38, vibrations board 29 upper end install backing plate 31, backing plate 31 upper end bilateral symmetry installs backup pad 32, install through normal running fit's mode on the backup pad 32 and connect round bar 36, connect and be connected through smashing round roller 37 between the round bar 36, smash and install ring gear 35 on the outer wall of round roller 37 left end along its circumference direction, be located and install No. two motors 33 on the backup pad 32 outer wall of backing plate 31 upper left end, no. two motors 33 outputs pass backup pad 32 and install power gear 34, and mutually support between power gear 34 and the ring gear 35 and use, smash and evenly install from left end to right-hand member in the round roller 37 and smash ball 38, and smash mutually support between ball 38 and the crushing round roller 37 inner wall and use.

The middle part of the backing plate 31 is provided with a collecting box 311, and the opening of the collecting box 311 is gradually increased from the lower end to the upper end.

The feeding and discharging device 4 comprises an arc-surface screen 4a, a clamping block 4b, a clamping spring rod 4c, an arc-surface baffle 4d, a U-shaped rod 4e, a flat plate 4f, a locking plate 4g, a U-shaped rod 4h, a locking spring rod 4i and an L-shaped sliding plate 4j, the middle part of the outer wall of the upper end of the grinding round roller 37 is provided with an arc groove, concave holes are arranged on the inner walls of the left end and the right end of the arc groove, the lower part of the inner wall of the arc groove is provided with an arc screen 4a in a sliding fit mode, the middle part of the arc screen 4a is symmetrically provided with L-shaped grooves in the left-right direction, a clamping block 4b is arranged in the L-shaped groove in a sliding fit mode, the inner end of the clamping block 4b is provided with a clamping spring rod 4c, the inner end of the clamping spring rod 4c is connected to the inner wall of the L-shaped groove, the clamping block 4b is inserted into the concave hole, the clamping blocks 4b and the concave holes are matched with each other for use, the upper part of the inner wall of the cambered groove is provided with a cambered baffle 4d in a sliding fit mode, the middle part of the upper end of the cambered baffle 4d is provided with a U-shaped rod 4e, flat plates 4f are symmetrically arranged at the left side and the right side of the cambered groove at the upper end of the crushing round roller 37, the inner wall of the flat plate 4f at the right side on the outer wall of the crushing round roller 37 is provided with a groove, the flat plate 4f at the left side on the outer wall of the crushing round roller 37 is provided with a through groove, a locking plate 4g is arranged in the through groove in a sliding fit manner, the right end of the locking plate 4g penetrates through the U-shaped rod 4e and is inserted into the groove, a U-shaped rod 4h is arranged in the middle of the outer wall of the left end of the locking plate 4g, straight grooves are symmetrically formed in the front and back of the outer wall of the flat plate 4f on the left side of the outer wall of the crushing round roller 37, an L-shaped sliding plate 4j is arranged in the straight grooves in a sliding fit manner, and the L-shaped sliding plate 4j and the locking plate 4g are mutually matched for use, a locking spring rod 4i is installed on the outer wall of the L-shaped sliding plate 4j, and the outer end of the locking spring rod 4i is connected to the inner wall of the straight groove.

The inner wall of the lower end of the cambered surface baffle 4d is uniformly provided with inserting rods 41 along the circumferential direction, and the inserting rods 41 and the meshes on the cambered surface screen mesh 4a are mutually matched for use.

During specific work, the L-shaped sliding plate 4j is pulled manually, the locking plate 4g is taken out through the U-shaped rod 4h, then the cambered baffle 4d is opened, the clamping block 4b is pulled, the clamping block 4b is separated from the concave hole, the cambered screen 4a is taken out, the titanium dioxide raw material needing to be crushed is conveyed into the crushing roller 37 through the cambered groove in the crushing roller 37 manually, the clamping block 4b is pulled manually to insert the cambered screen 4a into the cambered groove, the clamping block 4b is inserted into the clamping hole under the abutting action of the clamping spring rod 4c, the cambered screen 4a is positioned and installed, the cambered baffle 4d is inserted into the cambered groove, the inserting rod 41 on the cambered baffle 4d is inserted into the mesh hole in the cambered screen 4a, the L-shaped sliding plate 4j is pulled manually, the locking plate 4g is inserted into the groove, the L-shaped sliding plate 4j is loosened, and the L-shaped sliding plate 4j is positioned and operated under the abutting action of the locking spring rod 4 i.

No. two motors 33 drive power gear 34 and rotate, and power gear 34 drives ring gear 35 through gear fit's mode and rotates, and ring gear 35 drives crushing roller 37 and rotates, smashes round roller 37 and drives the motion of smashing ball 38 for smash ball 38 and strike to pound crushing operation to the titanium white powder raw materials in smashing roller 37, can smash the titanium white powder raw materials evenly.

The positioning device 5 comprises a positioning disc 51, a positioning circular tube 52, a positioning circular ring 53, a positioning cylinder 54, a abutting circular ring 55, a lower pressing rod 56, an arc-shaped plate 57, a return spring rod 58 and a brake plate 59, the backing plate 31 is provided with the positioning circular ring 51 by penetrating the supporting plate 32 through the right end of the connecting circular rod 36 on the supporting plate 32 at the right end, the positioning circular tube 52 is arranged at the position of the connecting circular rod 36 on the outer wall of the supporting plate 32 at the right end on the floor, the positioning circular ring 53 is arranged on the outer wall at the right side of the positioning circular tube 52, the positioning cylinder 54 is arranged in a vertically symmetrical mode on the outer wall at the right end of the positioning circular ring 53, the output end of the positioning cylinder 54 is arranged in the positioning circular ring 53 and abutted circular ring 55, the positioning circular tube 52 is arranged by abutting circular ring 55 in a sliding fit mode, the through hole is symmetrically arranged on the positioning circular tube 52, the lower pressing rod 56 is arranged in a sliding fit mode in the through hole, the arc-shaped plate 57 is arranged on the inner wall of the positioning circular tube 52, the return spring rod 58, the outer end of the return spring rod is connected to the inner wall of the positioning circular plate 52, and the arc-shaped plate 59 is arranged on the inner wall of the arc-shaped plate 57.

The outer wall of the positioning disc 51 is uniformly provided with omega-shaped holes along the circumferential direction, the outer wall of the braking plate 59 is uniformly provided with convex blocks along the circumferential direction, and the braking plate 59 and the positioning disc 51 are matched with each other for use.

The inner wall of the abutting ring 55 is provided with an inclined annular groove along the circumferential direction, the outer end of the lower pressing rod 56 is an inclined arc surface, and the outer end of the lower pressing rod 56 abuts against the inner wall of the abutting ring 55.

When the titanium dioxide raw material is uniformly crushed, the positioning cylinder 54 drives the tightening ring 55 to move, the tightening ring 55 drives the lower pressing rod 56 to move towards the inner end through the inclined chute, the lower pressing rod 56 drives the arc panel 57 to move towards the inner end, the arc panel 57 drives the brake panel 59 to move towards the inner end, so that the brake panel 59 is tightly pressed against the outer wall of the positioning disc 51, the positioning disc 51 is positioned, the L-shaped sliding plate 4j is manually pulled open, the locking plate 4g is taken out through the U-shaped rod 4h, then the arc baffle 4d is opened, the first motor 22 drives the driven gear 25 to rotate, the driven gear 25 is driven through the internal toothed belt 26, so that the driven gear 25 drives the driven round rod 24 to rotate, the driven round rod 24 drives the square rod 27 to rotate, the square rod 27 drives the rotary round rod 28 to rotate, the rotary round rod 28 drives the vibration plate 29 to vibrate, the vibration plate 29 drives the backing plate 31 to operate, the backing plate 31 drives the crushing round roller 37 to vibrate, so that the titanium dioxide crushed in the crushing round roller 37 falls into the collection box 311 through the arc screen 4a, and the titanium dioxide is collected.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a titanium white powder ball-milling rubbing crusher, includes bottom plate (1), vibrator (2), reducing mechanism (3), business turn over material device (4) and positioner (5), its characterized in that: the bottom plate (1) is provided with a vibration device (2), the vibration device (2) is provided with a crushing device (3), and the crushing device (3) is provided with a feeding and discharging device (4) and a positioning device (5); wherein:

vibrator (2) including locating plate (21), a motor (22), roof (23), driven round bar (24), driven gear (25), internal tooth belt (26), square bar (27), rotatory round bar (28) and vibrations board (29), bottom plate (1) go up and to control both ends front and back symmetry and install roof (23), install driven round bar (24) through normal running fit's mode on roof (23), square bar (27) are installed to driven round bar (24) inner, be located and to install rotatory round bar (28) between square bar (27) inner wall on driven round bar (24) on roof (23) at both ends around on bottom plate (1), be connected through vibrations board (29) between rotatory round bar (28), and install at vibrations board (29) lower extreme through normal running fit's mode rotatory round bar (28), be located bottom plate (1) on the roof (23) of front end driven round bar (24) front end on driven round bar (24) pass roof (23) and install driven gear (25), be connected through internal tooth belt (26) between driven gear (25), be connected on the left side motor (22) and install motor (22) on the locating plate (21), motor (22) front end on left side locating plate (1), bottom plate (1) install driven round bar (23), bottom plate (23) front end on driven round bar (22), motor front end (22) front end on bottom plate (1), install The outer wall of a driven gear (25) on the (24);

the crushing device (3) comprises a backing plate (31), a support plate (32), a second motor (33), a power gear (34), a ring gear (35), a connecting round rod (36), a crushing round roller (37) and a crushing round ball (38), the backing plate (31) is installed at the upper end of the vibration plate (29), the support plate (32) is installed at the upper end of the backing plate (31) in a bilateral symmetry mode, the connecting round rod (36) is installed on the support plate (32) in a rotation fit mode, the connecting round rods (36) are connected with one another through the crushing round roller (37), the ring gear (35) is installed on the outer wall of the left end of the crushing round roller (37) along the circumferential direction of the outer wall, the second motor (33) is installed on the outer wall of the support plate (32) at the left end of the backing plate (31), the output end of the second motor (33) penetrates through the support plate (32) and is installed with the power gear (34), the power gear (34) and the ring gear (35) are matched with one another, the crushing round ball (38) is evenly installed in the crushing round roller (37), and the inner wall of the crushing round roller (37) is matched with one another;

the feeding and discharging device (4) comprises a cambered surface screen (4 a), a clamping block (4 b), a clamping spring rod (4 c), a cambered surface baffle (4 d), a U-shaped rod (4 e), a flat plate (4 f), a locking plate (4 g), a U-shaped rod (4 h), a locking spring rod (4 i) and an L-shaped sliding plate (4 j), wherein a cambered surface groove is formed in the middle of the outer wall of the upper end of the crushing roller (37), concave holes are formed in the inner walls of the left end and the right end of the cambered surface groove, the cambered surface screen (4 a) is arranged on the lower portion of the inner wall of the cambered surface groove in a sliding fit manner, the L-shaped groove is symmetrically formed in the middle of the cambered surface screen (4 a), the clamping block (4 b) is arranged in the L-shaped groove in a sliding fit manner, the clamping spring rod (4 c) is arranged at the inner end of the clamping spring rod (4 d), the clamping spring rod (4 c) is connected onto the inner wall of the L-shaped groove, the clamping block (4 b) is inserted into the concave hole, the clamping block (4 b) is mutually matched with each other, the clamping block (4 b) and used, the inner wall of the cambered surface groove, the upper portion of the cambered surface groove is arranged on the inner wall of the cambered surface groove, the crushing roller (4 b) is symmetrically arranged on the outer wall of the flat plate roller (4 f), the flat plate (37 f), the flat plate roller (37 f) and positioned on the left side of the outer wall (37 f), a locking plate (4 g) is arranged in the through groove in a sliding fit mode, the right end of the locking plate (4 g) penetrates through a U-shaped rod (4 e) and is inserted into the groove, a U-shaped rod (4 h) is arranged in the middle of the outer wall of the left end of the locking plate (4 g), straight grooves are symmetrically formed in the front and back of the outer wall of a flat plate (4 f) on the left side of the outer wall of the grinding round roller (37), an L-shaped sliding plate (4 j) is arranged in each straight groove in a sliding fit mode, the L-shaped sliding plate (4 j) and the locking plate (4 g) are matched with each other for use, a locking spring rod (4 i) is arranged on the outer wall of each L-shaped sliding plate (4 j), and the outer end of each locking spring rod (4 i) is connected to the inner wall of each straight groove;

the inner wall of the lower end of the cambered surface baffle (4 d) is uniformly provided with inserting rods (41) along the circumferential direction, and the inserting rods (41) and the meshes on the cambered surface screen (4 a) are matched with each other for use.

2. The titanium dioxide ball milling pulverizer as defined in claim 1, wherein: the positioning device (5) comprises a positioning disc (51), a positioning circular tube (52), a positioning circular ring (53), a positioning cylinder (54), a pressing ring (55), a pressing rod (56), an arc panel (57), a return spring rod (58) and a brake plate (59), the right end of a connecting circular rod (36) on a supporting plate (32) at the upper right end of the base plate (31) penetrates through the supporting plate (32) to be provided with the positioning disc (51), the outer wall of the supporting plate (32) at the upper right end of the floor is provided with the positioning circular tube (52) at the connecting circular rod (36), the outer wall at the right side of the positioning circular tube (52) is provided with the positioning circular ring (53), the outer wall at the right end of the positioning circular ring (53) is provided with the positioning cylinder (54) in a vertically symmetrical manner, the output end of the positioning cylinder (54) penetrates through the positioning circular ring (53) to be provided with the pressing ring (55), the positioning circular tube (52) is arranged on the pressing ring (55) in a sliding fit manner, through holes are symmetrically formed in the positioning circular tube (52), the through holes are provided with the lower pressing rod (56) in a sliding fit manner, the inner end of the pressing rod (56) is connected with the inner end of the positioning circular tube (58), the inner wall of the positioning circular plate (52) and the inner end of the positioning circular plate (57), the inner wall of the arc panel (57) is provided with a brake plate (59).

3. The titanium dioxide ball milling pulverizer as defined in claim 2, wherein: the outer wall of the positioning disc (51) is uniformly provided with omega holes along the circumferential direction, the outer wall of the braking vane (59) is uniformly provided with convex blocks along the circumferential direction, and the braking vane (59) and the positioning disc (51) are matched with each other for use.

4. The titanium dioxide ball milling pulverizer as defined in claim 3, characterized in that: the inner wall of the tight supporting ring (55) is provided with an inclined plane ring groove along the circumferential direction, the outer end of the lower pressing rod (56) is an inclined arc surface, and the outer end of the lower pressing rod (56) is tightly supported on the inner wall of the tight supporting ring (55).

5. The titanium dioxide ball milling pulverizer of claim 1, characterized in that: the middle part of the backing plate (31) is provided with a collecting box (311), and the opening of the collecting box (311) is gradually increased from the lower end to the upper end.