CN213854889U - A ball mill vibration unloader for nuclear titanium white powder - Google Patents

Abstract

The utility model discloses a ball mill vibration unloader for nuclear titanium white powder, including the bottom plate, be equipped with the ball mill main part above the bottom plate, the both ends of ball mill main part are equipped with motor and discharge gate. Be equipped with the unloading slide below the discharge gate, be equipped with vibrator on the unloading slide, vibrator comprises knee lever, last threaded rod, threaded connection pole, threaded rod, connecting strip, first quarter butt, go-between and horizontal pole down, and beneficial effect is: through having set up vibrator for at the in-process of carrying out the unloading, under the drive of transfer line, just can make the vibrations that the unloading slide does not stop through knee lever, last threaded rod, threaded connection pole and lower threaded rod, make more rapidly of titanium white powder landing and can not remain or adsorb on the unloading slide, the distance between last threaded rod and the lower threaded rod can also be adjusted through the threaded connection pole simultaneously, and then makes the inclination of unloading slide can change.

Description

A ball mill vibration unloader for nuclear titanium white powder

Technical Field

The utility model relates to an unloader field specifically is a ball mill vibration unloader for nuclear titanium white powder.

Background

The ball mill is composed of a horizontal cylinder, a feeding and discharging hollow shaft, a grinding head and the like, when the ball mill cylinder rotates, a grinding body is attached to a cylinder lining plate and taken away by the cylinder under the action of inertia and centrifugal force and friction force, and when the ball mill cylinder is taken to a certain height, the ball mill cylinder is thrown off under the action of gravity of the ball mill cylinder, and the falling grinding body breaks materials in the cylinder like a projectile.

However, in the existing titanium dioxide ball mill during blanking, the process of the finished titanium dioxide sliding off from the blanking device is too slow, and the device for falling off is only a simple one, and the titanium dioxide still remains and is adsorbed on the titanium dioxide in the sliding off process.

Therefore, the utility model provides a ball mill vibration unloader for nuclear titanium white powder is used for solving above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a ball mill vibration unloader for nuclear titanium white powder to solve the problem that provides among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a ball mill vibration unloader for nuclear titanium white powder, comprising a base plate, the higher authority of bottom plate is equipped with the ball mill main part, the motor is installed to the one end of ball mill main part, the both sides vertical welding of motor has first supporting shaft, first supporting shaft is installed on first support column, first support column vertical welding is on the bottom plate, the other end of ball mill main part is equipped with the discharging pipe, install the bearing on the discharging pipe, the both sides welding of bearing has first reinforcement ring, install the second back shaft in the first reinforcement ring, the other end of second back shaft is installed on the second support column, be equipped with the unloading slide below the discharging pipe, vibrating device is installed to the higher authority of unloading slide.

Preferably, the gear wheel is installed on the discharging pipe, the pinion is arranged on the gear wheel, the pinion is installed at one end of the transmission rod, the pinion is meshed with the gear wheel, the discharging pipe can drive the pinion to rotate through the gear wheel in the rotating process, the transmission rod is further driven to rotate, energy conversion is achieved, the number of driving parts is reduced, the transmission rod is installed on the second supporting column, a second reinforcing ring is installed at the joint of the transmission rod and the second supporting column, and the second reinforcing ring enables the transmission rod to be more stable in the rotating process.

Preferably, the vibration device comprises a curved bar, an upper threaded bar, a threaded connecting bar, a lower threaded bar, a connecting strip, a first short bar, a connecting ring and a transverse bar, the first short bar is vertically welded on two sides of the blanking slide way, one end of the first short bar is inserted on the connecting strip, the connecting strip is installed at two ends of the transverse bar, the connecting ring is installed in the middle of the transverse bar, the lower threaded bar is welded on the connecting ring, the upper threaded bar and the threaded connecting bar are arranged on the lower threaded bar, the upper end of the upper threaded bar is welded on the curved bar, the curved bar is installed at the other end of the transmission bar, when the curved bar is driven to rotate by the transmission bar, the curved bar can drive the blanking slide way to vibrate up and down through the upper threaded bar, the threaded connecting bar and the lower threaded bar, so that the titanium dioxide vibrates on the blanking slide way, the titanium dioxide slides down more rapidly, and the distance between the upper threaded bar and the lower threaded bar can be adjusted through the threaded connecting bar, the distance between the upper threaded rod and the lower threaded rod can be increased or reduced by rotating the threaded connecting rod, so that the inclination angle of the discharging slide way can be changed, and the discharging slide way is changed according to actual conditions when discharging is convenient.

Preferably, the two sides of the upper end of the discharging slide rail are vertically welded with second short rods, one ends of the second short rods are inserted into the fixing blocks, and the fixing blocks are vertically welded on the second supporting columns.

Compared with the prior art, the beneficial effects of the utility model are that:

1. by arranging the large gear, the small gear and the transmission rod can be driven to rotate by the large gear in the process that the motor drives the ball mill body and the discharge pipe to rotate, so that energy is transmitted, and the number of driving devices is reduced;

2. through having set up vibrator for at the in-process of carrying out the unloading, under the drive of transfer line, just can make the vibrations that the unloading slide does not stop through knee lever, last threaded rod, threaded connection pole and lower threaded rod, make more rapidly of titanium white powder landing and can not remain or adsorb on the unloading slide, the distance between last threaded rod and the lower threaded rod can also be adjusted through the threaded connection pole simultaneously, and then makes the inclination of unloading slide can change.

Drawings

FIG. 1 is a first perspective view of a ball mill vibration blanking device for coating titanium dioxide;

FIG. 2 is a second perspective view of a ball mill vibration blanking device for coating titanium dioxide;

fig. 3 is a perspective view of a partial structure.

In the figure: the ball mill comprises a bottom plate 1, a ball mill body 2, a motor 3, a first supporting shaft 4, a first supporting column 5, a discharge pipe 6, a second supporting column 7, a large gear 8, a small gear 9, a bearing 10, a first reinforcing ring 101, a second supporting shaft 102, a transmission rod 11, a second reinforcing ring 12, a curved rod 13, an upper threaded rod 14, a threaded connecting rod 15, a lower threaded rod 16, a blanking slide way 17, a connecting strip 18, a first short rod 19, a fixing block 20, a second short rod 21, a connecting ring 23 and a cross rod 24.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. The embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative work, all belong to the protection scope of the present invention.

Referring to fig. 1 to fig. 3, the present invention provides a technical solution: the utility model provides a ball mill vibration unloader for nuclear titanium white powder, comprising a base plate 1, the higher authority of bottom plate 1 is equipped with ball mill main part 2, motor 3 is installed to the one end of ball mill main part 2, the both sides vertical welding of motor 3 has first supporting shaft 4, first supporting shaft 4 is installed on first support column 5, the vertical welding of first support column 5 is on bottom plate 1, the other end of ball mill main part 2 is equipped with discharging pipe 6, install bearing 10 on the discharging pipe 6, the both sides welding of bearing 10 has first reinforcing ring 101, install second back shaft 102 in the first reinforcing ring 101, the other end of second back shaft 102 is installed on second support column 7, be equipped with unloading slide 17 below discharging pipe 6, vibrating device is installed to the higher authority of unloading slide 17.

Install gear wheel 8 above discharging pipe 6, gear wheel 8 is equipped with pinion 9 above, the one end at transfer line 11 is installed to pinion 9, pinion 9 and gear wheel 8 mesh mutually, discharging pipe 6 can drive pinion 9 through gear wheel 8 at rotatory in-process and rotate, and then drive transfer line 11 and rotate, realize the conversion of energy, the quantity that sets up of drive unit has still been reduced simultaneously, transfer line 11 is installed on second support column 7, second strengthening ring 12 is installed to transfer line 11 and second support column 7 junction, second strengthening ring 12 makes transfer line 11 at rotatory process more stable.

The vibrating device comprises a curved bar 13, an upper threaded bar 14, a threaded connecting bar 15, a lower threaded bar 16, a connecting strip 18, a first short bar 19, a connecting ring 23 and a cross bar 24, wherein the first short bar 19 is vertically welded at two sides of a blanking slide way 17, one end of the first short bar 19 is inserted into the connecting strip 18, the connecting strip 18 is installed at two ends of the cross bar 24, the connecting ring 23 is installed in the middle of the cross bar 24, the lower threaded bar 16 is welded on the connecting ring 23, the upper threaded bar 14 and the threaded connecting bar 15 are arranged on the lower threaded bar 16, the upper end of the upper threaded bar 14 is welded on the curved bar 13, the curved bar 13 is installed at the other end of the transmission bar 11, when the curved bar 13 is driven to rotate by the transmission bar 11, the curved bar 13 can drive the blanking slide way 17 to vibrate up and down through the upper threaded bar 14, the threaded connecting bar 15 and the lower threaded bar 16, so that the titanium pigment vibrates on the blanking slide way 17, and the titanium pigment slides down more rapidly, go up the distance between threaded rod 14 and the threaded rod 16 down and can adjust through threaded connection rod 15, rotatory threaded connection rod 15 just can make the distance between threaded rod 14 and the threaded rod 16 down increase or reduce, just so makes the inclination of unloading slide 17 can change, when convenient ejection of compact again, changes according to actual conditions.

Two sides of the upper end of the blanking slideway 17 are vertically welded with second short rods 21, one ends of the second short rods 21 are inserted into the fixing blocks 20, and the fixing blocks 20 are vertically welded on the second supporting columns 7.

The working principle is as follows: when the titanium dioxide is processed in the ball mill main body 2, the blanking operation is needed, and in the blanking process, the motor 3 continuously drives the ball mill main body 2 and the discharge pipe 6 to rotate, the titanium dioxide powder flows out of the discharge pipe 6 and enters the discharging slideway 17, meanwhile, the discharge pipe 6 can drive the large gear 8 to rotate, the large gear 8 can drive the small gear 9 to rotate, the small gear 9 drives the transmission rod 11, the transmission rod 11 can drive the curved rod 13 to rotate, the curved rod 13 can drive the discharging slideway 17 to vibrate up and down through the upper threaded rod 14, the threaded connecting rod 15 and the lower threaded rod 16, the titanium dioxide is vibrated in the blanking slideway 17, the titanium dioxide slides more rapidly, the production efficiency is accelerated, when the inclination of the discharging chute 17 needs to be changed, the threaded connecting rod 15 is held by hand to rotate, so that the distance between the upper threaded rod 14 and the lower threaded rod 16 is reduced or increased and the inclination of the blanking chute 17 is changed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a ball mill vibration unloader for coating titanium white powder, includes bottom plate (1), its characterized in that: the improved ball mill is characterized in that a ball mill main body (2) is arranged on the base plate (1), a motor (3) is installed at one end of the ball mill main body (2), first supporting shafts (4) are perpendicularly welded to two sides of the motor (3), the first supporting shafts (4) are installed on first supporting columns (5), the first supporting columns (5) are perpendicularly welded to the base plate (1), a discharging pipe (6) is arranged at the other end of the ball mill main body (2), bearings (10) are installed on the discharging pipe (6), first reinforcing rings (101) are welded to two sides of the bearings (10), second supporting shafts (102) are installed in the first reinforcing rings (101), the other ends of the second supporting shafts (102) are installed on second supporting columns (7), a discharging slide (17) is arranged below the discharging pipe (6), and a vibration device is installed on the discharging slide (17).

2. The vibrating blanking device of the ball mill for the coated titanium dioxide according to the claim 1 is characterized in that: install gear wheel (8) above discharging pipe (6), be equipped with pinion (9) above gear wheel (8), the one end at transfer line (11) is installed in pinion (9), and pinion (9) and gear wheel (8) mesh mutually, and transfer line (11) are installed on second support column (7), and second reinforcing ring (12) are installed to transfer line (11) and second support column (7) junction.

3. The vibrating blanking device of the ball mill for the coated titanium dioxide according to the claim 1 is characterized in that: the utility model discloses a vibrating device, including vibrator, vibrating device, connecting rod (16), connecting strip (18), first quarter butt (19), go up threaded rod (14), threaded connection pole (15), lower threaded rod (16), connecting strip (18), first quarter butt (19), go up connecting ring (23) and horizontal pole (24) are constituteed, first quarter butt (19) vertical welding is in the both sides of unloading slide (17), and the one end of first quarter butt (19) is pegged graft on connecting strip (18), the both ends at horizontal pole (24) are installed in connecting strip (18), connecting ring (23) are installed to the centre of horizontal pole (24), the higher authority welding of connecting ring (23) has lower threaded rod (16), the higher authority of lower threaded rod (16) is equipped with threaded rod (14) and threaded connection pole (15), the upper end welding of going up threaded rod (14) is on bent rod (13), the other end at transfer line (11) is installed in bent rod (13).

4. The vibrating blanking device of the ball mill for the coated titanium dioxide according to the claim 1 is characterized in that: the two sides of the upper end of the blanking slide way (17) are vertically welded with second short rods (21), one ends of the second short rods (21) are inserted into the fixing blocks (20), and the fixing blocks (20) are vertically welded on the second supporting columns (7).

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