CN222267316U

CN222267316U - A single pot mill

Info

Publication number: CN222267316U
Application number: CN202420214901.XU
Authority: CN
Inventors: 请求不公布姓名
Original assignee: Suzhou Ruicer New Material Technology Co ltd
Current assignee: Suzhou Ruicer New Material Technology Co ltd
Priority date: 2024-01-30
Filing date: 2024-01-30
Publication date: 2024-12-31
Anticipated expiration: 2034-01-30

Abstract

The utility model discloses a single-tank mill which comprises a lower frame, an upper frame and an adjusting mechanism, wherein the adjusting mechanism is used for driving the upper frame to swing so as to drive a feed inlet and a feed outlet of a grinding tank to swing between directions of obliquely upwards or downwards. The upper frame is driven to swing in a pitching mode when needed through the adjusting mechanism, when the grinding tank is adjusted to be arranged in a feeding hole and a discharging hole, powder to be ground and grinding balls can be filled into the grinding tank, when the grinding tank is adjusted to be arranged in a feeding hole and a discharging hole, the ground powder and the grinding balls can be poured out, feeding and discharging are convenient and rapid, and production efficiency is effectively improved.

Description

Single-tank mill

Technical Field

The utility model belongs to the field of grinding equipment, and particularly relates to a single-tank grinding machine.

Background

The existing pot mill (such as a pot mill with a publication number of CN 210678269U) comprises a frame, rotating rubber rollers, supporting wheels and a driving motor, wherein at least two rotating rubber rollers are arranged, a ball milling pot is arranged on the upper frame of the rotating rubber rollers, when the pot mill polishes parts, firstly, the parts to be polished and spherical abrasive materials are required to be simultaneously arranged in the ball milling pot, then the ball milling pot is conveyed to the rotating rubber rollers, and the rotating rubber rollers rotate to drive the ball milling pot to rotate. The varistor material sheet is polished through the relative motion between the abrasive and the part, after polishing, the ball milling tank is required to be carried down from the rotary rubber roller and then the part is taken out, and the feeding and discharging mode is inconvenient and the production efficiency is low.

Disclosure of Invention

The utility model aims to provide a single-tank mill which is convenient for taking and discharging materials.

In order to achieve the purpose, the utility model adopts the technical scheme that the single-tank grinder comprises:

a lower frame;

an upper frame mounted on the lower frame;

The grinding mechanism comprises a first driving roll shaft and a second driving roll shaft which are arranged in parallel, a grinding tank which is arranged between the first driving roll shaft and the second driving roll shaft, the peripheral surface of which is attached to the peripheral surfaces of the first driving roll shaft and the second driving roll shaft, and a driving assembly which drives the first driving roll shaft and the second driving roll shaft to rotate, wherein the first driving roll shaft and the second driving roll shaft rotate to drive the grinding tank to rotate;

The upper frame is rotatably connected to the lower frame, and the single-tank mill further comprises an adjusting mechanism for driving the upper frame to swing so as to drive the feed inlet and the discharge outlet of the grinding tank to swing between the directions of obliquely upwards or downwards.

In another embodiment, the upper frame is rotatably connected to the lower frame through first rotating shafts fixed on the left and right sides of the upper frame, the adjusting mechanism comprises a first driven wheel fixed on one of the first rotating shafts, a speed reducer, a first driving wheel rotatably connected to the lower frame, a first driving belt connected between the first driven wheel and the speed reducer, a second driving belt connected between the first driving wheel and the speed reducer, and a first rotating disc coaxially and fixedly connected with the first driving wheel, and the first rotating disc rotates and drives the first driven wheel to rotate so as to drive the upper frame to swing.

In another embodiment, the first driving wheel is perpendicular to the axis of the first driven wheel, and the output shaft and the input shaft of the speed reducer are perpendicular.

In another embodiment, the driving assembly comprises a driving motor, a third driving belt and a fourth driving belt, the driving motor is rotatably connected to the upper frame and is perpendicular to the first rotating shaft, the third driving belt is connected between an output shaft of the driving motor and the first driving roller shaft, and the fourth driving belt is connected between an output shaft of the driving motor and the second driving roller shaft.

In another embodiment, first limiting rings are formed on two ends of the peripheral surface of the first driving roller shaft, and the grinding tank is provided with a part positioned between the first limiting rings.

In another embodiment, second limiting rings are formed on two ends of the peripheral surface of the second driving roller shaft, and the grinding tank is provided with a part positioned between the second limiting rings.

In another embodiment, the single-tank grinder comprises a locking assembly for locking the upper frame and the lower frame, the locking assembly comprises a locking rod penetrating through the side face of the lower frame and a locking hole formed in the upper frame, and when the upper frame is in a horizontal state, the locking rod can penetrate into the locking hole.

Compared with the prior art, the grinding device has the advantages that the upper frame is driven to swing in a pitching mode when needed through the adjusting mechanism, powder and grinding balls to be ground can be filled into the grinding tank when the grinding tank is adjusted to be upward in the feeding and discharging openings, and the ground powder and grinding balls can be poured out when the grinding tank is adjusted to be downward in the feeding and discharging openings, so that feeding and discharging are convenient and rapid, and production efficiency is effectively improved.

Drawings

FIG. 1 is a perspective view of the present utility model;

Fig. 2 is a perspective view of another view of the present utility model.

Detailed Description

The utility model will be further described with reference to examples of embodiments shown in the drawings.

As shown in fig. 1-2, a single pot mill includes a lower housing 9, an upper housing 8, a grinding mechanism 3, an adjustment mechanism 2, and a locking assembly 1.

The lower frame 9 includes a first mounting plate 91 and a second mounting plate 92 vertically disposed, and the upper frame 8 is rotatably connected to the lower frame 9 through first rotating shafts 81 fixed to both left and right sides thereof and is located between the first mounting plate 91 and the second mounting plate 92.

The grinding mechanism 3 comprises a first driving roll shaft 31 and a second driving roll shaft 32 which are arranged in parallel, a grinding tank 30 which is arranged between the first driving roll shaft 31 and the second driving roll shaft 32 and the peripheral surface of which is attached to the peripheral surfaces of the first driving roll shaft 31 and the second driving roll shaft 32, and a driving assembly which drives the first driving roll shaft 31 and the second driving roll shaft 32 to rotate, wherein the first driving roll shaft 31 and the second driving roll shaft 32 rotate to drive the grinding tank 30 to rotate, first limiting rings 311 are formed on two end parts of the peripheral surface of the first driving roll shaft 31, the grinding tank 30 is provided with second limiting rings 321 which are partially arranged between the first limiting rings 311, and the second limiting rings 321 are formed on two end parts of the peripheral surface of the second driving roll shaft 32, and the grinding tank 30 is provided with a part which is arranged between the second limiting rings 321.

The adjusting mechanism 2 is used for driving the upper frame 8 to swing so as to drive the feed inlet and the discharge outlet of the grinding tank 30 to swing between the directions of obliquely upward or obliquely downward, and the adjusting mechanism 2 comprises a first driven wheel 21 fixed on one of the first rotating shafts 81, a speed reducer 22, a first driving wheel 23 rotatably connected on the lower frame 9, a first driving belt 24 connected between the first driven wheel 21 and the speed reducer 22, a second driving belt 25 connected between the first driving wheel 23 and the speed reducer 22, and a first rotating disc 26 which is coaxial with the first driving wheel 23 and fixedly connected with the first driving wheel 23, wherein the first rotating disc 26 rotates and drives the first driven wheel 21 to rotate so as to drive the upper frame 8 to swing. The first driving wheel 23 is perpendicular to the axis of the first driven wheel 21, and the output shaft and the input shaft of the speed reducer 22 are perpendicular.

The driving assembly includes a driving motor 33 rotatably coupled to the upper frame 8 and disposed perpendicular to the first rotation shaft 81, a third driving belt 34 coupled between an output shaft of the driving motor 33 and the first driving roller shaft 31, and a fourth driving belt 35 coupled between an output shaft of the driving motor 33 and the second driving roller shaft 32.

The locking assembly 1 is used for locking the upper frame 8 and the lower frame 9, and comprises a locking rod 11 penetrating through the side face of the lower frame 9, a second rotary disc 12 connected to the locking rod, and a locking hole 13 formed in the upper frame 8, wherein the locking rod 11 can penetrate into the locking hole 13 when the upper frame 8 is in a horizontal state.

After the locking rod is withdrawn from the locking hole of the upper frame 8, the first rotating disc 26 is rotated to drive the speed reducer 22 to work, so that the upper frame 8 is driven to perform pitching motion. When the grinding tank 30 is adjusted to the position with the material inlet 301 facing upwards, the tank cover 303 covering the material inlet 301 of the grinding tank body 302 can be opened, the grinding tank 30 is filled with powder to be ground and grinding balls, and when the grinding tank 30 is adjusted to the position with the material inlet facing downwards, the ground powder and grinding balls can be poured out, so that feeding and discharging are convenient and rapid, and the production efficiency is effectively improved.

The above embodiments are provided to illustrate the technical concept and features of the present utility model and are intended to enable those skilled in the art to understand the content of the present utility model and implement the same, and are not intended to limit the scope of the present utility model. All equivalent changes or modifications made in accordance with the spirit of the present utility model should be construed to be included in the scope of the present utility model.

Claims

1. A single pot mill, comprising:

a lower frame;

an upper frame mounted on the lower frame;

The grinding machine is characterized in that the upper frame is rotatably connected to the lower frame, and the single-tank grinding machine further comprises an adjusting mechanism for driving the upper frame to swing so as to drive the feeding and discharging port of the grinding tank to swing between the directions of obliquely upwards or downwards.

2. The single-tank mill of claim 1, wherein the upper frame is rotatably connected to the lower frame through first rotating shafts fixed on the left side and the right side of the upper frame, the adjusting mechanism comprises a first driven wheel fixed on one of the first rotating shafts, a speed reducer, a first driving wheel rotatably connected to the lower frame, a first driving belt connected between the first driven wheel and the speed reducer, a second driving belt connected between the first driving wheel and the speed reducer, and a first rotary table which is coaxial with the first driving wheel and fixedly connected with the first driving wheel, and the first rotary table rotates and drives the first driven wheel to rotate so as to drive the upper frame to swing.

3. The single tank mill of claim 2 wherein the first drive wheel is perpendicular to the axis of the first driven wheel and the output shaft of the speed reducer is perpendicular to the input shaft.

4. The single-tank mill of claim 2 wherein the drive assembly includes a drive motor rotatably coupled to the upper housing and disposed perpendicular to the first axis of rotation, a third belt coupled between an output shaft of the drive motor and the first drive roller, and a fourth belt coupled between an output shaft of the drive motor and the second drive roller.

5. The single pot mill of claim 1 wherein the first drive roller shaft has first stop rings formed on both ends of the peripheral surface thereof, and the grinding pot has portions located between the first stop rings.

6. The single pot mill of claim 1 wherein the second drive roller shaft has second stop rings formed on both ends of the peripheral surface thereof, and the grinding pot has portions located between the second stop rings.

7. The single-tank mill of claim 1, wherein the single-tank mill comprises a locking assembly for locking an upper frame and a lower frame, the locking assembly comprises a locking rod penetrating through the side surface of the lower frame and a locking hole formed on the upper frame, and the locking rod can penetrate into the locking hole when the upper frame is in a horizontal state.