CN116328906A

CN116328906A - Multi-dimensional movement hanging ring traction multi-grinding tank large-scale nano ball mill with eccentric shaft sleeve

Info

Publication number: CN116328906A
Application number: CN202310323057.4A
Authority: CN
Inventors: 曾还相; 王运阁; 曲莱; 曲少忠
Original assignee: Shenzhen Laiyuan New Material Technology Co ltd
Current assignee: Shenzhen Laiyuan New Material Technology Co ltd
Priority date: 2023-03-30
Filing date: 2023-03-30
Publication date: 2023-06-27

Abstract

The invention discloses a multi-dimensional movement hanging ring traction multi-grinding tank large-scale nano ball mill with an eccentric shaft sleeve, which is characterized in that a grinding disc provided with a plurality of grinding tanks is driven and driven by the eccentric shaft sleeve, the grinding disc deflects back and forth along with the rotation of the eccentric shaft sleeve, and moves in a regular multi-dimensional manner up and down and left and right to drive the ball milling tanks to perform staggered orderly movement. The ball material in the tank is orderly thrown in the space in the tank, and the ball material is mostly hammered in the tank along with the movement mode of the eccentric shaft sleeve, so that violent multidimensional impact, shearing and grinding are carried out, the overturning material is crushed due to the multidimensional impact, a working room without dead angle is formed, the material can be crushed into uniform micro-nano powder, the processing efficiency of the micro-nano powder is remarkably improved, the yield and the quality are improved, the equipment structure is stable, the operation is simple, the machine can be amplified according to the setting of the yield, the large-scale industrialization can be adapted, and the equipment is matched with the requirements of nano application engineering.

Description

Multi-dimensional movement hanging ring traction multi-grinding tank large-scale nano ball mill with eccentric shaft sleeve

Technical Field

The invention belongs to the technical field of high-energy ball milling equipment, and particularly relates to a multi-dimensional movement hanging ring traction multi-milling tank large-scale nano ball mill with an eccentric shaft sleeve.

Background

Most of the existing ball mills are rotary, vibratory or eccentric rotary ball mills, the eccentric rotary ball mills widely used at present usually rotate a main shaft through a motor, so that an eccentric wheel on the main shaft rotates along with the main shaft, and a ball milling cylinder rapidly vibrates back and forth under the action of the eccentric wheel and a spring.

The inventor receives the continuous half circle concentric oscillation of golden cudgel, successfully accomplishes golden cudgel both ends continuous concentric point swing back and forth with the jar that grinds of relative direction on the disc, and eccentric shaft sleeve is the palm, relies on the back and forth fluctuation of eccentric shaft sleeve, and two jars of relative direction can be along with the anteversion and lean back.

The invention is distinguished from the golden cudgel in that: (1) the two ends of the motion are provided with grinding tanks; (2) because the suspension springs are pulled, besides forward tilting and backward tilting, the suspension springs have 5-15 degrees of circular motion along the rotation direction of the main shaft.

The principle of concentric oscillation is that the oscillating object is constantly moving back and forth around a central point, and in order for it to be able to constantly oscillate, an external force must be applied to it.

The invention aims to solve the defects of the prior art, and provides the multi-dimensional movement hanging ring traction multi-grinding tank large-scale nano ball mill with the eccentric shaft sleeve, wherein the eccentric shaft sleeve is used for replacing a fixed shaft to enable a disc to rotate continuously in multiple dimensions, but the disc is not continuously swung back and forth due to the fact that the disc is pulled by a hanging spring and is not rotated along with a main shaft, and the eccentric shaft sleeve acts on the disc.

Disclosure of Invention

The invention aims to provide a multi-dimensional movement hanging ring traction multi-grinding tank large-scale nano ball mill with an eccentric shaft sleeve, and aims to solve the problems in the background technology. In order to achieve the purpose, the invention adopts the following technical scheme:

the multi-dimensional movement hanging ring traction multi-grinding tank large-scale nanometer ball mill comprises a fixed seat, wherein a first rack and a second rack which are respectively arranged on two sides of the first rack are arranged on the fixed seat, an oblique eccentric structure system is erected on the second rack, the oblique eccentric structure system comprises a bearing sleeve seat, a concentric main shaft, a grinding disc and an eccentric shaft sleeve, the bearing sleeve seat is erected through two ends of the main shaft, the eccentric shaft sleeve is sleeved in the middle of the concentric main shaft, and the grinding disc is sleeved outside the eccentric shaft sleeve; the grinding disc is provided with a plurality of ball milling tanks along the peripheral side, the top of the grinding disc is connected with the top of the first frame through a suspension spring, and the suspension spring is connected with the first frame through a universal joint; the bearing sleeve seats are respectively arranged on the two second frames, one side of one second frame is also provided with a driving motor, and the driving motor is connected with the bearing sleeve seats through a belt and a belt pulley and is used for driving the concentric main shaft; the concentric spindle drives the eccentric shaft sleeve to rotate obliquely and eccentrically by 11-33 degrees through conventional rotation, when the spindle rotates, the eccentric shaft sleeve takes the central point as a focus, the concentric point of the eccentric shaft sleeve synchronously rotates around the center of the concentric spindle along with the distance of the eccentric position, and the crushing disc only swings back and forth by about 10-20 degrees of the rotation direction of the spindle under the traction of the suspension spring, and synchronously swings front and back along with the angle of the eccentric shaft sleeve.

Further, the ball mill also comprises a liquid-gas mixing cooling device.

Further, the liquid-gas cooling device comprises a heat dissipation pipeline and an atomization nozzle, wherein the heat dissipation pipeline is arranged in the first frame, a side wall sealing structure is adopted in the first frame, the atomization nozzle is arranged on the first frame and faces the crushing disc, cooling liquid transmitted through the heat dissipation pipeline directly cools the crushing disc, and cooled liquid returns to the water chiller for reuse through a circulating system.

The circulating system comprises an external liquid storage tank, a water chiller and a water inlet pipe, wherein the water chiller conveys liquid in the liquid storage tank into the heat dissipation pipeline through the water inlet pipe.

Further, the ball milling tank is a split cylindrical double-round-head milling tank.

Furthermore, the ball milling tanks are all provided with feed inlets and feed outlets, and the surfaces of the feed inlets and the feed outlets are kept flat after the feed inlets and the feed outlets are installed with the tank wall through movable cover plugs during working.

Further, the ball milling tank is fixed on the crushing disc through a flange in a mode that the tank body is integrally formed through welding the flange.

Further, the electric control box is further included, and the electric control box is electrically connected with the driving motor.

The invention has the beneficial effects that:

the ball mill drives a plurality of or dozens of large-sized round grinding tanks through the eccentric shaft sleeve, and the ball milling movement track of the grinding balls in the grinding tanks is correspondingly changed through up-down, left-right and front-back multidimensional movement, so that the impact force in the grinding tanks is everywhere due to the change of the ball milling movement track, the working dead angle in the grinding tanks is not caused by the single track, the diversity of the ball milling movement track brings larger impact force to grinding, the efficiency and the yield of micro-nano grinding split processing are obviously improved, the processing bottleneck of the micro-nano materials by a conventional mechanical method is broken, and the development of new material industrialization and related new material application engineering is promoted. The mechanical structure is more humanized, the realization cost is lower, the whole machine is more stable and efficient in operation, the output effect is more ideal, the planning with more productivity can be used for building the matched machine type, the reasonable planning industry matching is facilitated, and the expansion production and popularization and application are more facilitated under the prospect that new materials can be greatly increased in the future.

Drawings

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

FIG. 2 is a schematic side view of an embodiment of the present invention;

fig. 3 is a schematic cross-sectional structure provided in an embodiment of the present invention.

Wherein, each reference sign in the figure:

1. an eccentric shaft sleeve; 2. a concentric spindle; 3. crushing a disc; 4. a bearing sleeve seat; 5. a driving motor; 6, a belt; 7. a hanging spring; 8. a ball milling tank; 9. a first frame; 10. a second frame; 11. a fixing seat; 12. an electric control box; 13. a liquid-gas cooling device; 13-1, a heat dissipation pipeline; 13-2, atomizing nozzle.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiments, and the terms "upper," "lower," "left," "right," "front," "back," and the like are used herein with reference to the positional relationship of the drawings.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

As shown in fig. 1 to 3, the embodiment of the invention provides a multi-dimensional movement hanging ring traction multi-grinding tank large-scale nano ball mill with an eccentric shaft sleeve 1, which comprises a fixed seat 11, wherein a first rack 9 and a second rack 10 which are respectively arranged at two sides of the first rack 9 are arranged on the fixed seat 11, an inclined eccentric structure system is arranged on the second rack 10, the inclined eccentric structure system comprises a bearing sleeve seat 4, a concentric main shaft 2, a grinding disc 3 and an eccentric shaft sleeve 1, two ends of the communication main shaft are arranged on the bearing sleeve seat 4, the eccentric shaft sleeve 1 is sleeved in the middle of the concentric main shaft 2, and the grinding disc 3 is sleeved outside the eccentric shaft sleeve 1; the grinding disc 3 is provided with a plurality of ball milling tanks 8 along the peripheral side, the top of the grinding disc 3 is connected with the top of the first frame 9 through a suspension spring 7, and the suspension spring 7 is connected with the first frame 9 through a universal joint; the bearing sleeve seats 4 are respectively arranged on two second frames 10, one side of one second frame 10 is also provided with a driving motor 5, and the driving motor 5 is connected with the bearing sleeve seats 4 through a belt 6 and a belt pulley and is used for driving the concentric spindle 2; the concentric spindle 2 drives the eccentric shaft sleeve 1 to rotate obliquely and eccentrically by 11-33 degrees through conventional rotation, when the spindle rotates, the eccentric shaft sleeve 1 takes a central point as a focus, the concentric point of the eccentric shaft sleeve 1 synchronously rotates around the center of the concentric spindle 2 along with the distance of the eccentric position, and the crushing disc 3 only swings back and forth by about 10-20 degrees of the rotation direction of the spindle under the traction of the suspension spring 7, and synchronously swings along with the angle of the eccentric shaft sleeve 1; the crushing disc 3 is provided with 6-12

ball milling tanks

8, 4 groups of bearing sleeve seats are arranged, the crushing disc 3 is provided with one group, the number of main supporting bearing sleeve seats is 42, the suspension spring traction device is provided with 76 high-strength suspension springs, and the front and rear parts of the suspension spring traction device are respectively provided with 12 universal joints.

In this particular embodiment, the ball mill further includes a liquid-gas mixing cooling device.

In this embodiment, the liquid-gas cooling device 13 includes a heat dissipation pipe 13-1 and an atomization nozzle 13-2, the heat dissipation pipe 13-1 is disposed in the first rack 9, a side wall sealing structure is adopted in the first rack 9, the atomization nozzle 13-2 is mounted on the first rack 9 and faces the crushing disc 3, the crushing disc 3 is directly cooled by cooling liquid transferred through the heat dissipation pipe 13-1, and the cooled liquid returns to the water chiller for reuse through the circulation system.

The circulation system comprises an external liquid storage tank, a water chiller and a water inlet pipe, wherein the water chiller sends liquid in the liquid storage tank to the heat dissipation pipeline 13-1 through the water inlet pipe. The device is an external device, which is not shown in the figure.

In this embodiment, the ball milling tank 8 is a split cylindrical double-round-head milling tank.

In the specific embodiment, the ball milling tank 8 is provided with a feed inlet and a feed outlet, and the surface of the feed inlet is kept flat after the feed inlet and the feed outlet are installed with the tank wall through a movable cover plug during working.

In this embodiment, the ball milling pot 8 is fixed to the pulverizing disc 3 by a flange in such a manner that the pot body is integrally formed by welding the flange.

In this embodiment, the electric control box 12 is further included, and the electric control box 12 is electrically connected with the driving motor 5.

The invention has the beneficial effects that:

the ball mill drives a plurality of or dozens of large-sized round grinding tanks through the eccentric shaft sleeve 1, and the ball milling movement track of the grinding balls in the grinding tanks is correspondingly changed through up-down, left-right and front-back multidimensional movement, so that the impact force in the grinding tanks is everywhere due to the change of the ball milling movement track, the working dead angle in the grinding tanks is not caused by the single track, the diversity of the ball milling movement track brings larger impact force to grinding, the efficiency and the yield of micro-nano grinding split processing are obviously improved, the processing bottleneck of the micro-nano materials by a conventional mechanical method is broken, and the industrialization of new materials and the development of application engineering of related new materials are promoted. The mechanical structure is more humanized, the realization cost is lower, the whole machine is more stable and efficient in operation, the output effect is more ideal, the planning with more productivity can be used for building the matched machine type, the reasonable planning industry matching is facilitated, and the expansion production and popularization and application are more facilitated under the prospect that new materials can be greatly increased in the future.

The above embodiments are only for illustrating the present invention, not for limiting the present invention, and various changes and modifications may be made by one of ordinary skill in the relevant art without departing from the spirit and scope of the present invention, and therefore, all equivalent technical solutions are also within the scope of the present invention, and the scope of the present invention is defined by the claims.

Claims

1. The utility model provides a large-scale nanometer ball mill of many grinding tanks of multidimension motion rings tractive of eccentric shaft cover which characterized in that: the grinding device comprises a fixed seat, wherein a first rack and a second rack which are respectively arranged at two sides of the first rack are arranged on the fixed seat, an oblique eccentric structure system is erected on the second rack, the oblique eccentric structure system comprises a bearing sleeve seat, a concentric main shaft, a grinding disc and an eccentric shaft sleeve, the two ends of the main shaft are erected on the bearing sleeve seat, the eccentric shaft sleeve is sleeved at the middle part of the concentric main shaft, and the grinding disc is sleeved outside the eccentric shaft sleeve; the grinding disc is provided with a plurality of ball milling tanks along the peripheral side, the top of the grinding disc is connected with the top of the first frame through a suspension spring, and the suspension spring is connected with the first frame through a universal joint; the bearing sleeve seats are respectively arranged on the two second frames, one side of one second frame is also provided with a driving motor, and the driving motor is connected with the bearing sleeve seats through a belt and a belt pulley and is used for driving the concentric main shaft; the concentric spindle drives the eccentric shaft sleeve to rotate obliquely and eccentrically by 11-33 degrees through conventional rotation, when the spindle rotates, the eccentric shaft sleeve takes the central point as a focus, the concentric point of the eccentric shaft sleeve synchronously rotates around the center of the concentric spindle along with the distance of the eccentric position, and the crushing disc only swings back and forth by about 10-20 degrees of the rotation direction of the spindle under the traction of the suspension spring, and synchronously swings front and back along with the angle of the eccentric shaft sleeve.

2. The multi-dimensional motion hanging ring traction multi-grinding tank large-scale nano ball mill with the eccentric shaft sleeve according to claim 1, wherein the multi-dimensional motion hanging ring traction multi-grinding tank large-scale nano ball mill is characterized in that: the ball mill also comprises a liquid-gas mixing and cooling device.

3. The multi-dimensional motion hanging ring traction multi-grinding tank large-scale nano ball mill with the eccentric shaft sleeve according to claim 2, wherein the multi-dimensional motion hanging ring traction multi-grinding tank large-scale nano ball mill is characterized in that: the liquid-gas cooling device comprises a heat dissipation pipeline and an atomization nozzle, wherein the heat dissipation pipeline is arranged in a first frame, a side wall sealing structure is adopted in the first frame, the atomization nozzle is arranged on the first frame and faces to a crushing disc, cooling liquid transmitted through the heat dissipation pipeline directly cools the crushing disc, and cooled liquid returns to the water chiller for reuse through a circulating system.

4. A multi-dimensional motion sling traction multi-grinding tank large-scale nano ball mill with an eccentric shaft sleeve according to claim 3, wherein: the circulating system comprises an external liquid storage tank, a water chiller and a water inlet pipe, wherein the water chiller conveys liquid in the liquid storage tank into the heat dissipation pipeline through the water inlet pipe.

5. The multi-dimensional motion hanging ring traction multi-grinding tank large-scale nano ball mill with the eccentric shaft sleeve according to claim 1, wherein the multi-dimensional motion hanging ring traction multi-grinding tank large-scale nano ball mill is characterized in that: the ball milling tank is a split cylindrical double-round-head milling tank.

6. The multi-dimensional motion hanging ring traction multi-grinding tank large-scale nano ball mill with the eccentric shaft sleeve according to claim 5, wherein the multi-dimensional motion hanging ring traction multi-grinding tank large-scale nano ball mill is characterized in that: the ball milling tank is provided with a feed inlet and a feed outlet, and the surface of the ball milling tank is kept flat after the feed inlet and the feed outlet are installed with the tank wall through a movable cover plug of the ball milling tank during working.

7. The multi-dimensional motion hanging ring traction multi-grinding tank large-scale nano ball mill with the eccentric shaft sleeve according to claim 6, wherein the multi-dimensional motion hanging ring traction multi-grinding tank large-scale nano ball mill is characterized in that: the ball milling tank is fixed on the crushing disc through a welding flange in a mode that the tank body is integrally formed.

8. The multi-dimensional motion hanging ring traction multi-grinding tank large-scale nano ball mill with an eccentric shaft sleeve according to any one of claims 1-7, wherein the multi-dimensional motion hanging ring traction multi-grinding tank large-scale nano ball mill is characterized in that: the motor driving device further comprises an electric control box, and the electric control box is electrically connected with the driving motor.