CN112871329B - Continuous dry ball mill with ultrahigh filling rate - Google Patents

Abstract

The invention relates to the field of ball mills, in particular to an ultrahigh-filling-rate continuous dry-process ball mill which comprises a horizontally arranged support mounting plate, wherein the right upper end of the support mounting plate is vertically provided with a support mounting frame, the upper end of the support mounting frame is provided with a rotary mounting plate through a support rotating shaft, a rotary mounting cylinder is transversely arranged right above the support mounting plate, two ends of the rotary mounting cylinder are symmetrically provided with rotary gates, the outer ends of the rotary gates are fixed on the rotary mounting cylinder through connecting buckles, the left end of the support mounting plate is vertically provided with a transmission mounting cylinder, the leading-in speed and the leading-out speed of a raw material to be ball milled are controlled through a swinging adjusting structure, the continuous ball milling operation of the device is realized by matching with the rotary transmission which is simultaneously carried out, the adaptive adjustment of the device to different ball milling qualities is realized through a combined guide mounting structure, and ball milling materials with different diameters can be replaced, and the combined ball milling operation is carried out, so that the quality and the efficiency of the ball milling operation are obviously improved.

Description

Continuous dry ball mill with ultrahigh filling rate

Technical Field

The invention relates to the field of ball mills, in particular to a continuous dry-process ball mill with ultrahigh filling rate.

Background

As a crushing device, the ball mill is widely applied to production industries of cement, ore dressing, refractory materials, silicate products, glass ceramics and the like with the advantages of large yield, simple structure, low failure rate and the like. But the application range is also severely limited by the defects of large noise, coarse product granularity, high energy consumption, low energy utilization rate and the like. Therefore, how to change the crushing principle of the existing ball mill by optimizing the structure of the ball mill achieves the purposes of saving energy, reducing noise, improving the crushing efficiency and the like, and is a great problem in the manufacturing industry of the existing ball mill.

Although there are many ball mills on the market, the ball mill has obvious defects in the aspects of ball milling adaptability adjustment, continuous ball milling and combination operation, so that the filling rate is insufficient, and the quality and efficiency of the ball milling operation are not ideal.

Disclosure of Invention

The invention aims to provide an ultrahigh filling rate continuous dry ball mill to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a continuous dry ball mill with ultrahigh filling rate comprises a horizontally arranged supporting and mounting plate, wherein the right upper end of the supporting and mounting plate is vertically provided with a supporting and mounting frame, the upper end of the supporting and mounting frame is provided with a rotating and mounting plate through a supporting rotating shaft, a rotating and mounting cylinder is transversely arranged right above the supporting and mounting plate, two ends of the rotating and mounting cylinder are symmetrically provided with rotating gates, the outer end of each rotating gate is fixed on the rotating and mounting cylinder through a connecting buckle, the left end of the supporting and mounting plate is vertically provided with a transmission and mounting cylinder, the upper end of the transmission and mounting cylinder is vertically provided with a limiting rotating shaft through a limiting bearing sleeve, the upper end of the limiting rotating shaft is vertically provided with a lifting stud, the lifting stud is vertically provided with a lifting screw cylinder in a matching manner, the upper end of the lifting screw cylinder is provided with a rotating and supporting plate through a rotating shaft, a position-changing supporting plate is horizontally arranged above the rotating and a plurality of supporting guide wheels are arranged at equal intervals at the upper end of the rotating and supporting and mounting plate, the just right rotation installation section of thick bamboo outside of rotation backup pad intermediate position is provided with and turns to the ring gear, and the inside equidistant of rotating the installation section of thick bamboo is provided with a plurality of direction installation sections, and the both ends of direction installation section of thick bamboo all are provided with the screen cloth, and the upper end intermediate position of direction installation section of thick bamboo is vertical to be provided with the stock guide, and cooperation stock guide all is provided with the stock guide, and the edge of stock guide all is provided with cyclic annular buckle.

As a further scheme of the invention: the four corners of the upper end of the rotary mounting plate are provided with limiting guide wheels through a rotary shaft, and limiting rotary rings are arranged on the outer sides of the rotary mounting cylinders opposite to the limiting guide wheels on the front side and the rear side.

As a further scheme of the invention: the lower end of the limiting rotating shaft is coaxially provided with a transmission bevel gear, driving motors are symmetrically arranged in the supporting and mounting plates at two ends of the transmission mounting cylinder, the driving motors are all provided with driving bevel gears through rotating shafts extending into the transmission mounting cylinder, and the driving bevel gears are all in meshing transmission with the transmission bevel gears.

As a further scheme of the invention: the outer side of the steering gear ring is provided with an annular transmission cylinder in a matching way, and the lower end of the annular transmission cylinder is connected with the rotating support plate.

As a further scheme of the invention: the inner wall of the annular transmission cylinder is provided with a plurality of driving installation grooves at equal angles, driving gears are arranged in the driving installation grooves through rotating shafts, and the driving gears are meshed with the steering gear rings.

As a further scheme of the invention: the equal upper and lower symmetry in the outside of direction installation section of thick bamboo is provided with the direction erection column, and the inboard cooperation direction erection column that rotates the installation section of thick bamboo all is provided with the direction mounting groove.

As a still further scheme of the invention: and two ends of the cylinder wall of the guide installation cylinder are provided with annular magnetic suction plates.

Compared with the prior art, the invention has the beneficial effects that: through the structure that the swing was adjusted, the leading-in and the derivation speed of ball-milling raw materials are treated in control, the cooperation is the rotation transmission of going on simultaneously, realizes the continuous ball-milling operation of device, and through the direction mounting structure of combination formula, the realization device is adjusted the adaptability of different ball-milling quality, through the ball-milling material that can also change different diameters, carries out combination formula ball-milling operation, is showing the packing rate, quality and the efficiency that promote the ball-milling operation.

Drawings

Fig. 1 is a schematic structural view of an ultra-high filling rate continuous dry ball mill.

Fig. 2 is an enlarged structural schematic view of the guide mounting cylinder in fig. 1.

Fig. 3 is a perspective view illustrating a rotary mounting plate in an ultra-high filling rate continuous type dry ball mill.

1-supporting mounting plate, 2-driving motor, 3-driving bevel gear, 4-driving bevel gear, 5-limiting rotating shaft, 6-limiting bearing sleeve, 7-driving mounting cylinder, 8-lifting stud, 9-lifting screw cylinder, 10-rotating supporting plate, 11-supporting guide wheel, 12-deflection supporting plate, 13-steering gear ring, 14-driving gear, 15-driving mounting groove, 16-annular driving cylinder, 17-guiding mounting cylinder, 18-rotating mounting cylinder, 19-connecting buckle, 20-rotating gate, 21-limiting rotating ring, 22-limiting guide wheel, 23-rotating mounting plate, 24-supporting rotating shaft, 25-supporting mounting frame, 26-annular buckle, 27-guide hole, 28-guide plate, 29-guide mounting column, 30-annular magnetic suction plate and 31-screen.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

The following disclosure provides many different embodiments, or examples, for implementing different features of the invention. To simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. Moreover, the present disclosure may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed.

Example one

Referring to fig. 1 to 3, in the embodiment of the present invention, an ultrahigh filling rate continuous dry ball mill comprises a horizontally arranged support mounting plate 1, a support mounting frame 25 is vertically arranged at the upper right end of the support mounting plate 1, a rotary mounting plate 23 is arranged at the upper end of the support mounting frame 25 through a support rotating shaft 24, a rotary mounting cylinder 18 is transversely arranged right above the support mounting plate 1, rotary gates 20 are symmetrically arranged at two ends of the rotary mounting cylinder 18, the outer ends of the rotary gates 20 are fixed on the rotary mounting cylinder 18 through connecting buckles 19, limit guide wheels 22 are arranged at four corners of the upper end of the rotary mounting plate 23 through rotating shafts, limit rotating rings 21 are arranged at the outer sides of the rotary mounting cylinder 18, which are opposite to the limit guide wheels 22 at the front and rear sides, a transmission mounting cylinder 7 is vertically arranged at the left end of the support mounting plate 1, a limit rotating shaft 5 is vertically arranged at the upper end of the transmission mounting cylinder 7 through a limit bearing sleeve 6, the lower end of a limiting rotating shaft 5 is coaxially provided with a transmission bevel gear 4, driving motors 2 are symmetrically arranged in supporting and mounting plates 1 at two ends of a transmission mounting cylinder 7, the driving motors 2 are all provided with driving bevel gears 3 through rotating shafts extending into the transmission mounting cylinder 7, the driving bevel gears 3 are all in meshing transmission with the transmission bevel gears 4, the upper end of the limiting rotating shaft 5 is vertically provided with a lifting stud 8, a lifting screw cylinder 9 is vertically arranged in cooperation with the lifting stud 8, the upper end of the lifting screw cylinder 9 is provided with a rotating support plate 10 through the rotating shafts, a deflection support plate 12 is horizontally arranged above the rotating support plate 10, the upper end of the rotating support plate 10 is provided with a plurality of supporting guide wheels 11 at equal intervals, a steering gear ring 13 is arranged on the outer side of a rotating mounting cylinder 18 opposite to the middle position of the rotating support plate 10, an annular transmission cylinder 16 is arranged on the outer side of the steering gear ring 13 in cooperation, and the lower end of the annular transmission cylinder 16 is connected with the rotating support plate 10, the inner wall of the annular transmission cylinder 16 is equiangularly provided with a plurality of drive mounting grooves 15, all be provided with drive gear 14 through the pivot in the drive mounting groove 15, drive gear 14 all with turn to the meshing cooperation of ring gear 13, the inside of rotating installation cylinder 18 is equidistant to be provided with a plurality of direction installation cylinders 17, the equal longitudinal symmetry in outside of direction installation cylinder 17 is provided with direction erection column 29, the inboard cooperation direction erection column 29 of rotating installation cylinder 18 all is provided with the direction mounting groove, the both ends of direction installation cylinder 17 all are provided with screen cloth 31, the section of thick bamboo wall both ends of direction installation cylinder 17 all are provided with cyclic annular magnetic suction plate 30, the vertical stock guide 27 that is provided with in upper end intermediate position of direction installation cylinder 17, cooperation stock guide 27 all is provided with stock guide 28, the edge of stock guide 28 all is provided with cyclic annular buckle 26.

Ball-milling materials are led into the guide mounting cylinder 17 through the guide holes 27, the guide discs 28 are mounted on the guide holes 27 through the annular buckles 26, under the matching of the guide mounting columns 29 and the guide mounting grooves, the guide mounting cylinder 17 is rapidly mounted, different numbers of guide mounting cylinders 17 are mounted according to the requirements of ball-milling processing, then the ball-milling raw materials are led into the rotary mounting cylinder 18 through the rotary gate 20, the driving gear 14 is started, the rotary mounting cylinder 18 is meshed and driven through the rotary steering toothed ring 13 in a matching mode, the rotary mounting cylinder 18 is rotated, the ball-milling raw materials enter the guide mounting cylinder 17 through the screen 31 at the moment, ball-milling operation is carried out along with the rotation of the rotary mounting cylinder 18, the limiting guide wheel 22 and the limiting rotary ring 21 are matched at the moment, the rotary mounting cylinder 18 is stable in rotation, ball-milling noise is remarkably reduced, and ball-milling efficiency is improved.

Example two

On the basis of embodiment one, start through driving motor 2, make drive bevel gear 3 cooperate the transmission awl tooth path meshing transmission, realize spacing pivot 5 and the lift double-screw bolt 8 synchronous revolution on it, lift screw barrel 9 cooperates lift double-screw bolt 8 to realize lift adjustment, it realizes its slope to rotate backup pad 10 and the backup pad 12 that shifts that supports 11 cooperation on it this moment, finally realize the slope of rotating installation section of thick bamboo 18, the aspect is treated leading-in and deriving of ball-milling raw materials, when rotating installation section of thick bamboo 18 and rotating, support pivot 24 and rotation mounting panel 23 cooperation, make the rotation process continuous and stable, do not influence going on of ball-milling.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Moreover, various embodiments or examples and features of various embodiments or examples described in this specification can be combined and combined by one skilled in the art without being mutually inconsistent.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (2)

1. A continuous dry ball mill with ultrahigh filling rate comprises a horizontally arranged supporting and mounting plate (1), wherein a supporting and mounting frame (25) is vertically arranged at the upper right end of the supporting and mounting plate (1), a rotating and mounting plate (23) is arranged at the upper end of the supporting and mounting frame (25) through a supporting rotating shaft (24), a rotating and mounting cylinder (18) is transversely arranged right above the supporting and mounting plate (1), rotating gates (20) are symmetrically arranged at two ends of the rotating and mounting cylinder (18), the outer ends of the rotating gates (20) are fixed on the rotating and mounting cylinder (18) through connecting buckles (19), the continuous dry ball mill is characterized in that four corners at the upper end of the rotating and mounting plate (23) are respectively provided with a limiting guide wheel (22) through a rotating shaft, limiting rotating rings (21) are respectively arranged at the outer sides of the rotating and mounting cylinder (18) right opposite to the limiting guide wheels (22) at the front side and the rear side, a transmission and a mounting cylinder (7) is vertically arranged at the left end of the supporting and mounting plate (1), the upper end of a transmission installation cylinder (7) is vertically provided with a limiting rotating shaft (5) through a limiting bearing sleeve (6), the upper end of the limiting rotating shaft (5) is vertically provided with a lifting stud (8), a lifting screw cylinder (9) is vertically arranged by matching with the lifting stud (8), the upper end of the lifting screw cylinder (9) is provided with a rotating support plate (10) through a rotating shaft, a deflection support plate (12) is horizontally arranged above the rotating support plate (10), the upper end of the rotating support plate (10) is provided with a plurality of support guide wheels (11) at equal intervals, the outer side of the rotating installation cylinder (18) right opposite to the middle position of the rotating support plate (10) is provided with a steering gear ring (13), the inner part of the rotating installation cylinder (18) is provided with a plurality of guide installation cylinders (17) at equal intervals, both ends of the guide installation cylinders (17) are provided with screen meshes (31), the middle position of the upper ends of the guide installation cylinders (17) is vertically provided with a guide hole (27), the matched material guide holes (27) are provided with material guide discs (28), and the edges of the material guide discs (28) are provided with annular buckles (26);

an annular transmission cylinder (16) is arranged on the outer side of the steering gear ring (13) in a matched mode, the lower end of the annular transmission cylinder (16) is connected with the rotating support plate (10), a plurality of driving installation grooves (15) are formed in the inner wall of the annular transmission cylinder (16) at equal angles, driving gears (14) are arranged in the driving installation grooves (15) through rotating shafts, and the driving gears (14) are matched with the steering gear ring (13) in a meshed mode;

the guide installation barrel is characterized in that guide installation posts (29) are symmetrically arranged on the outer side of the guide installation barrel (17) up and down, guide installation grooves are formed in the inner side of the rotary installation barrel (18) in a matched mode and are matched with the guide installation posts (29), and annular magnetic suction plates (30) are arranged at two ends of the barrel wall of the guide installation barrel (17).

2. The ultra-high filling rate continuous dry ball mill according to claim 1, wherein the lower end of the limiting rotating shaft (5) is coaxially provided with a transmission bevel gear (4), the support mounting plates (1) at the two ends of the transmission mounting cylinder (7) are internally and symmetrically provided with driving motors (2), the driving motors (2) are respectively provided with a driving bevel gear (3) through the rotating shaft extending into the transmission mounting cylinder (7), and the driving bevel gears (3) are respectively in meshing transmission with the transmission bevel gears (4).

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