CN104668029A

CN104668029A - Chemical material grinding device and using method thereof

Info

Publication number: CN104668029A
Application number: CN201510074237.9A
Authority: CN
Inventors: 钱国臣
Original assignee: Individual
Current assignee: Yingkou Ruifeng Powder Equipment Co ltd
Priority date: 2015-02-12
Filing date: 2015-02-12
Publication date: 2015-06-03
Anticipated expiration: 2035-02-12
Also published as: CN104668029B

Abstract

The invention discloses a chemical material grinding device which comprises an outer fixing cylinder (8), an inner rotatable cylinder (7) and a grinding execution shaft assembly (9), wherein the outer fixing cylinder (8) is provided with two end walls (81) which are respectively positioned at the left and right ends, and a connecting wall (810) positioned between the two end walls (81); multiple supporting rollers (84) distributed along the peripheral direction are arranged in each of the two end walls (81); a loading opening (82) with an upward opening and a powder outlet (83) with a downward opening are formed in the connecting wall (810); the loading opening (82) and the powder outlet (83) extend along the longitudinal direction of the cylinder; and the connecting wall (810) respectively comprises a left connecting wall (86) and a right connecting wall (85) between the loading opening (82) and the powder outlet (83) in the peripheral direction.

Description

A kind of chemical material reducing mechanism and using method thereof

Technical field

The present invention relates to field of chemical preparation, be specially a kind of chemical material reducing mechanism and using method thereof.

Background technology

In chemical process, the preparation of powder is an important ring.Many special process require that powder has certain granule size.Therefore, need to carry out standardization processing to powder preparation.

But, in the Renewal process after each pack, due to opening and the factor such as filling of raw material of equipment, easily cause dust pollution.

Summary of the invention

The object of this invention is to provide a kind of chemical material reducing mechanism and using method thereof, can solve the problem.

According to a kind of chemical material reducing mechanism of the present invention, comprise external stability cylindrical shell, inner rotatable cylindrical shell and pulverizing perform shaft assembly, described external stability cylindrical shell is provided with two end walls laying respectively at two ends, left and right place and the connecting wall between described two end walls, described two end walls each in be provided with the multiple support rollers circumferentially distributed, opening up load port and downward opening meal outlet is offered in connecting wall, described load port and meal outlet all extend along cylindrical shell longitudinal direction, connecting wall is respectively left connecting wall and right connecting wall in a circumferential direction between described load port and meal outlet,

The rotatable cylindrical shell in described inside comprises two the support contact end walls laying respectively at cylindrical shell two ends place and the pulverizing chamber walls be fixedly connected between described two support contact end walls, described pulverizing chamber walls around formed inside for pulverize chamber, described pulverizing chamber walls is divided into mesh screen portion section in a circumferential direction successively, filler opening portion section and remaining closure section, the radial direction of the center of the circumferencial direction of described mesh screen portion section and filler opening portion section is each other in spending angle, described two peripheries supporting contact end wall tangentially contact with the support roller on described two end walls respectively, the lateral wall in one, left side in described two support contact end walls is provided with and armlet is installed to be rotatably connected by bearing with one, left side in described two end walls, the lateral wall on one, right side in described two support contact end walls is provided with power branch sleeve, described power branch sleeve is rotatably installed on one, right side in described two end walls, and be connected with power-equipment through one, described right side in described two end walls

Described pulverizing chamber is provided with revolvable described pulverizing and performs shaft assembly, the described crushing tooth installation portion pulverized execution shaft assembly and comprise the enlarged diameter at middle part, described crushing tooth installation portion is connected with multiple crushing tooth, it is power connection shaft portion in the left side of described crushing tooth installation portion that described pulverizing performs shaft assembly, described power connection shaft portion is rotatably installed in by bearing installs in armlet, right side is for supporting installation shaft portion, described support installation shaft portion is arranged in described power branch sleeve by bearing, described power connection shaft portion and described support installation shaft portion support with described two respectively to contact between one, left side in end wall and one, right side and are rotatably mounted with sealing ring,

The radial thickness of described right connecting wall enables its medial surface contact the outer circumference sidewall of the rotatable cylindrical shell in described inside thus make when the center that the rotatable cylindrical shell in described inside is rotated into the circumferencial direction of described filler opening portion section is positioned at least significant, and described right connecting wall can cover described filler opening portion section.

According to another aspect, the using method of described a kind of chemical material reducing mechanism, wherein, first the center rotatable for described inside cylindrical shell being rotated into the circumferencial direction of described filler opening portion section is positioned at uppermost position in fig-ure, now described filler opening portion section is aimed at described load port, a part for described closure section is aimed at described meal outlet, thus carries out raw material loading; Afterwards, described mesh screen portion section aimed at described meal outlet, now, another part of described closure section is aimed at described load port, and the center of the circumferencial direction of described filler opening portion section is positioned at described least significant; Then, make described pulverizing perform shaft assembly to rotate to pulverize.

By such scheme, internal rotating sleeve is carried out vibrational power flow, thus when raw material loads, the meal outlet of outer sleeve is closed by closure section, thus avoid dust to overflow from meal outlet; When pulverizing, feeding port is closed again by closure section, thus avoids dust effusion when pulverizing; The conversion of this different mode just can be realized by rotating inner part sleeve, therefore easy and simple to handle.And by arranging the right side section of the outer sleeve thickened, the opening portion section being positioned at correspondence position when pulverizing can cover by it, thus avoids other parts of dust pollution device interior when pulverizing; And by by the sidewall of internal rotating sleeve reasonably sleeve mounted externally, and the pulverizing of internal rotating is performed axle reasonably fix relative to the installation portion of described internal rotating sleeve and locate, equipment overall structure can be made reliable and compact.The drives structure of two ends formula can be avoided driving and interfere.And by the roller supporting of end walls, can effectively realize supporting and the double function rotated, equipment overall structure is firm.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of of the present invention kind of chemical material reducing mechanism;

Fig. 2 is the mid section schematic diagram of view in Fig. 1;

Fig. 3 is the partial sectional view in the A-A direction of view in Fig. 2.

Detailed description of the invention

Below in conjunction with Fig. 1-3, the present invention is described in detail.

According to the chemical material reducing mechanism of embodiment, comprise external stability cylindrical shell 8, inner rotatable cylindrical shell 7 and pulverizing perform shaft assembly 9, described external stability cylindrical shell 8 is provided with two end walls 81 laying respectively at two ends, left and right place and the connecting wall 810 between described two end walls 81, described two end walls 81 each in be provided with the multiple support rollers 84 circumferentially distributed, opening up load port 82 and downward opening meal outlet 83 is offered in connecting wall 810, described load port 82 and meal outlet 83 all extend along cylindrical shell longitudinal direction, connecting wall 810 is respectively left connecting wall 86 and right connecting wall 85 between described load port 82 and meal outlet 83 in a circumferential direction,

The rotatable cylindrical shell in described inside 7 comprises two the support contact end walls 79 laying respectively at cylindrical shell two ends place and the pulverizing chamber walls be fixedly connected between described two support contact end walls 79, described pulverizing chamber walls around formed inside for pulverize chamber, described pulverizing chamber walls is divided into mesh screen portion section 72 in a circumferential direction successively, filler opening portion section 73 and remaining closure section 71, described mesh screen portion section 72 is 90 degrees to each other angle with the radial direction of the center of the circumferencial direction of filler opening portion section 73, described two peripheries supporting contact end wall 79 tangentially contact with the support roller 84 on described two end walls 81 respectively, the lateral wall in one, left side in described two support contact end walls 79 is provided with and armlet 74 is installed to be rotatably connected by bearing with one, left side in described two end walls 81, the lateral wall on one, right side in described two support contact end walls 79 is provided with power branch sleeve 75, described power branch sleeve 75 is rotatably installed on one, right side in described two end walls 81, and be connected with power-equipment through one, described right side in described two end walls 81

Described pulverizing chamber is provided with revolvable described pulverizing and performs shaft assembly 9, the described crushing tooth installation portion pulverized execution shaft assembly 9 and comprise the enlarged diameter at middle part, described crushing tooth installation portion is connected with multiple crushing tooth 91, it is power connection shaft portion 92 in the left side of described crushing tooth installation portion that described pulverizing performs shaft assembly 9, , described power connection shaft portion 92 is rotatably installed in by bearing installs in armlet 74, right side is for supporting installation shaft portion 93, described support installation shaft portion 93 is arranged in described power branch sleeve 75 by bearing, described power connection shaft portion 92 and described support installation shaft portion 93 support with described two respectively to contact between one, left side in end wall 79 and one, right side and are rotatably mounted with sealing ring,

The radial thickness of described right connecting wall 85 enables its medial surface contact the outer circumference sidewall of the rotatable cylindrical shell in described inside 7 thus make when the center that the rotatable cylindrical shell in described inside 7 is rotated into the circumferencial direction of described filler opening portion section 73 is positioned at least significant, and described right connecting wall 85 can cover described filler opening portion section 73.

Further, the using method of above-mentioned a kind of chemical material reducing mechanism, wherein, first the center rotatable for described inside cylindrical shell 7 being rotated into the circumferencial direction of described filler opening portion section 73 is positioned at uppermost position in fig-ure, now described filler opening portion section 73 is aimed at described load port 82, a part for described closure section 71 is aimed at described meal outlet 83, thus carries out raw material loading; Afterwards, described mesh screen portion section 72 aimed at described meal outlet 83, now, another part of described closure section 71 is aimed at described load port 82, and the center of the circumferencial direction of described filler opening portion section 73 is positioned at described least significant; Then, make described pulverizing perform shaft assembly 9 to rotate to pulverize.

Claims

1. a chemical material reducing mechanism, comprise external stability cylindrical shell (8), inner rotatable cylindrical shell (7) and pulverizing perform shaft assembly (9), described external stability cylindrical shell (8) is provided with two end walls (81) laying respectively at two ends, left and right place and the connecting wall (810) be positioned between described two end walls (81), described two end walls (81) each in be provided with the multiple support rollers (84) circumferentially distributed, opening up load port (82) and downward opening meal outlet (83) is offered in connecting wall (810), described load port (82) and meal outlet (83) all extend along cylindrical shell longitudinal direction, connecting wall (810) is respectively left connecting wall (86) and right connecting wall (85) in a circumferential direction between described load port (82) and meal outlet (83),

The rotatable cylindrical shell in described inside (7) comprises two supports contact end wall (79) laying respectively at cylindrical shell two ends place and the pulverizing chamber walls be fixedly connected between described two supports contact end wall (79), described pulverizing chamber walls around formed inside for pulverize chamber, described pulverizing chamber walls is divided into mesh screen portion section (72) in a circumferential direction successively, filler opening portion section (73) and remaining closure section (71), described mesh screen portion section (72) is 90 degrees to each other angle with the radial direction of the center of the circumferencial direction of filler opening portion section (73), described two peripheries supporting contact end wall (79) tangentially contact with the support roller (84) on described two end walls (81) respectively, the lateral wall in one, left side in described two supports contact end wall (79) is provided with and armlet (74) is installed to be rotatably connected by bearing with one, left side in described two end walls (81), the lateral wall on one, right side in described two supports contact end wall (79) is provided with power branch sleeve (75), described power branch sleeve (75) is rotatably installed on one, right side in described two end walls (81), and be connected with power-equipment through one, described right side in described two end walls (81)

Described pulverizing chamber is provided with revolvable described pulverizing and performs shaft assembly (9), the described crushing tooth installation portion pulverized execution shaft assembly (9) and comprise the enlarged diameter at middle part, described crushing tooth installation portion is connected with multiple crushing tooth (91), it is power connection shaft portion (92) in the left side of described crushing tooth installation portion that described pulverizing performs shaft assembly (9), described power connection shaft portion (92) is rotatably installed in by bearing installs in armlet (74), right side is for supporting installation shaft portion (93), described support installation shaft portion (93) is arranged in described power branch sleeve (75) by bearing, described power connection shaft portion (92) and described support installation shaft portion (93) support with described two respectively to contact between one, left side in end wall (79) and one, right side and are rotatably mounted with sealing ring,

The radial thickness of described right connecting wall (85) enables its medial surface contact the outer circumference sidewall of the rotatable cylindrical shell in described inside (7) thus make when the center that the rotatable cylindrical shell in described inside (7) is rotated into the circumferencial direction of described filler opening portion section (73) is positioned at least significant, and described right connecting wall (85) can cover described filler opening portion section (73).

2. the using method of a kind of chemical material reducing mechanism as claimed in claim 1, wherein, first the center rotatable for described inside cylindrical shell (7) being rotated into the circumferencial direction of described filler opening portion section (73) is positioned at uppermost position in fig-ure, now described filler opening portion section (73) is aimed at described load port (82), a part for described closure section (71) is aimed at described meal outlet (83), thus carries out raw material loading; Afterwards, described mesh screen portion section (72) is aimed at described meal outlet (83), now, another part of described closure section (71) is aimed at described load port (82), and the center of the circumferencial direction of described filler opening portion section (73) is positioned at described least significant; Then, make described pulverizing perform shaft assembly (9) to rotate to pulverize.