CN217646523U - Continuous powder processing device - Google Patents

Abstract

The utility model discloses a powder continuous processing device, including reduction gear, raw materials feed bin, ball mill section of thick bamboo, semi-manufactured goods feed bin and rotary screen, one side of reduction gear is provided with the host computer motor, one side that the host computer motor was kept away from to the reduction gear is provided with the ball mill section of thick bamboo, one side below that the reduction gear was kept away from to the ball mill section of thick bamboo is provided with the semi-manufactured goods feed bin, below one side that the ball mill section of thick bamboo was kept away from to the semi-manufactured goods feed bin is provided with the rotary screen, one side that the semi-manufactured goods feed bin was kept away from to the rotary screen is vertically provided with the fill and carries the body, the top that one side that the ball mill section of thick bamboo is close to the host computer motor is provided with the raw materials feed bin. This powder continuous processing device is provided with feeding spiral body and semi-manufactured goods material spiral body for the device is whole can realize holistic continuity at the in-process of work, realizes circulation continuous operation, thereby guarantees holistic work efficiency, overcomes the shortcoming of ball mill intermittent type work, and degree of automation is higher, and stability is strong.

Description

Continuous powder processing device

Technical Field

The utility model relates to a powder processing technology field specifically is a powder continuous processing device.

Background

The ball mill is a key equipment for crushing materials after the materials are crushed, and the ore mill of the type is characterized in that a certain amount of steel balls are filled in a cylinder body of the ore mill to be used as grinding media, and the ore mill is widely applied to production industries of cement, silicate products, novel building materials, refractory materials, chemical fertilizers, black and non-ferrous metal ore dressing, glass ceramics and the like, and is used for carrying out dry-type or wet-type grinding on various ores and other grindable materials. The ball mill is suitable for grinding various ores and other materials, is widely used in the industries of mineral separation, building materials, chemical industry and the like, and can be divided into a dry type ore grinding mode and a wet type ore grinding mode. According to different ore discharge modes, the ore discharge device can be divided into a lattice type and an overflow type.

When the existing ball mill is used for processing powder, the existing ball mill can only work intermittently, continuous and cyclic work cannot be realized, so that the working efficiency is low, and meanwhile, the operation of material returning cannot be realized, so that the integral continuity is poor, the product quality is poor, and the raw material waste is easily caused.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a powder continuous processing device to solve the current ball mill that proposes in the above-mentioned background art and adding man-hour to the powder, can only carry out intermittent type nature work, can not realize continuity cycle work, lead to work efficiency low, can not realize the operation of returning charge simultaneously, make holistic continuity relatively poor, make product quality poor, cause the extravagant problem of raw materials simultaneously easily.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a powder continuous processing device, includes reduction gear, raw materials feed bin, ball mill section of thick bamboo, semi-manufactured goods feed bin and rotary strainer, one side of reduction gear is provided with the host computer motor, one side that the host computer motor was kept away from to the reduction gear is provided with a ball mill section of thick bamboo, one side below that the reduction gear was kept away from to a ball mill section of thick bamboo is provided with semi-manufactured goods feed bin, one side that semi-manufactured goods feed bin was kept away from to semi-manufactured goods feed bin is vertically provided with the fill and carries the body, the top that one side that a ball mill section of thick bamboo is close to the host computer motor is provided with raw materials feed bin.

Preferably, a discharging end at the bottom end of the raw material bin is connected with a feeding spiral body, the discharging end of the raw material bin is communicated with the inside of the feeding spiral body in a penetrating manner, a feeding spiral motor is arranged on one side of the feeding spiral body, which is far away from the ball grinding cylinder, an output shaft of the feeding spiral motor is connected with one end of the feeding spiral body, the discharging end of the feeding spiral body is connected with a ball mill feeding pipe, and the discharging end of the ball mill feeding pipe is communicated with the feeding end of the ball grinding cylinder;

adopt above-mentioned technical scheme to make the feeding more smooth and easy, form the continuity operation for whole work efficiency is higher.

Preferably, one end of an output shaft of the host motor is connected with one end of the speed reducer, one side of the ball grinding cylinder, which is close to the speed reducer, is provided with a ball mill gearwheel, and the ball mill gearwheel is in meshing connection with a gearwheel at the top end of the speed reducer;

adopt above-mentioned technical scheme to make host computer motor output shaft rotate, through reduction gear speed reduction for ball mill gear wheel rotates, thereby drives the ball grinding section of thick bamboo and rotates.

Preferably, a ball mill ball blocking hole plate is arranged on one side, away from the speed reducer, of the ball milling barrel, a discharging end, away from the speed reducer, of the ball milling barrel is connected with a ball mill discharging pipe, the ball mill discharging pipe is connected with a discharging chute, and meanwhile, the discharging end of the discharging chute is located inside the top end of the semi-finished product bin;

by adopting the technical scheme, the raw materials ground by the ball grinding cylinder directly enter the semi-finished product bin to be collected and screened in a centralized manner.

Preferably, the discharge end of the semi-finished product bin is provided with a semi-finished product spiral body in a penetrating and conducting manner, one side of the semi-finished product spiral body, which is far away from the main machine motor, is provided with a semi-finished product spiral motor, the output end of the semi-finished product spiral motor is connected with one end of the semi-finished product spiral body, the discharge end of the semi-finished product spiral body is connected with the feed end at the top end of a circular screen, the circular screen is provided with 2 discharge pipes, and the discharge ends of 1 discharge pipe are connected and conducted with a finished product container;

adopt above-mentioned technical scheme to make and screen the raw materials after will grinding through the rotary screen to holistic grinding quality.

Preferably, one side, close to the bottom end of the circular sieve, of the bucket elevator body is provided with a bucket elevator feed inlet, the discharge ends of the other 1 discharge pipes of the circular sieve are positioned above the bucket elevator feed inlet, one side of the top end of the bucket elevator body is provided with a bucket elevator motor, the output end of the bucket elevator motor is connected with one end, with a rotating shaft, of a feeding belt in the bucket elevator body through a belt, the discharge end at the top end of the bucket elevator body is connected with the bucket elevator discharge pipe, and the discharge end of the bucket elevator discharge pipe is positioned at the top end of the raw material bin;

adopt above-mentioned technical scheme to make unqualified raw materials retrieve and grind once more to make the whole cycle work that can go on, reduce the raw materials extravagant.

Compared with the prior art, the beneficial effects of the utility model are that: this powder continuous processing device:

1. the feeding spiral body and the semi-finished product spiral body are arranged, so that the whole device can realize the whole continuity in the working process, and the circulating continuous work is realized, thereby ensuring the whole working efficiency, overcoming the defect of intermittent work of the ball mill, and having higher automation degree and strong stability;

2. the automatic coarse material return and regrinding device is provided with a bucket lifting feed port, a bucket lifting discharge pipe and a bucket lifting body, screened coarse materials can be collected in a centralized manner through the bucket lifting body and the bucket lifting feed port, and then conveyed and returned to the interior of a raw material bin through the bucket lifting discharge pipe, so that the automatic coarse material return and regrinding are realized, the continuous work is realized, the efficiency is improved, and the integral grinding quality can be ensured;

3. be provided with rotary screen and semi-manufactured goods material spiral body, the raw materials that will grind through the rotation of semi-manufactured goods material spiral body are led to the inside of rotary screen and are screened, and through two discharge gate settings of rotary screen, will be qualified and unqualified raw materials distinguish simultaneously and place to guarantee holistic grinding quality, guarantee work efficiency simultaneously.

Drawings

FIG. 1 is a schematic view of the overall front view structure of the present invention;

FIG. 2 is a schematic view of the installation front view structure of the raw material bin and the ball milling drum of the present invention;

FIG. 3 is a schematic view of the installation structure of the circular screen and the semi-finished product bin of the present invention;

fig. 4 is a front view of the bucket elevator body of the present invention.

In the figure: 1. a speed reducer; 2. a host motor; 3. a ball mill feeding pipe; 4. a feed screw body; 5. a feed screw motor; 6. a raw material bin; 7. a bucket lifting discharge pipe; 8. a bucket elevator body; 9. a ball mill gearwheel; 10. a ball blocking hole plate of the ball mill; 11. a ball milling cylinder; 12. a discharge pipe of the ball mill; 13. a discharging chute; 14. a semi-finished product bin; 15. a semi-finished material spiral body; 16. a semi-finished material screw motor; 17. a circular sieve; 18. a bucket elevator feed port; 19. a finished product container; 20. a bucket elevator motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a continuous powder processing device, including reduction gear 1, host computer motor 2, ball mill inlet pipe 3, feeding spiral body 4, feeding spiral motor 5, raw materials feed bin 6, bucket carry discharging pipe 7, bucket carry body 8, ball mill gear wheel 9, ball mill ball baffle orifice plate 10, ball mill section of thick bamboo 11, ball mill discharging pipe 12, ejection of compact elephant trunk 13, semi-manufactured goods feed bin 14, semi-manufactured goods spiral body 15, semi-manufactured goods spiral motor 16, circular screen 17, bucket carry feed inlet 18, finished product container 19 and bucket carry motor 20, one side of reduction gear 1 is provided with host computer motor 2, one side that reduction gear 1 kept away from host computer motor 2 is provided with ball mill section of thick bamboo 11, one side below that reduction gear 1 was kept away from to ball mill section of thick bamboo 11 is provided with semi-manufactured goods feed bin 14, one side below that semi-manufactured goods feed bin 14 was kept away from ball mill section of thick bamboo 11 is provided with circular screen 17, one side that circular screen 17 kept away from semi-manufactured goods feed bin 14 vertically is provided with bucket carry body 8, the top that one side of ball mill section of pipe 11 was close to host computer motor 2 is provided with raw materials feed bin 6.

The bottom discharge end of raw materials feed bin 6 is connected and is provided with feeding screw body 4, and the discharge end of raw materials feed bin 6 runs through with the inside of feeding screw body 4 and switches on, one side that ball mill section of thick bamboo 11 was kept away from to feeding screw body 4 is provided with feeding screw motor 5, and the output shaft of feeding screw motor 5 is connected with the one end of feeding screw body 4, the discharge end of feeding screw body 4 is connected and is provided with ball mill inlet pipe 3, and the discharge end of ball mill inlet pipe 3 is connected with the feed end of ball mill section of thick bamboo 11 and switches on, when using the device, at first pour the raw materials that need to handle into the inside of raw materials feed bin 6, start feeding screw motor 5 after pouring into, make the output shaft of feeding screw motor 5 rotate and drive feeding screw body 4 and rotate, carry the inside to ball mill inlet pipe 3 with the raw materials of raw materials feed bin 6 inside through the rotation of feeding screw body 4, carry the raw materials to the inside of ball mill section of thick bamboo 11 through ball mill inlet pipe 3 at last.

One end of an output shaft of a host motor 2 is connected with one end of a speed reducer 1, one side of a ball grinding cylinder 11, which is close to the speed reducer 1, is provided with a ball mill gearwheel 9, and the ball mill gearwheel 9 is in meshing connection with a gear at the top end of the speed reducer 1; one side that ball mill section of thick bamboo 11 kept away from reduction gear 1 is provided with ball mill ball baffle orifice plate 10, and ball mill section of thick bamboo 11 keeps away from one side discharge end connection of reduction gear 1 and is provided with ball mill discharging pipe 12, and ball mill discharging pipe 12 is connected and is provided with ejection of compact elephant trunk 13, the discharge end of ejection of compact elephant trunk 13 is located inside the top of semi-manufactured goods feed bin 14 simultaneously, after the raw materials got into ball mill section of thick bamboo 11 inside, start host computer motor 2 starts, control the rotational speed of host computer motor 2 through reduction gear 1, thereby drive ball mill gear 9 and rotate, make ball mill section of thick bamboo 11 rotate through the rotation of ball mill gear 9, thereby grind inside raw materials, grind the back, the raw materials after will grinding through ball mill discharging pipe 12 are carried to semi-manufactured goods feed bin 14 inside.

The discharge end of the semi-finished product bin 14 is provided with a semi-finished product spiral body 15 in a penetrating and conducting connection mode, one side, away from the main machine motor 2, of the semi-finished product spiral body 15 is provided with a semi-finished product spiral motor 16, the output end of the semi-finished product spiral motor 16 is connected with one end of the semi-finished product spiral body 15, the discharge end of the semi-finished product spiral body 15 is connected with the top feeding end of a circular screen 17, the circular screen 17 is provided with 2 discharge pipes, the discharge ends of 1 discharge pipe are connected and conducted with a finished product container 19, after raw materials enter the semi-finished product bin 14, the semi-finished product spiral motor 16 is started, an output shaft of the semi-finished product spiral motor 16 rotates to drive the semi-finished product spiral body 15 to rotate, the raw materials inside the semi-finished product bin 14 are conveyed to the inside of the circular screen 17, the ground raw materials are screened through the circular screen 17, and qualified products enter the finished product container 19.

The bottom one side that the body 8 is close to the rotary screen 17 is provided with the bucket and carries feed inlet 18, and the discharge end of 1 other discharging pipe of rotary screen 17 is located the top that the feed inlet 18 was carried to the bucket, and 8 top one sides are provided with bucket and carry motor 20 to the bucket, simultaneously, it is connected through the belt between the output of bucket carry motor 20 and the one end of the inside pay-off belt pivot of the body 8 was carried to the bucket, the top discharge end connection that the body 8 was carried to the bucket is provided with bucket and carries discharging pipe 7, and the discharge end that the discharging pipe 7 was carried to the bucket is located the top of raw materials feed bin 6, when the unqualified product of screening, enter into bucket and carry feed inlet 18, make bucket carry body 8 start work through the rotation of bucket carrying motor 20 output shaft and carrying the raw materials lifting of bucket feed inlet 18 inside to bucket through the bucket of starting bucket carry motor 20 this moment, rethread bucket carries the inside of unqualified raw materials feed bin 6 with carrying the discharging pipe 7, carry out the secondary and grind the screening, thereby guarantee holistic quality.

The working principle is as follows: when the continuous powder processing device is used, firstly, as shown in figures 1-4, unqualified products can be collected through the arrangement of the bucket lifting body 8, so that secondary grinding and screening are carried out, the integral quality is ensured, meanwhile, the device can carry out continuous feeding and continuous discharging, coarse materials are returned to be ground again, continuous work is circulated, the quality and the efficiency are ensured, and the integral practicability is increased.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various 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 (6)

1. The utility model provides a powder continuous processing device, includes reduction gear (1), raw materials feed bin (6), ball milling section of thick bamboo (11), semi-manufactured goods feed bin (14) and round sieve (17), its characterized in that: one side of reduction gear (1) is provided with host computer motor (2), one side that host computer motor (2) were kept away from in reduction gear (1) is provided with ball mill section of thick bamboo (11), one side below that reduction gear (1) were kept away from in ball mill section of thick bamboo (11) is provided with semi-manufactured goods feed bin (14), below one side that ball mill section of thick bamboo (11) were kept away from in semi-manufactured goods feed bin (14) is provided with round screen (17), one side that semi-manufactured goods feed bin (14) were kept away from in round screen (17) is vertically provided with the fill and carries body (8), the top that one side that ball mill section of thick bamboo (11) is close to host computer motor (2) is provided with raw materials feed bin (6).

2. The continuous powder processing apparatus according to claim 1, wherein: the bottom discharge end of raw materials feed bin (6) is connected and is provided with feeding spiral body (4), and the discharge end of raw materials feed bin (6) runs through with the inside of feeding spiral body (4) and switches on, one side that ball mill section of thick bamboo (11) was kept away from in feeding spiral body (4) is provided with feeding screw motor (5), and the output shaft of feeding screw motor (5) is connected with the one end of feeding spiral body (4), the discharge end of feeding spiral body (4) is connected and is provided with ball mill inlet pipe (3), and the discharge end of ball mill inlet pipe (3) is connected with the feed end of ball mill section of thick bamboo (11) and switches on.

3. The continuous powder processing device according to claim 2, wherein: the ball mill is characterized in that one end of an output shaft of the host motor (2) is connected with one end of the speed reducer (1), one side, close to the speed reducer (1), of the ball mill barrel (11) is provided with a ball mill gear wheel (9), and the ball mill gear wheel (9) is meshed with a gear on the top end of the speed reducer (1) and is connected with the gear.

4. The continuous powder processing device according to claim 3, wherein: one side of the ball milling barrel (11) far away from the speed reducer (1) is provided with a ball mill ball blocking hole plate (10), the discharge end of one side of the ball milling barrel (11) far away from the speed reducer (1) is connected with a ball mill discharge pipe (12), the ball mill discharge pipe (12) is connected with a discharge chute (13), and the discharge end of the discharge chute (13) is located inside the top end of a semi-finished product bin (14).

5. The continuous powder processing apparatus according to claim 4, wherein: the discharge end of semi-manufactured goods feed bin (14) runs through the turn-on connection and is provided with semi-manufactured goods material spiral body (15), and semi-manufactured goods material spiral body (15) keep away from one side of host computer motor (2) and be provided with semi-manufactured goods material spiral motor (16) to the output of semi-manufactured goods material spiral motor (16) is connected with the one end of semi-manufactured goods material spiral body (15), the discharge end of semi-manufactured goods material spiral body (15) and the top feed end of rotary screen (17) are connected, rotary screen (17) are provided with 2 discharging pipes, and wherein 1 discharging pipe discharge end connection switches on and is provided with finished product container (19).

6. The continuous powder processing apparatus according to claim 5, wherein: the hopper is carried body (8) and is provided with hopper lifting feed inlet (18) near bottom one side of round screen (17), and the discharge end of 1 discharging pipe in addition of round screen (17) is located the top of hopper lifting feed inlet (18), and hopper lifting body (8) top one side is provided with hopper lifting motor (20), and the output of hopper lifting motor (20) is connected through the belt between the one end of body (8) inside pay-off area pivot with the hopper simultaneously, the top discharge end connection of hopper lifting body (8) is provided with hopper lifting discharging pipe (7), and the discharge end of hopper lifting discharging pipe (7) is located the top of raw materials feed bin (6).

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