CN215198085U

CN215198085U - Raw materials deironing device for ceramic manufacture

Info

Publication number: CN215198085U
Application number: CN202022207952.4U
Authority: CN
Inventors: 蔡懿霞; 李建中; 帖凌文; 王志勇
Original assignee: Yingxian County Tian Tian Porcelain Industry Co ltd
Current assignee: Yingxian County Tian Tian Porcelain Industry Co ltd
Priority date: 2020-09-30
Filing date: 2020-09-30
Publication date: 2021-12-17
Anticipated expiration: 2030-09-30

Abstract

The utility model discloses a raw materials deironing device for ceramic manufacture, include: the iron removing device comprises a support plate, a screening structure and an iron removing structure, wherein the iron removing structure is arranged on the top side of the support plate, the screening structure is arranged on one side of the iron removing structure in parallel, the iron removing structure comprises a first motor, a roller frame, a scraper, a slag discharging box, a second motor, a mounting frame, a brush, a limiting rod, a fixing frame, a contraction spring and an electromagnetic roller, the mounting rack is welded on the top side of the supporting plate, the fixing rack is welded on the top side of the mounting rack, a second motor is arranged on the side wall of the fixing rack in a matched mode through bolts, a rotating shaft of the second motor is provided with a hairbrush in a matched mode, and by arranging an iron removing structure, at the rotatory in-process of electromagnetism roller, through scraper cooperation operation, strike off the argil of iron content, under the cooperation of second motor operation, sweep into the slag discharging box with the argil of iron content through the brush, accomplish the deironing operation, improve deironing efficiency, improve ceramic production efficiency.

Description

Raw materials deironing device for ceramic manufacture

Technical Field

The utility model relates to a ceramic manufacture technical field specifically is a raw materials deironing device for ceramic manufacture.

Background

Ceramics are the general term of pottery and porcelain, people invented pottery in the new stone times about 8000 years ago, common ceramic materials comprise clay, alumina, kaolin and the like, the ceramic materials generally have higher hardness but poorer plasticity, and the ceramics play an important role in the development of science and technology besides being used for tableware and decoration;

in the ceramic manufacturing process, a large amount of iron impurities are mixed in the pottery clay, when the pottery clay is manufactured and fired, the iron impurities in the pottery clay need to be screened, in the screening process, the screening process is complex, the iron removal efficiency is low, the ceramic manufacturing efficiency is influenced, and when the pottery clay with particles of various diameters exists, the pottery clay is not easy to sort and screen, and the iron removal effect is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a raw materials deironing device for ceramic manufacture has solved screening process, and screening process is complicated, and deironing is inefficient, influences the technical problem of ceramic preparation efficiency.

The purpose of the utility model can be realized by the following technical scheme:

a raw materials deironing device for ceramic manufacture includes: the iron removing device comprises a supporting plate, a screening structure and an iron removing structure, wherein the iron removing structure is installed on the top side of the supporting plate, and the screening structure is installed on one side of the iron removing structure in parallel;

deironing structure includes first motor, roller frame, scraper, scum box, second motor, mounting bracket, brush, gag lever post, mount, shrink spring and electromagnetic roller, the mounting bracket welds the top side of dress in the backup pad, the mount welds the top side of dress at the mounting bracket, install the second motor through the bolt cooperation on the lateral wall of mount, the brush is installed in the cooperation in the pivot of second motor, it has the scraper to weld the dress on the top lateral wall of mount, spacing hole has been seted up to the top lateral wall inside of mount, wear to be equipped with the gag lever post in the spacing hole, the roller frame has been welded to the one end of gag lever post, the electromagnetic roller is installed through the roller cooperation in the inside of roller frame, first motor passes through the bolt cooperation and installs the one side at the roller frame, the pivot and the roller of first motor pass through the shaft coupling cooperation and are connected.

As a further aspect of the present invention: the cutting edge of the scraper is attached to the circumferential surface of the electromagnetic roller, the contraction spring is sleeved outside the limiting rod, and two ends of the contraction spring are fixedly connected to the roller frame and the fixing frame respectively.

As a further aspect of the present invention: and a material guide hole is formed in a top side transverse plate of the mounting frame, and the slag discharge box is arranged below the material guide hole.

As a further aspect of the present invention: screening structure includes stock guide, cambered surface slide, bearing box, bearing plate, filter residue case, vibrations pole, sieve, screening case, screening motor and vibrations wheel, the top side in the backup pad is established to the stock guide grillage, the top side at the stock guide is welded to the screening case, the bearing plate has been welded to the bottom of screening case, the slip hole has been seted up to one side tank wall of screening case, the sieve is worn to establish in the slip hole, the screening motor passes through the bolt cooperation and installs the one side at the screening case, the cooperation is installed in the pivot of screening motor and is shaken the wheel, the eccentric position at the vibrations wheel is installed through the pin cooperation to the one end of vibrations pole, the other end of vibrations pole articulates the one side at the sieve.

As a further aspect of the present invention: the filter residue box is arranged under the bottom end of the sieve plate.

As a further aspect of the present invention: the cambered surface slide plate is welded at the bottom end of the material guide plate, the cambered surface slide plate is arranged around the electromagnetic roller, and the receiving box is arranged right below the port of the cambered surface slide plate.

The utility model has the advantages that: through the arrangement of the iron removal structure, in the rotation process of the electromagnetic roller, the iron-containing argil is scraped through the matching operation of the scraper, under the matching operation of the second motor, the iron-containing argil is swept into the slag discharge box through the brush, so that the iron removal operation is completed, the iron removal efficiency is improved, the ceramic production efficiency is improved, and when iron is removed, the shrinkage spring is arranged between the roller frame and the fixing frame, so that the surface attachment of the scraper and the electromagnetic roller can be ensured, and the scraping is more thorough;

through setting up screening structure, screening motor operation drives the vibrations wheel rotatory, and at the cooperation of vibrations pole, the reciprocal vibrations of promotion sieve can realize sieving argil, and after the screening, argil after the screening passes through bearing plate and stock guide water conservancy diversion, and after the water conservancy diversion, argil flow in cambered surface slide on can realize the screening to argil, reduces argil particle diameter, improves the deironing effect.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is an overall front perspective view of the structure of the utility model;

FIG. 2 is a whole reverse perspective structure view of the present invention;

FIG. 3 is a view of the overall structure of the present invention;

in the figure: 1. a support plate; 2. screening the structure; 3. an iron removal structure; 21. a material guide plate; 22. a cambered surface sliding plate; 23. a receiving box; 24. a bearing plate; 25. a slag filtering box; 26. a vibration rod; 27. a sieve plate; 28. screening the box; 29. a screening motor; 210. a vibration wheel; 31. a first motor; 32. a roller frame; 33. a scraper; 34. a slag discharging box; 35. a second motor; 36. a mounting frame; 37. a brush; 38. a limiting rod; 39. a fixed mount; 310. a retraction spring; 311. an electromagnetic roller.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 to 3, a device for removing iron from a raw material for ceramic production comprises: the iron removing device comprises a supporting plate 1, a screening structure 2 and an iron removing structure 3, wherein the iron removing structure 3 is installed on the top side of the supporting plate 1, and the screening structure 2 is installed on one side of the iron removing structure 3 in parallel;

the iron removing structure 3 comprises a first motor 31, a roller frame 32, a scraper 33, a slag discharging box 34, a second motor 35, a mounting frame 36, a brush 37, a limiting rod 38, a fixing frame 39, a contraction spring 310 and an electromagnetic roller 311, wherein the mounting frame 36 is welded on the top side of the supporting plate 1, the fixing frame 39 is welded on the top side of the mounting frame 36, the second motor 35 is arranged on the side wall of the fixing frame 39 in a matched mode through bolts, the brush 37 is arranged on the rotating shaft of the second motor 35 in a matched mode, the scraper 33 is welded on the side wall of the top of the fixing frame 39, a limiting hole is formed in the top side wall of the fixing frame 39, the limiting rod 38 penetrates through the limiting hole, the roller frame 32 is welded at one end of the limiting rod 38, the electromagnetic roller 311 is arranged in the roller frame 32 in a matched mode through a roller shaft, the first motor 31 is arranged on one side of the roller frame 32 in a matched mode through bolts, and the rotating shaft of the first motor 31 is connected with the roller shaft through a coupling in a matched mode;

the cutting edge of the scraper 33 is attached to the circumferential surface of the electromagnetic roller 311, the contraction spring 310 is sleeved outside the limiting rod 38, and two ends of the contraction spring 310 are fixedly connected to the roller frame 32 and the fixing frame 39 respectively;

a material guide hole is formed in a top side transverse plate of the mounting frame 36, and the slag discharging box 34 is arranged below the material guide hole and can be matched with the large-particle argil to realize screening;

the screening structure 2 comprises a material guide plate 21, a cambered surface sliding plate 22, a bearing box 23, a bearing plate 24, a residue filtering box 25, a vibration rod 26, a screening plate 27, a screening box 28, a screening motor 29 and a vibration wheel 210, wherein the material guide plate 21 is erected on the top side of the support plate 1, the screening box 28 is welded on the top side of the material guide plate 21, the bearing plate 24 is welded on the bottom of the screening box 28, a sliding hole is formed in one side of the screening box 28, the screening plate 27 is arranged in the sliding hole in a penetrating mode, the screening motor 29 is arranged on one side of the screening box 28 through a bolt in a matching mode, the vibration wheel 210 is arranged on a rotating shaft of the screening motor 29 in a matching mode, one end of the vibration rod 26 is arranged at the eccentric position of the vibration wheel 210 through a pin in a matching mode, and the other end of the vibration rod 26 is hinged to one side of the screening plate 27;

the filter residue box 25 is arranged right below the bottom end of the sieve plate 27 and can be matched with the sieve for removing the large-particle argil;

the cambered sliding plate 22 is welded at the bottom end of the material guide plate 21, the cambered sliding plate 22 is arranged around the electromagnetic roller 311, and the receiving box 23 is arranged right below the port of the cambered sliding plate 22, so that the electromagnetic roller 311 can be ensured to be attached to argil.

The utility model discloses a theory of operation: when ceramic is produced, pottery clay is placed on the sieve plate 27, the sieving motor 29 is operated to drive the vibrating wheel 210 to rotate, the vibrating rod 26 is matched to push the sieve plate 27 to vibrate in a reciprocating manner, pottery clay sieving can be realized, after sieving, the sieved pottery clay is guided by the bearing plate 24 and the material guide plate 21, after guiding, the pottery clay flows into the cambered sliding plate 22 to realize sieving of the pottery clay, the particle diameter of the pottery clay is reduced, the iron removal effect is improved, during iron removal, the first motor 31 is operated to drive the electromagnetic roller 311 to rotate, during the rotation of the electromagnetic roller 311, the electromagnetic roller 311 sweeps the pottery clay in the cambered sliding plate 22 to adsorb the pottery clay containing iron, after adsorption, the pottery clay is discharged from the cambered sliding plate 22 and falls into the receiving box 23, during the rotation of the electromagnetic roller 311, the scraper 33 is matched to operate to scrape the pottery clay containing iron, under the operation of the second motor 35, iron-containing argil is swept into the slag discharge box 34 through the brush 37 to complete iron removal operation, and when iron is removed, the contraction spring 310 is arranged between the roller frame 32 and the fixing frame 39, so that the surface attachment of the scraper 33 and the electromagnetic roller 311 can be ensured, and more thorough scraping is ensured.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides a raw materials deironing device for ceramic manufacture which characterized in that includes: the iron removing device comprises a supporting plate (1), a screening structure (2) and an iron removing structure (3), wherein the iron removing structure (3) is installed on the top side of the supporting plate (1), and the screening structure (2) is installed on one side of the iron removing structure (3) in parallel;

the iron removing structure (3) comprises a first motor (31), a roller frame (32), a scraper (33), a slag discharging box (34), a second motor (35), a mounting frame (36), a brush (37), a limiting rod (38), a fixing frame (39), a contraction spring (310) and an electromagnetic roller (311), wherein the mounting frame (36) is welded on the top side of the supporting plate (1), the fixing frame (39) is welded on the top side of the mounting frame (36), the second motor (35) is installed on the side wall of the fixing frame (39) through bolt matching, the brush (37) is installed on the rotating shaft of the second motor (35) in a matching manner, the scraper (33) is welded on the side wall of the top of the fixing frame (39), a limiting hole is formed in the inner portion of the side wall of the fixing frame (39), the limiting rod (38) penetrates through the limiting hole, the roller frame (32) is welded at one end of the limiting rod (38), electromagnetic roller (311) are installed through the roller cooperation in the inside of roller frame (32), one side at roller frame (32) is installed through the bolt cooperation in first motor (31), the pivot of first motor (31) passes through the shaft coupling cooperation with the roller and is connected.

2. The raw material iron removal device for ceramic production according to claim 1, wherein the cutting edge of the scraper (33) is attached to the circumferential surface of the electromagnetic roller (311), the contraction spring (310) is sleeved outside the limiting rod (38), and two ends of the contraction spring (310) are respectively fixedly connected to the roller frame (32) and the fixing frame (39).

3. The raw material iron removal device for ceramic production according to claim 1, wherein a material guide hole is formed in a top side cross plate of the mounting frame (36), and the slag discharge box (34) is arranged below the material guide hole.

4. The raw material iron removal device for ceramic production as claimed in claim 1, wherein the screening structure (2) comprises a material guide plate (21), a cambered surface sliding plate (22), a receiving box (23), a bearing plate (24), a slag filtering box (25), a vibration rod (26), a screen plate (27), a screening box (28), a screening motor (29) and a vibration wheel (210), the material guide plate (21) is erected on the top side of the support plate (1), the screening box (28) is welded on the top side of the material guide plate (21), the bearing plate (24) is welded on the bottom of the screening box (28), a sliding hole is formed in the box wall on one side of the screening box (28), the screen plate (27) is arranged in the sliding hole in a penetrating manner, the screening motor (29) is arranged on one side of the screening box (28) through a bolt in a matching manner, the vibration wheel (210) is arranged on a rotating shaft of the screening motor (29) in a matching manner, one end of the vibration rod (26) is installed at the eccentric position of the vibration wheel (210) through pin matching, and the other end of the vibration rod (26) is hinged to one side of the sieve plate (27).

5. The raw material iron removal device for ceramic production according to claim 4, wherein the filter residue box (25) is disposed just below the bottom end of the sieve plate (27).

6. The iron removing device for the raw materials for ceramic production as set forth in claim 4, wherein the arc-shaped sliding plate (22) is welded at the bottom end of the material guide plate (21), the arc-shaped sliding plate (22) is arranged around the electromagnetic roller (311), and the receiving box (23) is arranged right below the port of the arc-shaped sliding plate (22).