CN203108657U

CN203108657U - Titanium dioxide de-ironing device

Info

Publication number: CN203108657U
Application number: CN 201320117560
Authority: CN
Inventors: 蒋静远
Original assignee: JIANGSU HONGYUAN PHARMACEUTICAL CO Ltd
Current assignee: JIANGSU HONGYUAN PHARMACEUTICAL CO Ltd
Priority date: 2013-03-15
Filing date: 2013-03-15
Publication date: 2013-08-07
Anticipated expiration: 2023-03-15

Abstract

The utility model relates to a device for carrying out separation processing for iron fillings in powder materials, in particular to a titanium dioxide de-ironing device. The titanium dioxide de-ironing device comprises a coarse hopper sieve plate, a coarse hopper, a material discharging valve, a material collecting hopper, a permanent magnetic de-ironing separator, a conveyor belt, a magnetic roller, a driven roller and a waste material hopper, wherein the coarse hopper sieve plate is arranged at a material inlet of the coarse hopper, the material discharging valve is arranged at a material outlet of the coarse hopper, a conveying mechanism is formed by the conveyor belt, the magnetic roller and the driven roller, one end of the driven roller is positioned under the material outlet of the coarse hopper, one end of the magnetic roller is used as a material outlet end of the conveying mechanism, the material collecting hopper is positioned under an axis line of the magnetic roller, the waste material hopper is positioned under the separation position between the magnetic roller and the conveyor belt, and the permanent magnetic de-ironing separator is arranged above the conveyor belt. According to the titanium dioxide de-ironing device disclosed by the utility model, iron-containing impurities in titanium dioxide coarse powder can be effectively removed, a smashing and grinding device is prevented from being damaged, the fault rate of a production device is reduced, and the production efficiency of a production line is increased.

Description

The titanium dioxide deironing apparatus

Technical field

The utility model relates to a kind of device, especially titanium dioxide powder deironing apparatus that iron filings in the powder material is carried out separating treatment.

Background technology

Titanium dioxide powder meal raw material contains more ferrous contaminants, often because the ferrous contaminants of raw material, causes pulverizing the damage with milling apparatus in the post processing purification process of titanium dioxide powder, and influences the purity of titanium dioxide powder.In the titanium dioxide powder post processing production process, though can be by at the raw material dog-house titanium dioxide powder meal being filtered with sieve plate, but still have less ferrous contaminants and enter pulverizing and milling apparatus by the sieve plate mesh, cause the damage of production equipment and the stopping production of producing line, have a strong impact on the production efficiency of producing line.

The utility model content

For solving the problems of the technologies described above, it is a kind of except the effective device of iron filings that the utility model provides, and concrete technical scheme is:

The titanium dioxide deironing apparatus, comprise coarse fodder bucket sieve plate, the coarse fodder bucket, discharge valve, receiving hopper, coarse fodder bucket sieve plate is installed in the charging aperture of coarse fodder bucket, discharge valve is installed in the discharging opening of coarse fodder bucket, also comprise permanent-magnetic iron expeller, conveyer belt, the magnetic running roller, driven running roller and waste material bucket, conveyer belt, the magnetic running roller, the driven voller wheel is formed a connecting gear, driven running roller one end is positioned at the discharging opening below of coarse fodder bucket, magnetic running roller one end is the discharge end of connecting gear, receiving hopper is positioned at magnetic roller wheel axial line below, the waste material bucket is positioned at the magnetic running roller separates the place with conveyer belt below, and permanent-magnetic iron expeller is installed in the conveyer belt top.

As optimal design, described connecting gear has a plurality of, according to the stepped installation that joins end to end of overlapped way.

In order to improve de-ferrous effect, there is permanent-magnetic iron expeller the conveyer belt top of described each connecting gear.

During production, the titanium dioxide powder coarse fodder is dropped into the coarse fodder bucket, coarse fodder bucket sieve plate is separated major part greater than coarse fodder particle and the ferrous contaminants of mesh, and particle enters the coarse fodder bucket less than the coarse fodder particle of sieve plate mesh.

Open discharge valve, the titanium dioxide powder meal is fallen on the conveyer belt, transmit through conveyer belt, the titanium dioxide powder meal is through the permanent-magnetic iron expeller below, big ferrous contaminants in the titanium dioxide powder meal is picked up by permanent-magnetic iron expeller, the titanium dioxide powder meal continues to transmit, when arriving the magnetic running roller, all the other ferrous contaminants are held by the magnetic running roller, and the titanium dioxide powder meal falls into receiving hopper, ferrous contaminants by the magnetic running roller holds then reduces gradually along with conveyer belt is subjected to suction away from the magnetic running roller, and falls into the waste material bucket.

The utility model structure can effectively be removed the ferrous contaminants in the titanium dioxide powder meal, has avoided the damage of pulverizing and milling apparatus, reduces the fault rate of production equipment, improves the production efficiency of producing line.

Description of drawings

Fig. 1 is the structural representation of embodiment of the present utility model;

Fig. 2 is the structural representation of another kind of embodiment of the present utility model.

The specific embodiment

The specific embodiment of the present utility model now is described in conjunction with the drawings:

As shown in Figure 1, the utility model comprises coarse fodder bucket sieve plate 1, coarse fodder bucket 2, discharge valve 3, permanent-magnetic iron expeller 4, conveyer belt 5, magnetic running roller 6, driven running roller 7, receiving hopper 8 and waste material bucket 9.Described coarse fodder bucket 2 bottoms are provided with discharge valve 3, discharge valve 3 belows are over against conveyer belt 5, described conveyer belt 5 is enclosed within on magnetic running roller 6 and the driven running roller 7, and magnetic running roller 6 places conveyer belt 5 discharge ends, and described permanent-magnetic iron expeller 4 is installed in conveyer belt 5 tops between coarse fodder bucket 2 discharging openings and the magnetic running roller 6.

During production, the titanium dioxide powder coarse fodder is dropped into coarse fodder bucket 2, coarse fodder bucket sieve plate 1 is separated major part greater than coarse fodder particle and the ferrous contaminants of mesh, and particle enters coarse fodder bucket 2 less than the coarse fodder particle of sieve plate mesh.

Open discharge valve 3, the titanium dioxide powder meal is fallen on the conveyer belt 5, transmit through conveyer belt 5, the titanium dioxide powder meal is through permanent-magnetic iron expeller 4 belows, big ferrous contaminants in the titanium dioxide powder meal is picked up by permanent-magnetic iron expeller 4, the titanium dioxide powder meal continues to transmit, when arriving magnetic running roller 6, all the other ferrous contaminants are held by magnetic running roller 6, and the titanium dioxide powder meal falls into receiving hopper 8, ferrous contaminants by magnetic running roller 6 holds then reduces gradually along with conveyer belt 5 is subjected to suction away from magnetic running roller 6, and falls into waste material bucket 9.

As another embodiment: as shown in Figure 2, the connecting gear of conveyer belt 5, magnetic running roller 6 and 7 assemblings of driven running roller, can be formed by the multilayer connecting gear, the stepped installation that joins end to end, permanent-magnetic iron expeller 4 is installed in each layer material and falls into a little conveyer belt 5 tops with magnetic running roller 6.

Claims

1. titanium dioxide deironing apparatus, comprise coarse fodder bucket sieve plate, the coarse fodder bucket, discharge valve, receiving hopper, coarse fodder bucket sieve plate is installed in the charging aperture of coarse fodder bucket, discharge valve is installed in the discharging opening of coarse fodder bucket, it is characterized in that: also comprise permanent-magnetic iron expeller, conveyer belt, the magnetic running roller, driven running roller and waste material bucket, conveyer belt, the magnetic running roller, the driven voller wheel is formed a connecting gear, driven running roller one end is positioned at the discharging opening below of coarse fodder bucket, magnetic running roller one end is the discharge end of connecting gear, receiving hopper is positioned at magnetic roller wheel axial line below, the waste material bucket is positioned at the magnetic running roller separates the place with conveyer belt below, and permanent-magnetic iron expeller is installed in the conveyer belt top.

2. titanium dioxide deironing apparatus according to claim 1, it is characterized in that: described connecting gear has a plurality of, according to the stepped installation that joins end to end of overlapped way.

3. titanium dioxide deironing apparatus according to claim 2 is characterized in that: permanent-magnetic iron expeller is arranged above the conveyer belt of described each connecting gear.