CN203568243U - Fine crushing material storage bin and electrolyte block breaking system with fine crushing material storage bin - Google Patents

Abstract

The utility model discloses a fine crushing material storage bin and an electrolyte block breaking system with the fine crushing material storage bin. The electrolyte block breaking system comprises the fine crushing material storage bin, a breaking unit and a bucket elevator, wherein the breaking unit is used for breaking electrolyte blocks into fine crushing materials, the bucket elevator is used for conveying the fine crushing materials to the fine crushing material storage bin, the fine crushing material storage bin is provided with a tubular discharge port extending out of the bottom of the bin, an annular magnet body is fixed along the circumference on the inner wall of the discharge port, and the inner ring port of the magnet body is a discharge channel. Due to the fact that the annular magnet body is arranged in the discharge port of the fine crushing material storage bin, the magnet body can attract and filter iron sundries mixed in the fine crushing materials when the fine crushing materials pass through the discharge port; as for the electrolyte block breaking system, attraction and filtration are equivalently carried out again in the discharging process of the fine crushing material storage bin, and the iron sundries mixed in the fine crushing materials can be cleaned out thoroughly.

Description

Disentegrated particles storage bin and use the electrolyte block crushing system of this storage bin

Technical field

The utility model relates to a kind of disentegrated particles storage bin, also relates to a kind of electrolyte block crushing system simultaneously.

Background technology

During electrolyte is produced, anode assemblies as one of critical component is constantly consumed, when being depleted to the anode assemblies that just must more renew while to a certain degree becoming anode scrap, above the anode scrap of changing, be coated with one deck electrolyte block, enterprise often clears up the electrolyte block on anode scrap get off at present, then through crushing system, is processed into the satisfactory powder of particle diameter and is again utilized afterwards again.Chinese patent literature CN100389882C discloses a kind of electrolyte crushing system and breaking method, during this crushing system work, electrolyte block through impact breaker broken laggard enter ball grinding mill, be milled to and by bucket elevator, be promoted to eminence after needed granularity and through band conveyor, deliver to electrolyte warehouse again, owing to clearing up in the electrolyte block material that gets off, can mix the irony foreign material such as screw, iron filings, so be provided with tramp iron separator above band conveyor.But this deironing mode can only be removed and be floated over powder and pile the irony foreign material of surperficial one deck, and be embedded in powder, pile inner irony and still cannot remove.

Utility model content

The purpose of this utility model is to provide a kind of disentegrated particles storage bin that can better remove irony foreign material in electrolyte powder.The utility model also provides the electrolyte crushing system that uses this storage bin simultaneously.

For achieving the above object, disentegrated particles storage bin of the present utility model adopts following technical scheme: disentegrated particles storage bin, comprise warehouse, at the bottom of the storehouse of warehouse, there is the tubular discharging opening stretching out at the bottom of storehouse, on the inwall of described discharging opening, along side face, be fixed with ringshaped magnet body, the interior collar extension of magnet body is tapping channel.

The lower end of described discharging opening is provided with radial flange, is connected with dust-break enclosing on radial flange.

Described dust-break enclosing is connected on radial flange by tied silk.

Described magnet body is supported on radial flange.

Described discharging opening is provided with blow-off valve, and blow-off valve is positioned at the top of magnet body.

Electrolyte block crushing system of the present utility model adopts following technical scheme, electrolyte block crushing system comprises disentegrated particles storage bin and for electrolyte block being broken into the fragmentation cell of disentegrated particles and for the disentegrated particles after fragmentation being delivered to the bucket elevator of disentegrated particles storage bin, described disentegrated particles storage bin has the tubular discharging opening stretching out at the bottom of storehouse, on the inwall of this discharging opening, along side face, be fixed with ringshaped magnet body, the interior collar extension of magnet body is tapping channel.

The lower end of described disentegrated particles storage bin discharging opening is provided with radial flange, is connected with dust-break enclosing on radial flange.

Described dust-break enclosing is connected on radial flange by tied silk.

Described magnet body is supported on radial flange.

The discharging opening of described disentegrated particles storage bin is provided with blow-off valve, and blow-off valve is positioned at the top of magnet body.

The utility model is by arranging the magnet body of ring-type at the discharging opening of disentegrated particles storage bin, when having disentegrated particles to pass through, magnet can carry out adsorption filtration to the irony foreign material that are mixed in disentegrated particles, for electrolyte block crushing system, be equivalent in the process of disentegrated particles storage bin discharge, carry out again an adsorption filtration, be mixed in the comparatively thorough of irony foreign material in material cleaning.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of embodiment of the utility model disentegrated particles storage bin.

The specific embodiment

As shown in Figure 1, it comprises warehouse 1 to a kind of disentegrated particles storage bin that the utility model provides, and has the tubular discharging opening stretching out at the bottom of storehouse at the bottom of the storehouse of warehouse, and the top of discharging opening is provided with blow-off valve 2, and blow-off valve, at ordinary times in normally off, is opened when needs discharge; On the inwall of the middle part of discharging opening, along side face, be fixed with ringshaped magnet body 3, the interior collar extension of magnet body is tapping channel, and magnet body 3 carries out adsorption filtration to the discharge material passing through collar extension in it; Bottom at discharging opening is provided with radial flange, on the outer edge of radial flange, by tied silk 6, be fixedly connected with dust-break enclosing 5, when discharge, dust-break enclosing 5 plays the effect that prevents airborne dust, the inside edge of radial flange extends to the supporting seat of the lower end formation magnet body of magnet body 3, magnet body is supported on radial flange, and so in use, magnet body is not easy to come off.Certainly, dust-break enclosing also can be pressed in the mode on radial flange by screw.The magnet body of above-mentioned ring-type can be that integral structure can be also splicing construction.

The electrolyte block crushing system that the utility model provides comprises fragmentation cell, bucket elevator and the disentegrated particles storage bin for electrolyte block being broken into disentegrated particles, wherein, fragmentation cell is conventional three grades or the level Four crushing system using, these three grades or level Four crushing system are prior art, no longer describe in detail, disentegrated particles storage bin adopts the structure of above-mentioned Fig. 1 herein.The electrolyte block of clearing up from adopting electrolysis residual pole is first crushed to the disentegrated particles of granularity composite demand by three grades of crushing systems, then by bucket elevator, the disentegrated particles after fragmentation is delivered in disentegrated particles storage bin, at needs, give and produce during feed, open blow-off valve, discharge a certain amount of after, close blow-off valve, by this cover system, the electrolyte block on anode scrap is re-used.In the specific implementation, fragmentation cell can also adopt other broken array configuration, and disclosed broken combination in the patent documentation of quoting such as background technology in a word, all can as long as meet the crushing system that electrolyte block is crushed to certain particle size.

In above-described embodiment, the blow-off valve at discharging opening place is not necessary, and for need to can not installing by the system blow-off valve of storing in storage bin, the discharge gate of storage bin is opening wide all the time like this, and the material entering in storehouse is discharged immediately.Certainly, dust-break enclosing neither be necessary, if do not have during discharge airborne dust or airborne dust very little, dust-break enclosing also can be set.In addition, the fixed form of magnet body can have multiple, such as clamping, bonding, screw connects etc.

Claims (10)

1. disentegrated particles storage bin, comprises warehouse, has the tubular discharging opening stretching out at the bottom of storehouse at the bottom of the storehouse of warehouse, it is characterized in that: on the inwall of described discharging opening, along side face, be fixed with ringshaped magnet body, the interior collar extension of magnet body is tapping channel.

2. disentegrated particles storage bin according to claim 1, is characterized in that: the lower end of described discharging opening is provided with radial flange, is connected with dust-break enclosing on radial flange.

3. disentegrated particles storage bin according to claim 2, is characterized in that: described dust-break enclosing is connected on radial flange by tied silk.

4. disentegrated particles storage bin according to claim 2, is characterized in that: described magnet body is supported on radial flange.

5. according to the disentegrated particles storage bin described in claim 1-4 any one, it is characterized in that: described discharging opening is provided with blow-off valve, blow-off valve is positioned at the top of magnet body.

6. electrolyte block crushing system, comprise disentegrated particles storage bin and for electrolyte block being broken into the fragmentation cell of disentegrated particles and for the disentegrated particles after fragmentation being delivered to the bucket elevator of disentegrated particles storage bin, it is characterized in that: described disentegrated particles storage bin has the tubular discharging opening stretching out at the bottom of storehouse, on the inwall of this discharging opening, along side face, be fixed with ringshaped magnet body, the interior collar extension of magnet body is tapping channel.

7. electrolyte block crushing system according to claim 6, is characterized in that: the lower end of described disentegrated particles storage bin discharging opening is provided with radial flange, is connected with dust-break enclosing on radial flange.

8. electrolyte block crushing system according to claim 7, is characterized in that: described dust-break enclosing is connected on radial flange by tied silk.

9. electrolyte block crushing system according to claim 7, is characterized in that: described magnet body is supported on radial flange.

10. according to the electrolyte block crushing system described in claim 6-9 any one, it is characterized in that: the discharging opening of described disentegrated particles storage bin is provided with blow-off valve, blow-off valve is positioned at the top of magnet body.