CN210097564U - Silicon carbon material apparatus for producing - Google Patents

Abstract

The utility model belongs to the technical field of silicon carbon material production technique and specifically relates to indicate a silicon carbon material apparatus for producing, including be used for the dispersion to mix solid phase raw materials and liquid phase raw materials and form mixing mix jar in advance, be used for toward mix jar first dustless feeding device of carrying solid phase raw materials in advance, be used for toward mix jar in advance and carry out the loading attachment of liquid phase raw materials, be used for carrying out the corase grind mechanism of coarse grinding, be used for carrying out the correct grinding mechanism of correct grinding to the mixture after the coarse grinding, be used for to divide the material to mix the reinforced mechanism that forms silicon carbon material and be used for storing the storage tank of silicon carbon material through mixture after the correct grinding and additive. The utility model discloses a mix jar, first dustless throw material device, loading attachment, corase grind mechanism, correct grinding mechanism, reinforced mechanism and storage tank's cooperation in advance, the automatic preparation that realizes to the silicon carbon material to the production efficiency of silicon carbon material has been promoted.

Description

Silicon carbon material apparatus for producing

Technical Field

The utility model belongs to the technical field of silicon carbon material production technique and specifically relates to indicate a silicon carbon material apparatus for producing.

Background

Compared with silicon materials and carbon materials, the silicon-carbon materials have the advantages of long cycle life, small volume change and the like, and therefore, the silicon-carbon materials are more widely used as negative electrode materials of new energy batteries. The silicon-carbon material is produced by dispersing, mixing and grinding a solid phase raw material and a liquid phase raw material to form a mixture, adding an additive into the mixture, and fully mixing. However, in the prior art, no device can realize the automatic preparation of the silicon carbon material, which undoubtedly affects the production efficiency of the silicon carbon material.

Disclosure of Invention

The utility model discloses problem to prior art provides a silicon carbon material apparatus for producing, can automize and accomplish the preparation of silicon carbon material.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a pair of silicon carbon material apparatus for producing, including be used for the dispersion to mix solid phase raw materials and liquid phase raw materials form mixing in advance jar, be used for toward mix in advance jar first dustless throw material device of carrying solid phase raw materials, be used for toward mix in jar the loading attachment of carrying liquid phase raw materials, be used for carrying out rough grinding's corase grind mechanism, be used for carrying out the correct grinding mechanism of correct grinding to the mixture after the rough grinding, be used for to mix the reinforced mechanism that forms silicon carbon material and be used for storing the storage tank of silicon carbon material with additive branch material to the mixture after the correct grinding.

Further, reinforced mechanism includes that the second is dustless throw the material device and adds the feed tank, it is provided with reinforced stirring subassembly to add in the feed tank, the dustless material device of throwing of second set up in add the feed end of feed tank, the discharge end of adding the feed tank connect in the storage tank.

Furthermore, the second dustless feeding device comprises a second feeding bin, a second fan, a second dust removal filter cylinder, a second back-blowing device and a second screening mechanism, the second feeding bin is provided with a feed opening communicated with the feed end of the feeding tank, the second fan is provided with a second dust removal filter cylinder, the second back-blowing device is arranged in the second feeding bin, and the second screening mechanism is arranged between the second feeding bin feed opening and the second dust removal filter cylinder.

Preferably, the second screening mechanism includes vibrating screen and vibrating motor, vibrating screen set up in the second throws the feed bin, vibrating motor is used for the drive vibrating screen vibrates.

Preferably, a movable door is rotatably arranged at the feeding port of the second feeding bin.

Further, mix jar in advance with between the gross grinding mechanism, the gross grinding mechanism with between the accurate grinding mechanism, the accurate grinding mechanism with between the reinforced mechanism, reinforced mechanism with be provided with filter assembly between the storage tank respectively, filter assembly includes power pump and filter, power pump and filter.

Furthermore, first dustless material device of throwing includes that first throw feed bin, first fan, first dust removal strain a section of thick bamboo, a blowback device and first sieve material mechanism, first throw the feed opening of feed bin with the feed end intercommunication of premix jar, first fan first dust removal strain a section of thick bamboo first blowback device with first sieve material mechanism all set up in the first feed bin of throwing, first sieve material mechanism be located the first feed bin the feed opening with between the section of thick bamboo is strained in the first dust removal.

Further, the rough grinding mechanism comprises a rough grinding tank and a rough grinding machine, the rough grinding tank is connected to the premixing tank, and the rough grinding machine is respectively connected to the rough grinding tank and the fine grinding mechanism; and a plurality of coarse grinding beads with the diameter of 0.55-0.8mm are arranged in the refiner.

Further, the production device further comprises a valve assembly, the fine grinding mechanism comprises a fine grinding tank and the refiner, the fine grinding tank is provided with a feed inlet, a discharge outlet and a circulation port, the feed inlet is communicated with the coarse grinding mechanism, the circulation port is communicated with the output end of the refiner, and the input end of the refiner, the discharge outlet and the feeding mechanism are communicated through the valve assembly;

a plurality of fine grinding beads with the diameter of 0.18-0.28mm are arranged in the refiner.

Further, the feeding mechanism and the storage tank are provided with a filtering mechanism, the filtering mechanism comprises a storage pump, a storage filter and a storage iron remover, and the storage pump, the storage filter and the storage iron remover are connected in series.

The utility model has the advantages that: the utility model discloses a mix jar, first dustless throw material device, loading attachment, corase grind mechanism, correct grinding mechanism, reinforced mechanism and storage tank's cooperation in advance, the automatic preparation that realizes to the silicon carbon material to the production efficiency of silicon carbon material has been promoted.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of a first dust-free feeding device.

Fig. 3 is a schematic structural diagram of the feeding mechanism of the present invention.

Fig. 4 is a schematic structural view of a second dust-free feeding device of the present invention.

Fig. 5 is a schematic structural diagram of the filter assembly of the present invention.

Fig. 6 is a schematic structural diagram of the rough grinding mechanism of the present invention.

Fig. 7 is a schematic structural view of the fine grinding mechanism of the present invention.

Fig. 8 is a schematic structural diagram of the filtering mechanism of the present invention.

Reference numerals: 1-a first dust-free feeding device, 3-a premixing tank, 4-a coarse grinding mechanism, 5-a fine grinding mechanism, 6-a feeding mechanism, 7-a storage tank, 8-a filtering component, 9-a valve component, 11-a first feeding bin, 12-a first fan, 13-a first dust-removing filter cylinder, 14-a first back-blowing device, 15-a first screening mechanism, 31-a premixing stirring mechanism, 41-a coarse grinding tank, 42-a coarse grinding machine, 51-a fine grinding tank, 52-a fine grinding machine, 61-a second dust-free feeding device, 62-a feeding tank, 63-a second feeding bin, 64-a second fan, 65-a second dust-removing filter cylinder, 66-a second back-blowing device, 67-a second screening mechanism, 68-a movable door, 71-a filtering mechanism, 72-a storage pump, 73-a storage filter, 74-a storage iron remover, 81-a power pump, 82-a filter, 511-a feeding port, 512-a discharge port, a storage port, a circulation port, 621-feeding stirring subassembly, 671-vibrating screen, 672-vibrating motor.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention. The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, the utility model provides a silicon carbon material production device, including be used for the dispersion to mix solid phase raw materials and liquid phase raw materials and form the jar 3 that mixes in advance of mixture, be used for to carry the first dustless feeding device 1 of solid phase raw materials in the jar 3 that mixes in advance, be used for to carry the loading attachment (not marking in the figure, belong to the conventional design in this field) of liquid phase raw materials in the jar 3 that mixes in advance, be used for carrying out the rough grinding mechanism 4 to the mixture, be used for carrying out the fine grinding mechanism 5 that the mixture after the rough grinding carries out the fine grinding to the mixture after the rough grinding, be used for mixing the mixture after the fine grinding and additive branch material and form the reinforced mechanism 6 of silicon carbon material and be used for storing the storage tank 7 of; preferably, the premix tank 3 is provided with a premix stirring mechanism 31.

The utility model discloses a mix jar 3 in advance, first dustless throw material device 1, loading attachment, corase grind mechanism 4, correct grinding mechanism 5, reinforced mechanism 6 and storage tank 7's cooperation, the automatic preparation that realizes to the silicon carbon material to the production efficiency of silicon carbon material has been promoted.

As shown in fig. 2, in the present embodiment, the feeding mechanism 6 includes a second material feeding device 61 and a feeding tank 62, a feeding stirring assembly 621 is disposed in the feeding tank 62, the second material feeding device 62 is disposed at a feeding end of the feeding tank 62, and a discharging end of the feeding tank 62 is connected to the storage tank 7. After the mixture is transported to the charging tank 62, the additive is thrown into the second dust-free material feeding device 61 by the user or automatic operation, and the additive in powder form completely falls into the charging tank 62 through the second dust-free material feeding device 61 without splashing to all around, thereby ensuring the cleanliness of the surrounding environment.

Specifically, as shown in fig. 4, the second dust-free feeding device 61 includes a second feeding bin 63, a second fan 64, a second dust-removing filter cartridge 65, a second back-blowing device 66 and a second screening mechanism 67, a discharge port of the second feeding bin 63 is communicated with a feed end of the feeding tank 62, the second fan 64, the second dust-removing filter cartridge 65, the second back-blowing device 66 and the second screening mechanism 67 are all disposed in the second feeding bin 63, and the second screening mechanism 67 is located between a discharge port of the second feeding bin 63 and the second dust-removing filter cartridge 65. Taking the manual work as an example, when a user puts the powdery additive into the second feeding bin 63, the additive is sucked into the second feeding bin 63 by the second fan 64, filtered by the second dust-removing filter cylinder 65 and then falls to the second screening mechanism 67, and is subjected to preliminary screening dispersion by the second screening mechanism 67 and then enters the feeding tank 62; after the user has added the additive, the additive attached to the inner wall of the second feeding bin 63 is blown down to fall onto the second screening mechanism 67 by the second blowback device 66, so that the additive is fully utilized.

Preferably, as shown in fig. 4, the second screening mechanism 67 includes a vibrating screen 671 and a vibrating motor 672, the vibrating screen 671 is disposed in the second feeding bin 63, and the vibrating motor 672 is configured to drive the vibrating screen 671 to vibrate. That is, when the additive is dropped on the vibration screen 671, the vibration screen 671 is driven to vibrate by the vibration motor 672, so that the additive is dropped into the feed tank 62 from the meshes of the vibration screen 671, and the preliminary dispersion of the additive is achieved because the apertures of the meshes are small.

Preferably, as shown in fig. 4, the loading opening of the second feeding bin 63 is rotatably provided with a movable door 68, that is, after the additive is added, the user closes the movable door 68 to isolate the inside of the second feeding bin 63 from the outside, so as to prevent external impurities from falling into the second feeding bin 63.

In this embodiment, the filter assemblies 8 are respectively disposed between the premixing tank 3 and the rough grinding mechanism 4, between the rough grinding mechanism 4 and the fine grinding mechanism 5, between the fine grinding mechanism 5 and the feeding mechanism 6, and between the feeding mechanism 6 and the storage tank 7, and each filter assembly 8 includes a power pump 81 and a filter 82, and the power pump 81 and the filter 82 are connected in series. The utility model discloses a power pump 81 realizes the mixture of mixture for the mixture reenters next processing step after filter 82 filtering impurity, thereby has guaranteed the purity of mixture.

As shown in fig. 2, in this embodiment, the first dust-free feeding device 1 includes a first feeding bin 11, a first fan 12, a first dust-removing filter cartridge 13, a first back-blowing device 14, and a first material sieving mechanism 15, a discharge opening of the first feeding bin 11 is communicated with a feed end of the premix tank 3, the first fan 12, the first dust-removing filter cartridge 13, the first back-blowing device 14, and the first material sieving mechanism 15 are all disposed in the first feeding bin 11, and the first material sieving mechanism 15 is located between the discharge opening of the first feeding bin 11 and the first dust-removing filter cartridge 13. The working principle of the first dust-free feeding device 1 is the same as that of the second dust-free feeding device 61, and the description thereof is omitted.

As shown in fig. 6, in the present embodiment, the rough grinding mechanism 4 includes a rough grinding tank 41 and a rough grinding machine 42, the rough grinding tank 41 is connected to the premix tank 3, and the rough grinding machine 42 is connected to the rough grinding tank 41 and the finish grinding mechanism 5, respectively; a plurality of coarse grinding beads with the diameter of 0.55-0.8mm are arranged in the refiner 52. That is, after the mixture mixed by the premix tank 3 is transferred to the rough grinding tank 41, the mixture is collected and buffered in the rough grinding tank 41, and then transferred from the rough grinding tank 41 to the rough grinding machine 42 for rough grinding, thereby reducing the particle size of the mixture and increasing the uniformity of the mixture.

As shown in fig. 7, in the present embodiment, the production apparatus further comprises a valve assembly 9, the refining mechanism 5 comprises a refining tank 51 and the refiner 52, the refining tank 51 is provided with a feed inlet 511, a discharge outlet 512 and a circulation outlet 513, the feed inlet 511 is communicated with the rough grinding mechanism 4, the circulation outlet 513 is communicated with the output end of the refiner 52, and the input end of the refiner 52, the discharge outlet 512 and the feeding mechanism 6 are communicated through the valve assembly 9; a plurality of fine grinding beads with the diameter of 0.18-0.28mm are arranged in the refiner 52. That is, after the mixture is coarsely ground by the coarse grinding machine 42, the mixture is conveyed into the refining tank 51, the valve assembly 9 is in a state of "conducting the refining tank 51 and the refiner 52 and blocking the channels between the refining tank 51, the refiner 52 and the feed tank 62", then the mixture is continuously conveyed between the refining tank 51 and the refiner 52, the mixture is circularly ground by the refining tank 51 and the refiner 52 until the particle size precision of the mixture reaches the requirement, and then the valve assembly 9 switches the state to conduct the channels between the refining tank 51, the refiner 52 and the feed tank 62, so that the mixture can be conveyed into the feed tank 62; the number of times of the refining cycles performed by the refining tank 51 in conjunction with the refiner 52 is set by itself according to the accuracy requirements for the mixture, in a manner conventional in the art and not described in detail herein.

As shown in fig. 1 and 8, in the present embodiment, a filtering mechanism 71 is further disposed between the feeding tank 62 and the storage tank 7; filtering mechanism 71 includes storage pump 72, storage filter 73 and storage de-ironing separator 74, storage pump 72 storage filter 73 with storage de-ironing separator 74 concatenates the back set up in storage tank 7 with between the filling tube 62. Specifically, a control valve 75 is further disposed between the filtering mechanism 71 and the storage tank 7. That is to say, after the additive is added to the mixture after the fine grinding and the mixture is uniformly mixed, the silicon carbon material can be manufactured, and then the silicon carbon material is sequentially filtered and decontaminated by the storage filter 73 and magnetically removed by the storage de-ironing device 74 under the action of the storage pump 72 and then is conveyed into the storage tank 7 for storage, so that the high purity and the good stability of the silicon carbon material in the storage tank 7 are ensured.

The above description is only for the preferred embodiment of the present invention, and the present invention is not limited to the above description, and although the present invention is disclosed in the preferred embodiment, it is not limited to the above description, and any person skilled in the art can make some changes or modifications to equivalent embodiments without departing from the scope of the present invention, but all the technical solutions of the present invention are within the scope of the present invention.

Claims (10)

1. A silicon carbon material apparatus for producing, its characterized in that: the device comprises a premixing tank for dispersing and mixing solid-phase raw materials and liquid-phase raw materials to form a mixture, a first dust-free feeding device for conveying the solid-phase raw materials into the premixing tank, a feeding device for conveying the liquid-phase raw materials into the premixing tank, a coarse grinding mechanism for performing coarse grinding on the mixture, a fine grinding mechanism for performing fine grinding on the mixture after the coarse grinding, a feeding mechanism for mixing the mixture after the fine grinding and additive material distribution to form a silicon-carbon material, and a storage tank for storing the silicon-carbon material.

2. The apparatus for producing silicon carbon material according to claim 1, wherein: the feeding mechanism comprises a second dust-free feeding device and a feeding tank, wherein a feeding stirring assembly is arranged in the feeding tank, the second dust-free feeding device is arranged at the feeding end of the feeding tank, and the discharging end of the feeding tank is connected with the storage tank.

3. The apparatus for producing silicon carbon material according to claim 2, characterized in that: the dustless material device of throwing of second includes that the second throws feed bin, second fan, second dust removal and strains a section of thick bamboo, second blowback device and second sieve material mechanism, the second throw the feed opening of feed bin with the feed end intercommunication of charging tank, the second fan the second dust removal strain a section of thick bamboo the second blowback device set up in the second throws in the feed bin, second sieve material mechanism set up in the second throw the feed opening of feed bin with the second removes dust and strains between the section of thick bamboo.

4. The apparatus for producing silicon carbon material according to claim 3, characterized in that: the second sieve material mechanism includes vibrating screen and vibrating motor, vibrating screen set up in the second throws the feed bin, vibrating motor is used for the drive vibrating screen vibrates.

5. The apparatus for producing silicon carbon material according to claim 3, characterized in that: and a material loading port of the second feeding bin is rotatably provided with a movable door.

6. The apparatus for producing silicon carbon material according to claim 1, wherein: mix jar in advance with between the corase grind mechanism with between the accurate grinding mechanism with between the reinforced mechanism with be provided with filter assembly between the storage tank respectively, filter assembly includes power pump and filter, and power pump and filter concatenate.

7. The apparatus for producing silicon carbon material according to claim 1, wherein: first dustless feeding device includes that the first feed bin of throwing, first fan, first dust removal are strained a section of thick bamboo, a blowback device and first sieve material mechanism, the first feed bin of throwing the feed opening with mix the feed end intercommunication of jar in advance, first fan the first dust removal strain a section of thick bamboo first blowback device with first sieve material mechanism all set up in the first feed bin of throwing, first sieve material mechanism is located the first feed bin the feed opening with between the section of thick bamboo is strained in the first dust removal.

8. The apparatus for producing silicon carbon material according to claim 1, wherein: the rough grinding mechanism comprises a rough grinding tank and a rough grinding machine, the rough grinding tank is connected to the premixing tank, and the rough grinding machine is respectively connected to the rough grinding tank and the fine grinding mechanism; and a plurality of coarse grinding beads with the diameter of 0.55-0.8mm are arranged in the refiner.

9. The apparatus for producing silicon carbon material according to claim 1, wherein: the production device also comprises a valve component, the fine grinding mechanism comprises a fine grinding tank and the fine grinder, the fine grinding tank is provided with a feed inlet, a discharge outlet and a circulation port, the feed inlet is communicated with the coarse grinding mechanism, the circulation port is communicated with the output end of the fine grinder, and the input end of the fine grinder, the discharge outlet and the feeding mechanism are communicated through the valve component;

a plurality of fine grinding beads with the diameter of 0.18-0.28mm are arranged in the refiner.

10. The apparatus for producing silicon carbon material according to claim 1, wherein: the feeding mechanism and still be provided with filtering mechanism between the storage tank, filtering mechanism includes storage pump, storage filter and storage de-ironing separator, the storage pump the storage filter with the storage de-ironing separator concatenates.

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