CN216224761U - Fluorescent pigment production is with rotation type fluidization reducing mechanism - Google Patents

Abstract

The utility model provides a rotary fluidization crushing device for producing fluorescent pigment, which comprises: the pigment block crusher comprises a pigment block crusher, wherein a receiving hopper is arranged on a discharging port of the pigment block crusher and connected to a feeding port of a vacuum feeding machine through a crushed material conveying pipeline, the vacuum feeding machine is mounted on an equipment support, a quantitative discharging valve is arranged on a discharging port of the vacuum feeding machine, a crushing conveying feeding hopper is arranged at the lower end of the quantitative discharging valve and arranged on a feeding port of a jet mill, and the discharging port of the jet mill is connected to a feeding port of a fluorescent pigment trap through a powder conveying pipeline.

Description

Fluorescent pigment production is with rotation type fluidization reducing mechanism

Technical Field

The utility model relates to the technical field of fluorescent pigment production equipment, in particular to a rotary fluidized crushing device for fluorescent pigment production.

Background

Fluorescent pigments are classified into inorganic fluorescent pigments (for example, fluorescent pigments for fluorescent lamps and fluorescent inks for forgery prevention) and organic fluorescent pigments (also called daylight fluorescent pigments), and only substances having specific chemical structures have fluorescent characteristics. These fluorescent colorants inherently have inherent deficiencies in light resistance and solvent resistance. One way to overcome these inherent deficiencies is to fuse them chemically or physically into the framework of the polymeric material and further process them into pigments. The polymer material used for the purpose not only plays a role of a solvent of the fluorescent colorant, but also provides protection for the fluorescent colorant, so that the fluorescent colorant is endowed with better performances such as light resistance, solvent resistance and the like.

Under natural conditions, and under light conditions such as dawn, dusk, fog weather, and projection, fluorescent shine has a visibility that is far superior to conventional shine, can draw attention earlier and faster, holds that attention for a longer period of time, and greatly increases the chances of a person looking back at the second eye, and even the third eye. These features of fluorescent pigments are of increasing commercial interest and are gaining wider commercial application.

However, most of the blocks are crushed by common occlusion in the production process of the fluorescent pigment, so that the crushing efficiency is low, and a large amount of dust is easily generated to cause product waste.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to provide a rotary fluidized crushing device for producing fluorescent pigment, so as to solve the problems in the background technology.

The technical problem solved by the utility model is realized by adopting the following technical scheme: a rotary fluidized pulverizing device for producing fluorescent pigment comprises: a pigment block crusher, wherein a feed opening of the pigment block crusher is provided with a receiving hopper which is connected with a feed opening of a vacuum feeding machine through a crushed material conveying pipeline, the vacuum feeding machine is arranged on the equipment bracket, a discharge port of the vacuum feeding machine is provided with a quantitative discharge valve, the lower end of the quantitative baiting valve is provided with a crushing and conveying feeding hopper which is arranged on a feeding hole of the jet mill, the discharge hole of the jet mill is connected with the feed hole of the fluorescent pigment catcher through a powder conveying pipeline, the fluorescent pigment catcher is fixedly arranged on the equipment bracket, a fluorescent pigment discharge opening is arranged at the lower side of the fluorescent pigment catcher, a discharge valve is arranged on the fluorescent pigment discharge opening, and a negative pressure suction pipe is arranged on the exhaust hole on one side of the fluorescent pigment catcher and is connected with the draught fan.

And a dust removal suction pipe is arranged on one side of the feed inlet of the pigment block crusher and connected to the feed inlet of the fluorescent pigment catcher, and the dust removal suction pipe is arranged on the equipment support.

The quantitative discharging valve is characterized in that a storage bin is arranged on a discharging port of the quantitative discharging valve, the storage bin is fixedly mounted on the equipment support, and the crushing conveying feeding hopper is mounted on a discharging port of the storage bin.

The storage feed bin downside is equipped with the toper and goes down the hopper, and the exit of hopper is equipped with the unloading control valve under the toper, smashes the transport and goes up the hopper and install under the toper on the hopper.

The crushing conveying feeding hopper is arranged on a feeding hole of the horizontal spiral conveyor, a discharging hole of the horizontal spiral conveyor is connected to a feeding hole of the airflow crusher, and the horizontal spiral conveyor is arranged on the equipment support.

Compared with the prior art, the utility model has the beneficial effects that: the utility model can realize the multi-stage and quick crushing of the fluorescent pigment block, does not generate dust while crushing, improves the trapping efficiency of the trap and reduces the product waste.

Drawings

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

Detailed Description

In the description of the present invention, it should be noted that unless otherwise specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning fixed or removable connections or integral connections, mechanical or electrical connections, direct or indirect connections via intermediate media, and communications between two elements.

Example 1

As shown in fig. 1, a rotary fluidized pulverizing apparatus for fluorescent pigment production, comprising: pigment piece breaker 1, be equipped with on the feed opening of pigment piece breaker 1 and connect the hopper, connect the hopper to connect the feed inlet in vacuum material loading machine 3 through crushed aggregates pipeline 2, vacuum material loading machine 3 installs on equipment support 6, be equipped with quantitative baiting valve 4 on the discharge gate of vacuum material loading machine 3, quantitative baiting valve 4 lower extreme is equipped with crushing conveying feeding funnel 8, crushing conveying feeding funnel 8 sets up on the feed inlet of fluid energy mill 10, the discharge gate of fluid energy mill 10 passes through powder pipeline and connects on fluorescent pigment catcher 11's feed inlet, fluorescent pigment catcher 11 is installed and is fixed on equipment support 6, fluorescent pigment catcher 11 downside is equipped with fluorescent pigment discharge gate, is equipped with relief valve 14 on the fluorescent pigment discharge gate, be equipped with negative pressure straw 12 on the exhaust hole of fluorescent pigment catcher 11 one side, the negative pressure suction pipe 12 is connected with an induced draft fan 13. And a dust removal suction pipe is arranged on one side of the feed inlet of the pigment block crusher 1, the dust removal suction pipe is connected to the feed inlet of the fluorescent pigment catcher 11, and the dust removal suction pipe is arranged on the equipment support 6.

Example 2

As shown in fig. 1, a rotary fluidized pulverizing apparatus for fluorescent pigment production, comprising: pigment piece breaker 1, be equipped with on the feed opening of pigment piece breaker 1 and connect the hopper, connect the hopper to connect the feed inlet in vacuum material loading machine 3 through crushed aggregates pipeline 2, vacuum material loading machine 3 installs on equipment support 6, be equipped with quantitative baiting valve 4 on the discharge gate of vacuum material loading machine 3, quantitative baiting valve 4 lower extreme is equipped with crushing conveying feeding funnel 8, crushing conveying feeding funnel 8 sets up on the feed inlet of fluid energy mill 10, the discharge gate of fluid energy mill 10 passes through powder pipeline and connects on fluorescent pigment catcher 11's feed inlet, fluorescent pigment catcher 11 is installed and is fixed on equipment support 6, fluorescent pigment catcher 11 downside is equipped with fluorescent pigment discharge gate, is equipped with relief valve 14 on the fluorescent pigment discharge gate, be equipped with negative pressure straw 12 on the exhaust hole of fluorescent pigment catcher 11 one side, the negative pressure suction pipe 12 is connected with an induced draft fan 13. Be equipped with storage silo 5 on the discharge gate of ration baiting valve 4, storage silo 5 fixed mounting is on equipment support 6, smashes the conveying feeding funnel 8 and installs on storage silo 5's feed opening. The storage bin 5 downside is equipped with the toper hopper down, and the exit of hopper is equipped with unloading control valve 7 under the toper, smashes the delivery feeding fill 8 and installs on the hopper under the toper.

Example 3

As shown in fig. 1, a rotary fluidized pulverizing apparatus for fluorescent pigment production, comprising: pigment piece breaker 1, be equipped with on the feed opening of pigment piece breaker 1 and connect the hopper, connect the hopper to connect the feed inlet in vacuum material loading machine 3 through crushed aggregates pipeline 2, vacuum material loading machine 3 installs on equipment support 6, be equipped with quantitative baiting valve 4 on the discharge gate of vacuum material loading machine 3, quantitative baiting valve 4 lower extreme is equipped with crushing conveying feeding funnel 8, crushing conveying feeding funnel 8 sets up on the feed inlet of fluid energy mill 10, the discharge gate of fluid energy mill 10 passes through powder pipeline and connects on fluorescent pigment catcher 11's feed inlet, fluorescent pigment catcher 11 is installed and is fixed on equipment support 6, fluorescent pigment catcher 11 downside is equipped with fluorescent pigment discharge gate, is equipped with relief valve 14 on the fluorescent pigment discharge gate, be equipped with negative pressure straw 12 on the exhaust hole of fluorescent pigment catcher 11 one side, the negative pressure suction pipe 12 is connected with an induced draft fan 13. The crushing conveying feeding hopper 8 is arranged on a feeding hole of the horizontal spiral conveyer 9, a discharging hole of the horizontal spiral conveyer 9 is connected to a feeding hole of the airflow crusher 10, and the horizontal spiral conveyer 9 is installed on the equipment support 6.

According to the utility model, the receiving hopper is arranged on the feed opening of the pigment block crusher 1 and connected to the feed opening of the vacuum feeding machine 3 through the crushed material conveying pipeline 2, the vacuum feeding machine 3 is arranged on the equipment support 6, the discharge opening of the vacuum feeding machine 3 is provided with the quantitative discharge valve 4, the lower end of the quantitative discharge valve 4 is provided with the crushing conveying feeding hopper 8, the crushing conveying feeding hopper 8 is arranged on the feed opening of the jet mill 10, and the discharge opening of the jet mill 10 is connected to the feed opening of the fluorescent pigment catcher 11 through the powder conveying pipeline, so that the fluorescent pigment blocks can be crushed in multiple stages and rapidly, no dust is generated during crushing, the catching efficiency of the catcher is improved, and the product waste is reduced.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. A rotary fluidized pulverizing device for producing fluorescent pigment comprises: pigment piece breaker (1), its characterized in that: the pigment block crusher is characterized in that a receiving hopper is arranged on a discharging opening of the pigment block crusher (1), the receiving hopper is connected to a feeding opening of a vacuum feeding machine (3) through a crushed material conveying pipeline (2), the vacuum feeding machine (3) is installed on an equipment support (6), a quantitative discharging valve (4) is arranged on a discharging opening of the vacuum feeding machine (3), a crushing conveying feeding hopper (8) is arranged at the lower end of the quantitative discharging valve (4), the crushing conveying feeding hopper (8) is arranged on a feeding opening of an airflow crusher (10), a discharging opening of the airflow crusher (10) is connected to a feeding opening of a fluorescent pigment catcher (11) through a powder conveying pipeline, the fluorescent pigment catcher (11) is installed and fixed on the equipment support (6), a fluorescent pigment discharging opening is arranged on the lower side of the fluorescent pigment catcher (11), and a discharging valve (14) is arranged on the fluorescent pigment discharging opening, the negative pressure suction pipe (12) is arranged on the exhaust hole in one side of the fluorescent pigment catcher (11), and the negative pressure suction pipe (12) is connected to the draught fan (13).

2. The rotary fluidized pulverizing apparatus for fluorescent pigment production as set forth in claim 1, wherein: and a dust removal suction pipe is arranged on one side of the feed inlet of the pigment block crusher (1), the dust removal suction pipe is connected to the feed inlet of the fluorescent pigment catcher (11), and the dust removal suction pipe is installed on the equipment support (6).

3. The rotary fluidized pulverizing apparatus for fluorescent pigment production as set forth in claim 1, wherein: be equipped with storage feed bin (5) on the discharge gate of ration baiting valve (4), storage feed bin (5) fixed mounting is on equipment support (6), smashes and carries feeding funnel (8) to install on the feed opening of storage feed bin (5).

4. The rotary fluidized pulverizing apparatus for fluorescent pigment production as set forth in claim 3, wherein: the storage feed bin (5) downside is equipped with the toper and goes down the hopper, and the exit of hopper is equipped with unloading control valve (7) under the toper, smashes and carries feeding funnel (8) to install under the toper on the hopper.

5. A rotary fluidized pulverizing apparatus for fluorescent pigment production as set forth in any one of claims 1 to 4, characterized in that: the crushing conveying feeding hopper (8) is arranged on a feeding hole of a horizontal spiral conveyor (9), a discharging hole of the horizontal spiral conveyor (9) is connected to a feeding hole of an airflow crusher (10), and the horizontal spiral conveyor (9) is installed on an equipment support (6).

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