CN209791726U - Overhead resin recovery device of dust remover - Google Patents

Abstract

Overhead resin recovery unit of dust remover, including the feed inlet, the feed inlet connect the fine powder machine, the fine powder machine be connected with and inhale the material pipe, inhale the other end of material pipe and connect cyclone, cyclone's below be provided with and mix the machine, the top that mixes the machine still be provided with the dust remover, the below of dust remover be provided with first valve and second valve, first valve is located the top of second valve, and first valve and second valve form one between the two and hold the chamber, when the dust remover need not arrange the material, first valve is opened, and the second valve is closed, when the dust remover needs to arrange the material, first valve is closed, and the second valve is opened. The utility model discloses following beneficial effect has: the dust remover is arranged on the top, and can be continuously used through the change of the relative state of the first valve and the second valve, and the powder can be discharged into the mixer for recycling in the using process.

Description

Overhead resin recovery device of dust remover

Technical Field

The utility model belongs to resin reducing mechanism field, concretely relates to dust remover overhead resin recovery unit.

Background

The resin ton bag and the small powder need to be crushed by a series of crushing machines and finally reach the position of the stirrer for stirring.

After the existing pulverizer pulverizes, materials in the pulverizer are connected with a cyclone separator, the cyclone separator is independently arranged on the ground, clean air is discharged into the air after dust is removed by a dust remover, the dust is accumulated in the dust remover, a discharge valve of the dust remover is opened, and after the dust remover is opened, the accumulated dust needs to be manually shoveled out by a shovel and is placed at a position of a stirrer.

The dust remover is independently arranged on the ground and is very troublesome, the discharging valve can be opened for discharging after the machine is stopped, and if the machine is not stopped, the cyclone separator can blow redundant wind into the dust remover, so that dust in the dust remover flies disorderly and cannot play a role in precipitation.

And the operation steps are complicated, the machine is stopped manually, the discharge hole of the dust remover is opened, a shovel is used for shoveling the materials, the dust on the ground is shoveled into the stirring machine, the dust flies disorderly, the body of workers is injured, and a certain amount of raw materials are wasted.

Disclosure of Invention

Not enough to prior art, the utility model provides a dust remover overhead resin recovery unit solves current dust remover and places alone on the ground, needs whole machine shut down the operation, needs artifical shovel material, transports to the opening part of agitator, troublesome poeration, the problem of extravagant raw materials.

The utility model discloses a following technical scheme realizes.

Overhead resin recovery unit of dust remover, including the feed inlet, the feed inlet connect the fine powder machine, the fine powder machine be connected with and inhale the material pipe, inhale the other end of material pipe and connect cyclone, cyclone's below be provided with and mix the machine, the top that mixes the machine still be provided with the dust remover, the below of dust remover be provided with first valve and second valve, first valve is located the top of second valve, and first valve and second valve form one between the two and hold the chamber, when the dust remover need not arrange the material, first valve is opened, and the second valve is closed, when the dust remover needs to arrange the material, first valve is closed, and the second valve is opened. The problem of originally need artifical switch on and off alone, shovel the material alone, the dust draws the effect poor moreover is solved, can practice thrift the human cost, improves production efficiency.

Preferably, an exhaust pipe is arranged between the cyclone separator and the dust remover.

Preferably, the dust remover is externally connected with a fan. The fan is mainly used for driving the material to flow.

Preferably, the dust remover is positioned at one side of the cyclone separator, the shell of the mixer is provided with two through holes, one through hole is connected with the outlet of the valve of the cyclone separator, and the other through hole is connected with the outlets of the first valve and the second valve of the dust remover. Two through holes are arranged on the dust remover, so that the problem of blanking of the dust remover is solved.

Preferably, the opening and closing of the first valve and the second valve are controlled by a PLC program module unit. The PLC program module unit can be arranged in the tablet personal computer and remotely controlled.

Compared with the prior art: the dust remover is arranged on the top, and can be continuously used through the change of the relative state of the first valve and the second valve, and the powder can be discharged into the mixer for recycling in the using process.

Drawings

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

Detailed Description

The top resin recovery device of the dust remover comprises a feed inlet 1, wherein the feed inlet 1 is connected with a fine powder machine 2, the fine powder machine 2 is connected with a material suction pipe 3, the other end of the material suction pipe 3 is connected with a cyclone separator 5, a mixer 6 is arranged below the cyclone separator 5, a dust remover 7 is also arranged above the mixer 6, a first valve 8 and a second valve 9 are arranged below the dust remover 7, the first valve 8 is positioned above the second valve 9, a containing cavity is formed between the first valve 8 and the second valve 9, when the dust remover 7 does not need to discharge materials, the first valve 8 is opened, the second valve 9 is closed, when the dust remover needs to discharge materials, the first valve 8 is closed, the second valve 9 is opened, an exhaust pipe 4 is arranged between the cyclone separator 5 and the dust remover 7, the dust remover 7 is externally connected with a fan 10, the dust remover 7 is positioned at one side of the cyclone separator 5, the shell of the mixer 6 is provided with two through holes, one through hole is connected with the outlet of the valve of the cyclone separator 5, the other through hole is connected with the outlets of the first valve 8 and the second valve 9 of the dust remover 7, and the opening and closing of the first valve 8 and the second valve 9 are controlled by a PLC program module unit.

In the use process, firstly, resin materials and small materials are placed into a feeding hole 1, the materials automatically fall down and fall into a fine powder machine 2 for grinding, a spiral scroll is arranged inside the fine powder machine 2 and can grind the powder materials to enable the powder materials to become fine powder, the fine powder reaches a cyclone separator 5 through a material suction pipe 3 under the action of a fan 10, the cyclone separator 5 is a device for separating solid particles in air flow by utilizing centrifugal force, and the solid particles with larger inertial centrifugal force are thrown to an outer wall surface to be separated by virtue of the rotation motion caused by tangential introduction of the air flow.

Therefore, the powder is separated by the cyclone separator 5, the powder is accumulated in the cyclone separator 5, air and a part of dust flow into the exhaust pipe 4, the other end of the exhaust pipe 4 is connected with the dust remover 7 and continuously enters the dust remover 7 under the action of the fan 10, the dust remover 7 is always in a working state, a first valve 8 and a second valve 9 are arranged below the dust remover 7, the first valve 8 is positioned above the second valve 9, a containing cavity is formed between the first valve 8 and the second valve 9, when the dust remover 7 does not need to discharge materials, the first valve 8 is opened, the second valve 9 is closed, so that the powder is accumulated in the cavity, when the dust remover needs to discharge materials (when the powder in the dust remover needs to be discharged into the mixer 6 at regular time), the first valve 8 is closed, the normal use of the dust remover is not affected after the first valve 8 is closed, and then the second valve 9 is opened, the accumulated powder is poured into the mixer 6.

The process can be realized by manually opening or closing the first valve 8 and the second valve 9 manually, and connecting the first valve 8 and the second valve 9 with a PLC control program module unit through remote control.

The fan 10 is always on, and guides dust to move in one direction, the dust reaches the cyclone separator 5 from the fine powder machine 2 and then reaches the dust remover 7, and finally the materials generated by the cyclone separator 5 and the dust repeatedly absorbed in the dust remover 7 reach the mixer 6 for final stirring and mixing, so that the labor and the energy are saved, and the waste is reduced.

The protection scope of the present invention includes but is not limited to the above embodiments, the protection scope of the present invention is subject to the claims, and any replacement, deformation, and improvement that can be easily conceived by those skilled in the art made by the present technology all fall into the protection scope of the present invention.

Claims (5)

1. A top-mounted resin recovery device of a dust remover comprises a feed inlet (1), wherein the feed inlet (1) is connected with a fine powder machine (2), the fine powder machine (2) is connected with a material suction pipe (3), the other end of the material suction pipe (3) is connected with a cyclone separator (5), a mixer (6) is arranged below the cyclone separator (5), the top of the mixer (6) is also provided with a dust remover (7), the lower part of the dust remover (7) is provided with a first valve (8) and a second valve (9), the first valve (8) is positioned above the second valve (9), a containing cavity is formed between the first valve (8) and the second valve (9), when the dust remover (7) does not need to discharge materials, the first valve (8) is opened, the second valve (9) is closed, when the dust remover needs to discharge materials, the first valve (8) is closed and the second valve (9) is opened.

2. The resin recovery apparatus of claim 1, wherein a gas discharge pipe (4) is provided between the cyclone (5) and the dust collector (7).

3. The resin recycling device of claim 1, wherein the dust catcher (7) is externally connected with a fan (10).

4. The overhead resin recovery device of claim 1, wherein the dust collector (7) is located at one side of the cyclone separator (5), the housing of the mixer (6) is provided with two through holes, one through hole is connected with the valve outlet of the cyclone separator (5), and the other through hole is connected with the first valve (8) and the second valve (9) outlet of the dust collector (7).

5. The resin recycling apparatus of claim 1, wherein the opening and closing of the first valve (8) and the second valve (9) is controlled by a PLC program module unit.