KR101539652B1 - oil manufacturing system for waste - Google Patents

Abstract

The present invention relates to a system for emulsifying waste, which enables waste to be sequentially supplied to an emulsification device by allowing a crushing function to be smoothly performed in the process of transporting waste that is inserted and facilitates the exhaust of emulsified gas by preventing obstruction by forcibly removing foreign substances such as dust, tar and the like attached to an exhaust pipe in the process where the emulsified gas generated in the emulsification device is emitted. The present invention comprises: an emulsification means (100) for allowing waste to be converted into an oil material by heating at a proper temperature while transporting the waste; a waste supply means (200) for transporting and inserting the waste in an entry side of the emulsification means (100); a waste discharge means (300) for discharging a discharged material which comes out after passing through the emulsification process in an exit side of the emulsification means (100) to the outside; and an obstructed material removal means (400) provided to remove foreign substances attached to the inside of a pipe of a gas exhaust passage (430) from which the emulsified gas generated in the emulsification means (100) is discharged.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste oil emulsification system, and more particularly, to a waste oil emulsification system which is capable of simultaneously performing decompression and compression processes when supplying various wastes such as vinyl, rubber, .

In general, waste such as vinyl, rubber, and synthetic resin can be separated and extracted from the emulsified components such as emulsified gas generated by the treatment system by the emulsification system, converted into oil, and recycled as energy, In recent years, an efficient treatment system has been required to meet serious environmental pollution prevention measures.

A Korean Patent No. 10-1005480 entitled " Waste Emulsification Apparatus "has been proposed as an example of a prior art for a waste supply means for transferring wastes to the emulsification means in such an emulsification system.

The waste supply means is provided with an induction conveyor connected to the primary conveying conveyor in the cross direction of the rear end portion and connected to the front portion of the secondary conveying conveyor so that the rear end of the induction conveyor is positioned in the same line on the upper portion of the secondary conveying conveyor And the waste introduced into the induction conveyor is guided to the secondary conveying conveyor to supply the waste to the emulsifying chamber performing the pyrolysis function.

However, in the prior art, when the waste to be introduced is compressed into the compression space by the primary conveying conveyor, the induction conveyor is not operated and is operated when the waste after the compression is conveyed to a certain extent, The waste can not be continuously supplied to the means, and the efficiency of the emulsifying apparatus is decreased due to intermittent or irregular supply.

Conventionally, waste is crushed by a separate crushing device before being input to a feeder, and then it is introduced into a waste feeder of an emulsification system. Therefore, the crushing process and the conveying and compressing process are separated There is a problem that it is carried out by a process.

On the other hand, since the emulsifying components such as the emulsifying gas generated in the process of thermally decomposing the waste supplied by the waste supply device into the emulsifying chamber contain some foreign matter such as dust tar and are discharged to the heat exchanger or gas collecting part, The dust contained in the emulsion gas is gradually adhered to the inner wall of the exhaust pipe, and then the exhaust gas is exhausted smoothly due to the stagnation of the exhaust pipe. In particular, Which is a large factor in preventing the pyrolysis reaction, and has a serious problem in performing the entire process of the emulsification system.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems of the prior art,

It is possible to improve the efficiency of the emulsification system by continuously supplying the waste to the emulsification apparatus after performing the compressing process while performing the function of disintegrating smoothly in the process of transferring the waste to the conveying screw, It is possible to prevent the stagnation due to the function of forcibly removing the foreign materials such as dust and tar adhered to the exhaust pipe during the exhausting of the emulsified gas and the stenotic material so as to facilitate the evacuation of the emulsified gas, A waste water treatment system, and a waste water treatment system.

The characteristic features of the solution for implementing the above-mentioned object will be described as follows.

An emulsifying means for performing a pyrolysis function so as to convert the waste material into an oil material by heating to an appropriate temperature while transferring the waste material; a waste supply means for transferring the waste material to the inlet side of the emulsifying means and inputting the waste material; And a waste discharge means for discharging the waste discharged from the waste discharge system to the outside.

The waste supply means includes:

The support plate is disposed on the base at a predetermined interval so that the transfer screw rotated by the drive means passes through the transfer screw, and the crushing bar is fixed to the support plate at a predetermined interval at an angle to the side of the transfer screw, The drive means is driven in a range of a current resistance value arbitrarily set by the current measuring device and the inverter so that the drive means is driven in a compression conduit formed at the rear end of the conveying crushing means The waste is continuously supplied to the emulsifying means by the conveying conveyor connected to the rear end of the compression pipe in the cross direction while the waste compressive strength is kept constant.

The waste discharging means includes:

And a conveying conveyor connected in an intersecting direction with a discharge compressing conveyor connected to an outlet of the emulsifying means so as to be positioned in the upward direction so that double inlet control of the outside air can be controlled by double compressing function, The driving means allows the conveying conveyor to be operated or stopped according to the current resistance value arbitrarily set by the current measuring device so that the compression strength of the waste in the compression space portion can be kept constant.

And stench material removing means for preventing stenosis by forcibly removing foreign materials such as dust and tar adhering to the exhaust pipe, and stench substances, connected to the respective gas exhaust pipes through which the emulsified gas generated in the emulsifying means is discharged.

The foreign matter removing means includes a gas exhaust path provided with a stirring shaft which is rotated by a driving unit while each exhaust pipe is connected, and a pall ring which is inserted into the gas exhaust path is agitated to filter out foreign matter adhered to the gas exhaust path So that the emulsified gas is smoothly exhausted.

The present invention relates to a method and apparatus for transferring waste while being transported by a conveying screw so that wastes can be continuously introduced into the emulsification apparatus, thereby improving the efficiency of the emulsification system. When the emulsion gas is exhausted through the gas exhaust passage, It is possible to efficiently perform exhausting and extraction of foreign materials such as dust and tar adhered and stenotic materials.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.
2 is a schematic view showing the waste supply means in the present invention
3 is a sectional view taken along the line AA in Fig. 2
Fig. 4 is a schematic view showing the waste discharging means in the present invention
5 is a schematic view showing the foreign substance removing means in the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1,

An emulsifying means (100) for converting the waste material into an oil material by heating the waste material to an appropriate temperature while transporting the waste material through a pyrolysis furnace formed in a zigzag pattern;

A waste supply means 200 for transferring the waste to the inlet side of the emulsification means 100,

And a waste discharging means 300 for discharging the discharged material through the emulsification process to the outlet of the emulsifying means 100.

In addition, since the emulsified gas generated in the emulsification means 100 is discharged to the heat exchanger 500 or the like, dust and tar adhering to the inside of the exhaust pipe are prevented from being stuck by forcible removal, Removing means (400).

As shown in Figures 2 and 3, the waste supply means 200,

A supporting plate 214 fitted to the shaft of the conveying screw 213 which rotates by the driving means 212 is provided at a predetermined interval on the base and a crushing bar 215 is provided around the conveying screw 213, And a conveying crushing unit 210 for performing a crushing function in the course of conveying the waste introduced through the inlet 211 so as to be fixed to the support plate 214 continuously at a predetermined interval with a predetermined angle to one side.

 A compression pipe 220 coupled to a downstream end of the conveying crushing unit 210 to control the inflow of outside air by densely compressing the crushed waste,

And a conveying conveyor 230 connected to the rear end of the compression pipe 220 in a crossing direction and supplying waste to the emulsifying unit 100 by a conveying screw 232 rotated by a driving unit 231.

The motor 212 of the driving unit 212 is connected to the current measuring unit 240 and the inverter 250 through a chain, So that the waste can be continuously supplied to the compression pipe 220 while maintaining the compression strength of the waste at a constant level.

The crushing bars 215 are installed to be fixed to the support plates 214 so as to be continuously arranged at regular intervals and inclined to have a predetermined angle in the rotation direction around the rotation radius of the conveying screw 30, 213 are rotated while being transferred between the inner edge of the crush bar 215 and the wing of the feed screw 213 in the process of transporting the waste.

The inside edge of the crush bar 215 preferably has an appropriate angle to facilitate the cutting and crushing function.

When waste such as vinyl, rubber, or synthetic resin is fed through the inlet 211, the waste supply means 200 is continuously installed around the conveying screw 213 in the course of conveyance by the rotating conveying screw 213 The waste is compressed between the crushing bar 215 and the conveying screw 213 and the process of being guided inward while being cut or broken by the wings of the conveying screw 213 and the corners of the crushing bar 215 And these operations are continuously performed until the discharge from each of the crushing bars 215 continuously installed around the conveying screw 213 to perform the crushing function.

The waste conveyed while being crushed is collected in a compression pipe (220) connected to the rear end of the conveying crushing unit (210), and is densely packed and compressed so as to control the inflow of outside air. The current measuring device 240 and the inverter 250, and the waste can be continuously supplied to the compression pipe 220 while maintaining the waste compression strength constant.

That is, when the current resistance value is below the set range by the current measuring device 240 provided in the motor of the driving means 212 in the process of the waste being compressed in the compression pipe 220, the inverter 250 sets the driving speed And the driving speed is lowered when the current resistance value is above the set range, so that the supply is continuously performed while maintaining the compressive strength of the waste.

The waste generated while maintaining the compressive strength in the compression pipe 220 is continuously introduced into the pyrolysis furnace of the emulsifying means 100 by the conveying conveyor 230 connected to the compression pipe 220 to perform the pyrolysis function , And the finely pulverized waste by the crushing and conveying means during the pyrolysis process increases the reaction rate, thereby enhancing the pyrolysis function.

As shown in FIG. 4, the waste discharging means 300 includes:

A discharge compression conveyor 310 having a compression space 313 connected to the discharge port 120 of the emulsification means 100 and connected to the discharge compression conveyor 310 in an intersecting direction, And a conveying conveyor 320 for discharging the waste.

The discharge compressing conveyor 310 and the conveying conveyor 320 are provided with conveying screws 312 and 322 rotated by driving means 311 and 321. The driving means 311 is provided with a current measuring device 330, So that the compressive strength of the waste in the compression space 313 can be kept constant.

This is because the waste discharged from the emulsification means 100 is conveyed by the discharge compressing conveyor 310 to the conveying conveyor 320 for discharging the waste. In this process, the compression space formed in the rear portion of the discharge compressing conveyor 310 When the current resistance value falls within the range by the current measuring device 330 provided in the driving means 311 in the course of the compression of the waste material in the portion 311, the compression strength is decreased in the compression space portion 311 The operation of the conveying conveyor 320 is stopped until the current resistance value is within the range and the waste is sent to the compression space to reach the set compressive strength. It is done repeatedly.

In this way, the conveying conveyor 320 is operated in accordance with the compression state, while the waste conveyed to the conveying conveyor 320 ), It is possible to double control the inflow of outside air by the double compression function.

As shown in FIG. 5, the stenotic material removing means 400 includes:

And a gas exhaust path 430 in which each exhaust pipe 130 connected to the emulsification means 100 is connected and a stirring shaft 410 rotated by the driving unit 420 is installed. And the pall ring 440 is agitated to filter the dust or tar adhering to the exhaust path 430 so that the emulsified gas is smoothly exhausted.

The stirring shaft 410 is formed with a conveying screw 411 for conveying the poling 440 upward and a stirring paddle 412 is formed at an upper portion of the conveying shaft 411 so as to raise the poling up, And performs the circulation function.

An inspection port 450 may be formed on both sides of the gas exhaust path 430 so as to supply or replace the polling 440, respectively.

A net member 460 is formed between each exhaust pipe 130 connected to the gas exhaust path 430 so that the poling 440 does not come off.

In this case, the inside of the gas exhaust passage 430 is filled with polling, which is a type of packing, and is continuously stirred to perform filtering by zooming, thereby discharging only a high-quality gas and preventing clogging with foreign substances such as adhered dust or tar .

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the appended claims. And such changes are within the scope of the claims.

100: Emulsification means 200: Waste supply means
211: Input port 213: Feed screw
214: support plate 215: crushing bar
220: compression duct 230: conveying conveyor
300: waste discharge means 310: discharge compression conveyor
320: conveying conveyor 400: means for removing stenotic material
410: stirring shaft 411: feed screw
412: stirring paddle 430: gas exhausted
440: Polling 450: Checkpoint
460; Network member

Claims (3)

delete (100) for heating the waste material to an appropriate temperature to transfer the waste material to an oil material, a waste supply means (200) for transferring the waste material to the inlet side of the emulsification means (100) (300) for discharging an emission from an emulsification process to an outlet of a waste water treatment system (100), comprising:
And a stench substance removing means (400) for removing foreign matter and stenosis adhering to the inside of the gas exhaust path (430) through which the emulsified gas generated from the emulsifying means (100) is discharged,
The stenotic material removing means (400)
The poles 440 are charged in the gas exhaust path 430 in which the exhaust pipes 130 of the emulsification means 100 are connected and the stirring shaft 410 is installed so as to be rotated by the driving unit 420, Wherein the filtering operation of filtering the foreign material adhered to the gas exhaust path (430) is performed by stirring the poling (440). 3. The apparatus of claim 2, wherein the stirring shaft (410) is formed with a conveying screw (411) for conveying the poling (440) upward and a stirring paddle (412) 440) is raised to perform the stirring function at the same time.

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