KR101274039B1 - Oil manufacturing system for waste - Google Patents

Abstract

PURPOSE: A waste emulsifier system is provided to consecutively supply waste to the emulsifier system while performing a process of transferring the waste to a transfer screw as well as a smooth crushing function. CONSTITUTION: An emulsification means(100) converts waste into oil materials by heating up the waste with the optimal temperature while transferring. A waste supply means(200) transfers the waste to an inlet side of the emulsification means, and injects. A waste discharging means(300) ejects the waste discharged from an outlet of the emulsification means after an emulsification process to outside. A transfer crushing means comprises a transfer screw which is installed to rotate with a driving means(212). The driving means is driven with a current measurement device(240) and an inverter(250) in the arbitrarily set electric current resistance value range.

Description

Oil manufacturing system for waste

The present invention relates to a waste emulsification system, and more specifically, waste emulsification system for smoothly discharging emulsified gas while simultaneously performing a crushing and compression process when supplying various wastes such as vinyl, rubber, and synthetic resin to an emulsifying device. It is about.

In general, wastes such as vinyl, rubber, and synthetic resins are generated by emulsifying system to emulsify gas and converted into oil so that they can be recycled as energy. Looking at the configuration of the patent 10-1005480 "waste emulsifying device" as an example prior art for,

As shown in Figure 1, the waste supply means is provided with an induction conveyor connected to the rear end in the cross direction in the primary conveying conveyor, the rear end of the induction conveyor is connected to the front part of the secondary conveying conveyor, but the secondary conveying conveyor It is configured to supply wastes to the emulsification chamber by inducing wastes flowing into the induction conveyor to a secondary transport conveyor by connecting them inclinedly while being located on the same line as the upper part of the.

However, the prior art emulsified by the secondary conveying conveyor as the inlet conveyor does not work when the input waste is compressed into the compressed space by the primary conveying conveyor, but when the waste is discharged after being compressed to some extent. When it is supplied to Sudan, the waste is not continuously supplied, and it is supplied intermittently or irregularly, which reduces the efficiency of the emulsifying device, which is a factor that deteriorates economic efficiency.
In more detail, the wastes input into the emulsifying system are transported without crushing while various types such as vinyl or rubber are mixed in various ways such as long or wide, compressed without compression and compressed into the compressed space. When it is full, the compressed waste from the compressed space is discharged to the induction conveyor, and the escaped portion is separated and transferred by rotation of the transfer screw of the induction conveyor.
In this process, the wastes of the parts exited by the induction conveyor are various types of vinyl, etc., and are compressed in an entangled state. As some of the waste in the compressed space is pulled out together, the uncompressed space is generated again in the compressed space and waste is not discharged to the induction conveyor until this part is compressed. Not only is the supply of waste generated, there is a problem that the compression function can be partially released in the compression space.

In addition, in the prior art, a separate crushing device is provided before the waste is put into the supply device, and the waste is first crushed and then fed into the waste supply device of the emulsification system. There is a problem of performing the compression process as a separation process.

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The present invention has been proposed to solve the above-described conventional problems,

In order to improve the efficiency of the emulsifying system by providing a continuous supply to the emulsifying device after passing through the compression process while performing a smooth crushing function in the process of transferring the input waste to the conveying screw, an emulsifying system for waste is provided to improve the efficiency of the emulsifying system. .

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The present invention is as follows when the characteristic configuration of the solution for implementing the above object is described.

Emulsification means that converts to oily material by heating to an appropriate temperature while transporting the waste, waste supply means for transferring wastes to the inlet side of the emulsifying means, and discharges through an emulsification process at the outlet side of the emulsifying means. As a waste emulsification system constituting a waste discharge means for discharging the outside,

The waste supply means, a support plate is installed on the base at a predetermined interval so that the transfer screw rotated by the driving means is penetrated, and the crushing bar is inclined to either side around the transfer screw to be fixed to the support plate continuously. And a transfer crushing means for performing a crushing function in the process of transferring the waste input through the input port, and the driving means is operated within a range of a current resistance value arbitrarily set by a current meter and an inverter to transfer crushing means. It is characterized in that it is configured to continuously supply waste to the emulsifying means by a transfer conveyor connected in a cross direction to the rear end of the compressed pipe while maintaining the constant compressive strength of the waste in the compressed pipe formed at the rear end.

The waste discharging means is provided with a discharge conveyor connected to the discharge port of the emulsifying means and a transfer conveyor connected in a cross direction in an upward direction, so that the inflow of external air can be dually controlled by a dual compression function. , The driving means of the discharge compression conveyor is characterized in that the conveying conveyor is operated or stopped according to the current resistance value arbitrarily set by the current meter so that the compressive strength of the waste can be kept constant in the compression space.

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The present invention has the effect of improving the efficiency of the emulsification system by being transported while crushing the waste in the process of being transported by the transfer screw to continuously input the waste into the emulsifying device.

In addition, the present invention has the effect of reducing the installation space area together with the overall facility structure of the waste supply device as the waste transport and crushing are performed in parallel.

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1 is a block diagram of a conventional waste supply device
Figure 2 is a plan view showing the overall configuration of the present invention
Figure 3 is a block diagram showing a waste supply means in the present invention
Figure 4 is a cross-sectional view taken along line AA of Figure 3
Figure 5 is a view showing the configuration of the waste discharge means in the present invention

If described in detail by the accompanying drawings, preferred embodiments of the present invention.

2, the waste emulsification system of the present invention,

Emulsification means 100 to transfer the waste by a pyrolysis furnace formed in a zigzag form to heat to an appropriate temperature to be converted into an oil material, and waste supply means for transferring waste into the inlet side of the emulsifying means 100 It consists of 200 and a waste discharging means 300 for discharging the discharge from the emulsifying means 100 through the emulsification process to the outside.
In addition, in the process of emulsifying gas generated from the emulsifying means 100 discharged to the heat exchanger 500, auger means to prevent constriction by forcibly removing foreign substances such as dust and tar adhering to the inside of the exhaust pipe. 400) can be further configured.

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3 and 4, the waste supply means 200,

It has a plurality of support plates 214 installed at regular intervals on the base, and is provided with a transfer screw 213 installed to be rotated by the driving means 212 through each support plate 214 and penetrated therein, and the transfer screw A plurality of crushing bars 215 installed on the support plate 214 to be continuously positioned with a certain interval inclined to either side of the perimeter of the 213 is provided, so that wastes input through the inlet 211 are transferred. Equipped with a transfer crushing means 210 to perform the crushing function by the crushing bar 215,
Compressed pipe 220 is connected to the rear end of the transfer crushing means 210 to control the inflow of external air by compressing the crushed waste into a dense,

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It is connected to the rear end of the compression pipe 220 in a cross direction and consists of a conveying conveyor 230 that supplies waste to the emulsifying means 100 by a conveying screw 232 rotated by a driving means 231.

The drive means 212 is to be chained to the motor and the sprockets accumulated in the transfer screw 213, so that power transmission is performed, and the motor of the drive means 212 is connected to the current meter 240 and the inverter 250. It is desirable to be able to continuously supply the waste while maintaining the compressive strength of the waste to the compression pipe 220 because it is driven within the range of the current resistance value set arbitrarily.

The crushing bar 215 is installed so as to be fixed to the support plate 214 so as to be continuously positioned at a certain interval in a circumferential direction around the circumference of the conveying screw 213, thereby transferring waste through rotation of the conveying screw 213 It is intended to perform a crushing operation while being caught between the edge of the bar 215 and the wings of the transfer screw 213.

The waste supply means 200 is a transport screw 213 that rotates clockwise when it is mixed and mixed with various types of waste such as long or wide, such as vinyl, rubber, synthetic resin, etc. through the inlet 211. ) In the process of transferring by the crushing bar 215 continuously installed around the circumference of the conveying screw 213 and the crushing bar between the conveying screw 213 and the waste due to the shape of the gorge, the wings and crushing bar of the conveying screw 213 It is cut or shredded by each corner of 215, and the crushed waste is shaped into irregular pieces having a certain amount of area or entangled with each other, so that the volume of a size that does not escape between each crushing bar 215 is formed. As well as being rotated in the clockwise direction, which is the opposite direction, not the direction in which the rotation direction of the conveyance screw 213 falls out in the space direction between each crushing bar 215, it is crushed into irregular pieces and swept together in the conveying direction. This process is continuously performed and this action is continuously performed until it is supplied to the compression pipe 220 to perform the crushing function.

The waste that is transported while being crushed in this way is continuously compressed into the compression pipe 220 connected to the rear end of the conveying crushing means 210 by the conveying screw 213 so that it is compacted and compressed to control the inflow of external air. To be performed, it is driven within the current resistance value range arbitrarily set by the current meter 240 and the inverter 250 provided in the driving means 212, while maintaining the compressive strength of the waste in the compression pipe 220 while maintaining the waste. Will be able to supply continuously.

That is, when the current resistance value is below the set range by the current meter 240 provided in the motor of the driving means 212 in the process of compressing the waste in the compression pipe 220, the driving speed is increased by the inverter 250. If the current resistance value is increased and exceeds the set range, the operation is performed by lowering the driving speed, while the compressed strength of the waste is maintained, while being transferred to the transfer conveyor 230, the transfer is performed.
As the waste is transferred to the compression pipe 220, the waste is compressed as it is compressed into the compression pipe 220 while being continuously crushed to an appropriate size by each crushing bar 215 continuously installed around the transfer screw 213. Since this is compressed to a certain uniform size, only the part of the waste exiting the transport conveyor 230 is separated and transported by the transport screw of the transport conveyor 230 so that the waste in the compression pipeline 220 does not exit. Because the compressed waste is continuously supplied to the transfer screw, it is continuously supplied.
When the waste of the part exiting from the conveying conveyor 230 is separated by the conveying screw of the conveying conveyor 230, even the part entangled with the waste in the compression conduit 220 is extremely damaged due to the crushing of the waste. It can be partially discharged only in a limited manner, but it can be continuously discharged without affecting the normal discharge from the compression pipe 220.

The waste produced while the compressive strength is maintained in the compression conduit 220 is continuously introduced into the pyrolysis furnace of the emulsifying means 100 by the transfer conveyor 230 connected to the compression conduit 220 to perform the pyrolysis function. In the process of thermal decomposition, wastes finely crushed by the crushing conveying means increase the reaction rate to increase the thermal decomposition function.

5, the waste discharge means 300,

While connected to the outlet 120 of the emulsifying means 100, the discharge compression conveyor 310 having a compression space portion 313 at the rear, and connected to the discharge compression conveyor 310 in a cross direction so as to be positioned upward. Equipped with a transport conveyor 320 to discharge the waste.

The discharge compression conveyor 310 and the transfer conveyor 320 are provided with transfer screws 312 and 322 rotated by drive means 311 and 321, and the drive means 311 is provided with a current meter 330 to be arbitrarily set. It is made to operate within one current resistance value range so that the compressive strength of the waste is kept constant in the compression space portion 313.

This is the waste discharged from the emulsifying means 100 is transported by the discharge compression conveyor 310 is sent to the transfer conveyor 320 to discharge the waste, in this process the compression space formed in the rear portion of the discharge compression conveyor 310 When the current resistance value falls into the range by the current meter 330 provided in the driving means 311 in the process of compression forming while the waste is collected in the unit 311, the compressive strength is reduced in the compression space unit 311. In this case, the operation of the transport conveyor 320 is stopped until the current resistance value is within the range, and the waste is sent to the compression space unit to reach the set compression strength, and the transport conveyor 320 is operated again.

In this way, the transport conveyor 320 is moved up and down repeatedly, and the waste is accumulated in the lower part as it is transported and discharged upward. Since it has a compression function, it is possible to dually control the intake of external air through a dual compression function.

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The present invention is not limited to the specific preferred embodiments described above, and various modifications can be made to any person skilled in the art to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Of course, such changes are within the scope of the claims.

100: emulsifying means 200: waste supply means
211: inlet 213: transfer screw
214: support plate 215: shredding bar
220: compression pipe 230: transfer conveyor
300: waste discharge means 310: discharge compression conveyor
320: transfer conveyor

Claims (4)

An emulsifying means 100 that is converted to an oily substance by heating to an appropriate temperature while transferring the waste, and a waste supply means 200 for transferring and inputting waste to the inlet side of the emulsifying means 100, and the emulsifying means Emulsification system consisting of a waste discharge means (300) for discharging the discharge through the emulsification process to the outside of the outlet side (100),
The waste supply means 200,
It is provided with a plurality of support plates 214 installed at regular intervals on the base, and is provided with a transfer screw 213 installed to be rotated by the driving means 212 through each support plate 214, and the transfer screw A plurality of crushing bars 215 installed on the support plate 214 to be continuously positioned with a certain interval inclined to either side of the perimeter of the 213 is provided, so that wastes input through the inlet 211 are transferred. Equipped with a transfer crushing means 210 to perform the crushing function by the crushing bar 215,
The driving means 212 is driven within the current resistance value range arbitrarily set by the current meter 240 and the inverter 250 to compress waste into the compression pipe 220 formed at the rear end of the transfer crushing means 210. A waste emulsification system characterized in that it is configured to continuously supply waste to the emulsifying means 100 by a transport conveyor 230 connected in the cross direction to the rear end of the compression pipe 220 while maintaining a constant strength. According to claim 1, The waste discharging means 300,
The discharge compression conveyor 310 connected to the discharge port 120 of the emulsifying means 100 and the transfer conveyor 320 connected in the cross direction are provided to be located in an upward direction, so that the introduction of external air is doubled by the double compression function. To be able to control it,
Equipped with a current meter 330 in the driving means of the discharge compression conveyor 310 to allow the transport conveyor 230 to operate or stop according to the current resistance value set arbitrarily to compress the waste compressive strength in the compression space part 311. Waste emulsification system characterized in that it can be maintained. delete delete

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