KR101063893B1 - Separator between solid material and liquid of waste leachate - Google Patents

Abstract

The present invention is a dehydration liquid solids separator of the food waste treatment apparatus to reduce the content of solids contained in the dehydration liquid by separating the dehydration liquid generated in the process of dehydrating the food waste by the dehydration device again into a liquid component and a solid component It is related to the environmental pollution caused by the dehydration liquid mixed with a large amount of organic material by separating the water and the residue more clearly from the gel dehydration liquid formed by finely dissolving a substance such as starch in water. Solving the problem, it is effective to maximize the treatment efficiency of food waste by performing a solid-liquid separation operation very efficiently.

Water tank, screen drum, vacuum suction means, deposit cutting means, stirring means, vacuum tank, diatomaceous earth

Description

SEALATOR BETWEEN SOLID MATERIAL AND LIQUID OF WASTE LEACHATE}

The present invention relates to a food waste treatment apparatus. More specifically, the dehydration liquid generated during the dehydration process of food waste by the dehydration apparatus is separated into a liquid component and a solid component to determine the content of solids contained in the dehydration liquid. It relates to a dehydration liquid-liquid separator of food waste treatment apparatus to reduce.

Modern society leads abundant material life in accordance with income increase and improvement of life, and the amount of household waste is also produced in proportion, and this waste has a serious impact on environmental pollution.

In particular, most food wastes are organic substances, which are highly perishable. Due to the nature of our food culture, many food wastes are mixed with water, resulting in food and cultural characteristics. These food wastes are the main cause of environmental pollution, especially groundwater pollution. It is a factor.

Since the food waste discharged from homes and restaurants contains a large amount of water, it becomes easy to decay when left for a long time, and a large amount of odor and waste water are generated during the decay of garbage, which damages the water environment when discharged as it is. Incineration will seriously pollute the air.

The first priority for the disposal of food waste is dehydration, that is, the most urgent problem is to remove the moisture contained in the food.In the case of food waste such as starch, it does not dehydrate as soon as the waste is discharged. If dehydration is not easy problem.

Food waste is easily decayed with 80 ~ 85% water content, causing bad smell and sewage, and it is difficult to separate and transport it.In case of landfill treatment, a large amount of leachate flows out and causes secondary environmental pollution such as groundwater pollution. Incineration requires additional use of auxiliary fuel due to lowering of the incineration temperature, which incurs a high cost of incineration and similarly causes secondary environmental pollution.

 As one of methods for solving such problems, food waste is separated into solids, and solids are used as feed, compost, fuel, etc., and the separated water is dumped into the sea or disposed of by purified water.

 The solid-liquid separator currently used is a type in which a screw is installed in a perforated network having a diameter of 2 mm, and the food waste shredded like porridge by the installed screw is sucked into the perforated network and the food waste is compressed as the pitch of the screw decreases gradually. In the perforated network, the small-particle solid material is pulled out of the perforated network, and the remaining solid material is pushed by a screw in the perforated network to separate the solid liquid. This solid-liquid separator requires a large force for pressurizing with a screw, which causes a problem that the perforation and screw wear is very severe.

In addition, high energy costs due to the use of large capacity motors, short replacement cycles due to perforation and screw wear, deterioration of processing capacity due to clogging of dehydration holes, and excessive discharge of solid materials There are many problems such as marine pollution when the solids are dumped to the ocean.

On the other hand, in order to increase the efficiency of solid-liquid separation, food waste may be solid-liquid separated by centrifuge or belt press such as Delcanta, or solid-liquid separated through sedimentation using flocculant. In addition to the difficulty in actual use, there was a problem that when a large amount of flocculant is used, the separated solid material causes a vicious cycle that becomes another industrial waste.

In addition, the solid-liquid separation operation by the above devices takes a lot of time, there is a problem that the efficiency of the treatment is lowered.

In order to solve the above problems, in the present invention, the solids contained in the dehydration liquid of food waste are more completely separated from the water to minimize the environmental pollution caused by the dehydration liquid, and the treatment is performed quickly to maximize the treatment efficiency. It is an object of the present invention to provide a dehydration liquid-liquid separator of a food waste treatment device.

The present invention for achieving the above object is the upper side is open, the shaft fixing bush is installed on both sides of the upper wall, the diatomaceous earth liquid supply pipe and the dehydration liquid supply pipe through the wall is connected to the diatomaceous earth liquid supply tank and the dehydration liquid supply tank, respectively, the bottom A water tank formed in a round cylindrical shape; The lower part is installed in the tank so as to be submerged, and the outer circumferential surface of the tank is formed as a screen net having fine holes, and both side wall surfaces are completely sealed, and the drum central shaft installed at the center of the side wall has both sides of the tank. A screen drum which is rotatably installed in a horizontal direction by a shaft fixing bush, and through which a suction pipe is connected to an external vacuum tank through a central portion of the drum central shaft; Drive means including a sprocket installed at one drum central shaft to rotate the screen drum, and a chain and a driving motor to transmit rotational power thereto; Vacuum suction means for suctioning and discharging internal air and water of the screen drum through the suction pipe; Attachment cutting means is installed to correspond to the length of the screen drum on one side wall upper end of the water tank including a blade for cutting and separating the diatomaceous earth and food waste attachment adsorbed to the screen net outer surface of the screen drum; It is characterized in that the stirring means for stirring to suppress the generation of sediment on the bottom surface of the tank while operating at a predetermined amplitude along the inner bottom of the tank.

In the present invention, the vacuum suction means is provided with an inlet pipe extending to the inner bottom surface of the screen drum to suck and discharge water accumulated in the bottom surface; A vacuum tank configured to temporarily store and separate water and air sucked through the suction pipe; A vacuum pump for sucking and discharging air by a vacuum suction pipe connected through an upper portion of the vacuum tank; It includes a drain pump and a drain tank for discharging the water sucked through the drain pipe connected to the lower portion of the vacuum tank.

In the present invention, the attachment cutting means has a length corresponding to the length of the screen drum, the blade for cutting the attachment attached to the outer peripheral surface of the rotating screen drum; A gap adjusting member for adjusting a gap between the blade and the screen drum; Collecting the attachments cut by the blade, characterized in that consisting of the residue containing a transfer screw to collect and transfer the attachment in one direction.

In the present invention, the gap adjusting member and the blade support is fixed to the blade; A power transmission shaft for transmitting power equally to both ends of the blade support to adjust the spacing; Rack pinion devices respectively installed at both ends of the power transmission shaft to adjust the distance between the blade and the screen drum by converting the same rotational motion into a linear motion by the power transmission shaft; A transmission device that rotates the power transmission shaft and drives the same by linearly moving both ends of the blade support by the rack pinion device to adjust the spacing; After the adjustment by the transmission, the power transmission shaft is rotated by hand, and includes a handle for precisely adjusting the interval.

In the present invention, the stirring means is installed on the inner bottom surface of the tank so that the contents in the tank do not settle on the same axis as the drum central axis of the screen drum is rotatably installed by the stirring blade support to operate at a constant amplitude And a plurality of stirring blades for stirring; A stirring lever integrally formed with the stirring wing support and installed to protrude outward of the water tank; A rod rotatably coupled to an end of the stirring lever and having a length adjusting portion in an intermediate portion thereof; It is fixed to the outer wall of the water tank and includes a cam member for converting the rotational motion of the cam shaft to the reciprocating motion of the rod to reciprocate the rod in the up / down direction.

The present invention as described above is to separate the water and sludge from the gel-like dehydration liquid formed by finely dissolving a substance such as starch in water to be discharged to each of the dehydration liquid mixed with a large amount of organic material It solves the problem of environmental pollution caused by, and performs the solid-liquid separation operation very efficiently has the effect of maximizing the treatment efficiency of food waste.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a process chart showing a processing process of a food waste treatment system to which an embodiment of the present invention is applied, wherein the food waste treatment system carries food waste collected and collected at each restaurant or apartment complex by a transport vehicle 1. After the measurement, the storage hopper (2) is put in, and then the leachate naturally flowing out is collected and stored in a separate leachate storage tank (5), and the food waste from which the leachate is removed is introduced into the crushing sorter (3).

The shredding sorter 3 not only shreds the plastic bag containing the food waste, but also shreds the garbage of a large size finely and then sorts and discharges the debris such as vinyl, and transports only the pure food waste to the dehydration apparatus 4. In this apparatus, it is preferable that each conveying line uses a screw conveyor which is widely used.

The food waste conveyed to the dehydration device (4) is separated into a thin dehydration solution and a dry matter by a mesh mesh of an appropriate size during the dehydration process, and the thin dehydration solution is introduced into the dehydration tank (7) and stored. The good condition by separating and storing by grade according to the condition is sterilized through the steam sterilization treatment tank (8) and then stored in the wet feed storage tank (11) and finally shipped as a wet feed, and the dry matter goes through the screen dehydrator (10). Reduce the moisture content and use it as a dry feed, or by mixing the by-products such as quicklime or sawdust while maintaining the correct ratio by the load cell reactor (6) to produce and recycle organic fertilizer.

On the other hand, the dewatering liquid separated from the dewatering tank (7) into wastewater in poor condition is stored in the wastewater storage tank (12), and separated from the debris and water through the solid-liquid separator (13) as much as possible for easy disposal. It is.

The present invention is to maximize the treatment efficiency by using diatomaceous earth as a device for separating the liquid solids and starch contained in the dehydration liquid treated by the dehydration device (4) of the food waste treatment system by the dehydration liquid It relates to a solid-liquid separator (13) to minimize environmental pollution.

FIG. 2 is a configuration diagram of the device of the embodiment of the present invention, FIG. 3 is a perspective view showing a main configuration of the solid-liquid separator of the embodiment of the present invention, FIG. 4 is a front view of FIG. 3, and FIG. 5 is a side cross-sectional view of FIG. 3.

The present invention is the upper side and the bottom surface 110 is formed of a round cylindrical water tank 100; A screen drum (200) rotatably installed in a horizontal direction within the water tank (100); Driving means for rotating the screen drum 200; Vacuum suction means for suctioning and discharging internal air and water of the screen drum 200; Attachment cutting means for cutting the attachment (600) of the outer surface of the screen net 210 of the screen drum (200); It is composed of a stirring means for stirring to suppress the generation of deposits on the bottom surface 110 in the water tank (100).

The water tank 100 has a bottom surface 110 is formed in a round cylindrical shape, the upper portion is open, the drum center shaft 230 of the screen drum 200 by the shaft fixing bush 120 provided on the upper side wall This is rotatably installed.

On one side wall of the water tank 100, the diatomaceous earth liquid supply pipe 131 and the dehydration liquid supply pipe 141 are connected to the diatomaceous earth liquid supply tank 130 and the dehydration liquid supply tank 140, respectively.

The screen drum 200 is installed so that the lower portion is locked in the interior of the water tank 100, but is formed as a screen net 210 having a fine hole in the outer peripheral surface of the cylinder, both side wall surface 220 is completely sealed .

In addition, the drum central shaft 230 installed at the center of the side wall surface 220 is rotatably installed in the horizontal direction by both shaft fixing bushes 120 of the water tank 100, the drum central shaft 230 The suction pipe 510 is connected to an external vacuum tank 520 through a central portion of the side.

The driving means is composed of a sprocket 260 installed on one drum central shaft 230 to rotate the screen drum 200, and a chain 250 and a driving motor 240 to transmit rotational power thereto.

The vacuum suction means suctions and discharges the air and the water of the screen drum 200 through the suction pipe 510, thereby reducing the internal air pressure of the screen drum 200, thereby removing the screen net 210. Through the suction action through the water is mixed with the debris in the water inside the tank 100 is to be attached to the screen net 210.

The vacuum suction means includes a suction pipe 510 which is installed to extend in the inner bottom portion of the screen drum 200 to suck and discharge water accumulated in the bottom surface; A vacuum tank 520 for temporarily storing and separating water and air sucked through the suction pipe 510; A vacuum pump 500 for sucking and discharging air by a vacuum suction pipe 530 connected through an upper portion of the vacuum tank 520; It comprises a drain pump 540 and a drain tank 550 for discharging the water sucked through the drain pipe 541 connected to the lower portion of the vacuum tank 520.

The attachment cutting means is installed so as to correspond to the length of the screen drum 200 on one side wall upper end of the water tank 100 is adsorbed on the outer surface of the screen net 210 of the screen drum 200 and stuck to the diatomaceous earth The attachment 600 is cut and separated.

The attachment cutting means has a length corresponding to the length of the screen drum 200, the blade 300 for cutting the attachment 600 attached to the outer peripheral surface of the rotating screen drum 200; A gap adjusting member 340 for adjusting the gap between the blade 300 and the screen drum 200; Collecting the attachment 600 is cut by the blade 300, consisting of a dregs 320 including a transfer screw 330 for collecting and transferring the attachment in one direction.

The gap adjusting member is a blade support 310 is fixed to the blade 300; A power transmission shaft 341 which transmits power equally to both ends of the blade support 310 to adjust the spacing; Rack pinion devices respectively installed at both ends of the power transmission shaft 341 to adjust the distance between the blade 300 and the screen drum 200 by converting the same rotational motion by the power transmission shaft 341 to a linear motion ( 342; A transmission device 343 that rotates the power transmission shaft 341 to drive the same by linearly moving both ends of the blade support 310 by the rack pinion device 342 to adjust the spacing; After the adjustment by the transmission device 343, the power transmission shaft 341 is directly rotated by hand, and includes a handle 344 for precisely adjusting the interval.

The stirring means is to stir to suppress the generation of sediment on the bottom surface 110 in the tank 100 while operating at a predetermined interval amplitude along the inner bottom of the water tank (100).

The agitating means has a stirring blade support 410 at both ends on the same axis as the drum central shaft 230 of the screen drum 200 so that the contents of the water tank 100 are not settled on the inner bottom of the water tank 100. A plurality of stirring blades 400 rotatably installed and operated at a constant amplitude to stir; A stirring lever 420 integrally formed with the stirring wing support 410 and protruding to the outside of the water tank 100; A rod 430 rotatably coupled to an end of the stirring lever 420 and having a length adjusting part 431 at an intermediate part thereof; The cam member 440 is fixedly installed on the outer wall of the water tank 100 and converts the rotational movement of the cam shaft 450 into the reciprocating motion of the rod 430 to reciprocate the rod 430 in the up / down direction. It is configured to include.

The embodiment of the present invention configured as described above supplies diatomaceous earth mixed with water in the diatomaceous earth supply tank 130 to the water tank 100 through the diatomaceous earth supply pipe 131, and then rotates the screen drum 200 by the driving means. Diatomaceous earth is adsorbed to and adheres to the screen network 210 of the screen drum 200 by a vacuum suction means.

In addition, when the diatomaceous earth stuck to the screen net 210 by the attachment cutting means is cut to a certain thickness (about 60 ~ 70mm thickness), the screen net 210 is to form a uniform filter portion.

At this time, by adjusting the interval between the blade 300 and the screen net 210 by the gap adjusting member 340 of the attachment cutting means to set the thickness of the diatomaceous earth attached to the outer surface of the screen net 210.

Thus, the food waste dehydration liquid of the dehydration liquid supply tank 140 is supplied to the water tank 100 through the dehydration liquid supply pipe 141 to the water tank 100 in a state where the filter unit is formed by diatomaceous earth on the screen network 210, and the screen drum The vacuum suction means is operated while rotating 200 in one direction.

The lower end of the screen drum 200 immersed in the dehydrating liquid of the water tank 10 is attached to the attachment 600 mixed with food waste and diatomaceous earth of fine specification together with water, the screen drum 200 is rotated continuously While the attachment 600 is raised to be cut by the blade 300 of the attachment cutting means is collected by the dregs 320.

The debris collected in the debris receiver 320 is conveyed and discharged to one side by a transfer screw 330 and is introduced into another process line.

Meanwhile, water and air sucked into the screen drum 200 are moved to the vacuum tank 520 through the suction pipe 510, where water and air are separated, so that water is transferred to the bottom surface of the vacuum tank 520. And the air is discharged to the outside by the vacuum pump 500 through the upper vacuum suction pipe 530.

The water collected in the vacuum tank 520 is collected by the drain pump 540 through the drain pipe 541 to the drain tank 550.

Therefore, the present invention is to minimize the environmental pollution in the treatment of food waste by being easily separated and separated by water and sludge in the gel dehydration liquid that is difficult to separate easily.

The present invention is a device that is required for all food treatment facilities as a technology for minimizing environmental pollution by making it possible to more easily separate the sludge and water of a large amount of dehydration liquid generated in the treatment of food waste, it is industrially applicable It's a very big technology.

1 is a process diagram of a food waste treatment system to which an embodiment of the present invention is applied.

2 is a configuration layout diagram of an embodiment of the present invention.

Figure 3 is a perspective view showing the main portion of the solid-liquid separator of the embodiment of the present invention.

4 is a front view of FIG. 3.

5 is a partial cross-sectional side view of FIG.

* Explanation of symbols for main parts

1: Transport Vehicle 2: Storage Hopper

3: crusher 4: dehydrator

5: Leachate Storage Tank 6: Load Cell Reactor

7: Dewatering tank 8: Steam sterilization tank

9: Cologne dryer 10: Screen dehydrator

11: wet feed reservoir 12: wastewater reservoir

13: solid-liquid separator

100: tank 110: bottom surface

120: bush 130: diatomaceous earth liquid supply tank

131: diatomaceous earth liquid supply pipe 140: dehydration liquid supply tank

141: dehydrating liquid supply pipe 200: screen drum

210: screen network 220: side wall surface

230: drum center shaft 240: drive motor

250: chain 260: sprocket

300: Blade 310: Blade Support

320: residue receiving tray 330: transfer screw

340: gap adjusting member 341: power transmission shaft

342: rack and pinion device 343: electric drive
344: handle 400: stirring blade
410: stirring blade support 420: stirring lever
430: rod 431: length adjuster
440: cam member 450: camshaft
500: vacuum pump 510: suction pipe
520: vacuum tank 530: vacuum suction pipe
540: drain pump 541: drain pipe
550: drain tank 600: attachment

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Claims (5)

The upper side is opened, the shaft fixing bush 120 is installed on both sides of the upper wall, the diatomaceous earth liquid supply pipe 131 and the dehydration liquid supply pipe 141 through the wall, respectively, the diatomaceous earth liquid supply tank 130 and the dehydration liquid supply tank ( It is connected to 140, the bottom surface 110 and the water tank 100 formed in a round cylindrical shape; The lower part is installed in the water tank 100 so as to be submerged, and the outer circumferential surface of the tank is formed as a screen net 210 having a fine hole, and both side wall surfaces 220 are completely sealed, and the side wall surfaces 220 The drum central shaft 230 is installed in the center of the water tank 100 by the two shaft fixing bush 120 of the rotational direction is installed in a horizontal direction, through the central portion of one side of the drum central shaft 230 through the suction pipe ( A screen drum (200) connected to an external vacuum tank (520); Drive means including a sprocket 260 installed at one drum central shaft 230 to rotate the screen drum 200, and a chain 250 and a driving motor 240 to transmit rotational power thereto; A suction tube 510 extending to an inner bottom portion of the screen drum 200 to suck and discharge water accumulated on the bottom surface, and a vacuum tank to temporarily store and separate water and air sucked through the suction tube 510 520, a vacuum pump 500 for sucking and discharging air by the vacuum suction pipe 530 connected through the upper portion of the vacuum tank 520, and a drain pipe 541 connected to the lower portion of the vacuum tank 520. And a drain pump 540 and a drain tank 550 for discharging the water sucked through the vacuum suction unit, and suction the discharge air and the water of the screen drum 200 through the suction pipe 510. and; The diatomaceous earth and food waste attachment 600 which is installed to correspond to the length of the screen drum 200 on one side wall upper end of the tank 100 is adsorbed to the outer surface of the screen network 210 of the screen drum 200. A blade 300 for cutting and separating, and a blade support 310 on which the blade 300 is fixed; A power transmission shaft 341 which transmits power equally to both ends of the blade support 310 to adjust the spacing; Rack pinion devices respectively installed at both ends of the power transmission shaft 341 to adjust the distance between the blade 300 and the screen drum 200 by converting the same rotational motion by the power transmission shaft 341 to a linear motion ( 342; A transmission device 343 that rotates the power transmission shaft 341 to drive the same by linearly moving both ends of the blade support 310 by the rack pinion device 342 to adjust the spacing; After the adjustment by the transmission device 343, the power transmission shaft 341 is rotated by hand directly, and includes a handle 344 for precisely fine-tuning the gap and the blade 300 to the screen drum 200 A gap adjusting member 340 to adjust the gap between the) and the attachment 600 cut by the blade 300, the transfer screw 330 to collect and transport the attachment in one direction Attachment cutting means configured to include a residue receiving 320; Both ends are rotatable by the stirring blade support 410 on the same axis as the drum central shaft 230 of the screen drum 200 so that the contents of the tank 100 do not settle on the inner bottom of the tank 100. A plurality of stirring blades 400 installed and operated with a constant amplitude; A stirring lever 420 integrally formed with the stirring wing support 410 and protruding to the outside of the water tank 100; A rod 430 rotatably coupled to an end of the stirring lever 420 and having a length adjusting part 431 at an intermediate part thereof; The cam member 440 is fixedly installed on the outer wall of the water tank 100 and converts the rotational movement of the cam shaft 450 into the reciprocating motion of the rod 430 to reciprocate the rod 430 in the up / down direction. It includes, food waste treatment, characterized in that consisting of agitation means to stir to suppress the generation of sediment on the bottom surface 110 in the tank 100 while operating at a predetermined amplitude along the inner bottom of the water tank (100) Dehydration solid-liquid separator of the device. delete delete delete delete

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