KR20120001295A - Food waste processing hopper - Google Patents

Abstract

PURPOSE: A hopper for disposing food waste is provided to prevent the leakage of bad odor to the outside by sealing a hopper main body while air is circulated using an air circulating duct. CONSTITUTION: A hopper for disposing food waste(100) includes a hopper main body(110), a transferring screw(120), a draining pipe(160), and an impurity eliminating part(170). An air circulating duct(150) is combined with one side of the hopper main body. The air circulating duct circulates air into the hopper main body. A hatch(111) in which food waste is introduced is arranged at the upper region of the hopper main body. An outlet(113) discharging leachate from the food waste is formed at one lower region of the hopper main body. The transferring screw is combined with the lower region of the hopper main body. The outlet is formed at the draining pipe. The impurity eliminating part selectively opens and closes the outlet.

Description

[0001] FOOD WASTE PROCESSING HOPPER [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hopper for treating food waste, and more particularly, to a hopper for treating food waste which can prevent odors from being generated during a food waste process.

The food waste disposal hopper is a device for temporarily storing food waste collected by the food waste collection vehicle before it is transferred to the crushing separator.

The hopper for food garbage disposal is improved in the direction of reducing the water contained in the food waste stored therein to shorten the post treatment time and suppress the destruction of the food capsule, thereby lowering the turbidity of the leachate.

In this regard, Korean Patent Application No. 10-2005-0046896 discloses a hopper for treating garbage, which reduces the water content and improves the turbidity of the leachate by dewatering the food waste by a screw conveyor.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the structure of a conventional food waste disposal hopper disclosed in the above publication. As shown in the drawing, the conventional food waste disposal hopper is rotated in the forward and reverse directions by the screw conveyor 13 to dehydrate water inside the food waste.

However, the conventional food waste disposal hopper has a problem in that the conveyed food waste can not be properly conveyed because the leachate is concentrated inside the food storage tank, and the screw conveyor 13 can not move smoothly.

In addition, since the screw conveyor 13 is rotated while being inserted through the inside and outside of the hopper, the hopper is not completely sealed. Therefore, there is a problem that the odor generated by the food waste leaks to the outside of the hopper.

Further, there has been a problem that the mounting area of the hopper is increased because there is a limit in the degree of inclination in the conventional screw conveyor.

SUMMARY OF THE INVENTION An object of the present invention is to provide a hopper for treating food waste which is capable of blocking odor generation by sealing the hopper.

It is another object of the present invention to provide a hopper for treating food waste, which prevents clogging of a drain port for discharging the extracted water from the inside to the outside of the hopper, thereby discharging drainage water smoothly.

It is still another object of the present invention to provide a hopper for food waste disposal capable of separating food waste and water by circulating outside air in the hopper and discharging the extracted food waste.

According to an aspect of the present invention, there is provided a hopper for treating food waste. The hopper for treating food garbage according to the present invention includes a hatch for introducing food waste into an upper area and a discharge port for discharging leachate discharged from food waste to the outside at one side of a lower area, A hopper main body having a hopper body; A transfer screw coupled to the lower region of the hopper main body to maintain the airtight state of the hopper main body and to mix and transfer the food waste introduced from the hatch; A drain pipe coupled to the discharge port and having a drain port for discharging the leachate introduced into the discharge port to the outside; And a foreign matter removing unit provided on the drainage port side by a buoyancy of the leachate so as to be movable upward and downward to selectively open and close the drainage opening.

According to an embodiment of the present invention, the foreign matter removing unit includes: a floater that is vertically moved by buoyancy of leachate and opens and closes the drain hole; A rotating shaft extending to a lower region of the floater; And a rotary fan coupled to an end region of the rotary shaft and rotated by a falling pressure of the leachate through the drain hole.

According to one embodiment, the hopper further includes an air circulation duct, one end of which is coupled to the upper region of the hopper body and the other end of which is coupled to the lower region of the hop body, At least one blowing fan for forming an air flow for forced circulation is provided.

According to one embodiment, the bottom surface of the hopper body is inclined so that the height of the drain port side is low, and the leached water separated from the food wastes by the rotation of the feed screw is moved to the outlet port.

The hopper for treating food garbage according to the present invention can prevent the odor from leaking to the outside because the air is circulated by the air circulation duct in a state where the hopper main body is hermetically closed.

Further, since the hopper body is hermetically sealed, the food waste can be prevented from overflowing to the outside of the hopper body.

In addition, a drainage unit for selectively opening and closing the drainage port by buoyancy of the leached water is provided in the drainage port, so that the drainage port is prevented from being clogged by the food waste, thereby allowing the drainage water to be smoothly discharged.

In addition, since the food waste and the leachate are separated by the external air supplied by the air circulation duct, the food waste is dewatered, so that the inclination of the feed screw can be reduced and the size of the hopper body can be reduced.

1 is a schematic view schematically showing a structure of a conventional hopper for treating garbage,
2 is a schematic view schematically showing the structure of a hopper for treating garbage according to the present invention,
FIGS. 3A and 3B are views illustrating an example of a drainage process of the hopper for treating garbage according to the present invention.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

2 is a schematic view schematically showing the configuration of a hopper 100 for treating food waste according to the present invention.

The hopper 100 for treating food garbage according to the present invention includes a hopper body 110 having a hermetically sealed structure for accommodating food waste and a feed screw 120 installed inside the hopper body 110 for mixing food waste, An air circulation duct 150 coupled to one side of the hopper main body 110 for circulating air into the hopper main body 110 and a water pipe for guiding water taken out from the hopper main body 110 to the waste water pipe 160).

The hopper body 110 is provided to have a volume such that food waste can be received. A hatch 111 is provided in the ceiling of the hopper main body 110 so as to open and close the hatch 111 into which food waste collected by the vehicle is introduced. In the lower region of the hopper main body 110, an outlet 113 for discharging the extracted water to the outside is connected to the drain pipe 160.

The hopper main body 110 has an air inlet 115 for introducing outside air into the inside thereof and an air outlet 117 for discharging air circulated inside the hopper main body 110 to the outside through the air inlet 115 Respectively.

Here, the hopper body 110 is provided so as to have a closed structure in the entire area. For this purpose, a sealing member (not shown) may be coupled around the hatch 111, the outlet 113, the air outlet 117, and the air inlet 115 so that airtightness can be maintained.

The bottom surface of the hopper body 110 is formed to be inclined at a predetermined angle so that the leachate generated from the food waste can flow by the rotation of the feed screw 120. The bottom surface may be inclined so that the height of the bottom of the outlet 113 at which the leachate is discharged is lowered, so that the leachate can be drained naturally through the outlet 113.

The feed screw 120 is installed to pass through the hopper body 110, mixes the food waste, and discharges the mixed food waste to the outside. The feed screw 120 is rotatable in the forward and reverse directions by an external drive motor (not shown). The conveying screw 120 mixes the food wastes with the food wastes by reverse rotation, and dehydrates the moisture contained in the food wastes.

When the moisture of the food waste is dehydrated and air-dried and then dried, the feed screw 120 rotates in the forward direction to transport the food waste to the outside. The food waste is conveyed upward by the conveying screw 120 and moves to the outside of the hopper main body 110. The food waste moved to the outside of the hopper main body 110 is moved toward the crushing sorter (not shown).

Here, the both end regions where the feed screw 120 is coupled to the hopper body 110 are combined so as to maintain a hermetic state.

(I wonder how the surface of the hopper body is sealed when the food waste is transported to the outside by the feed screw. I wonder how the pump type mixes food waste and returns it)

On the upper surface of the hopper main body 110, a microorganism storage tank 130 and a magnetic separator 140 are provided. The microorganism storage tank 130 stores microorganisms for promoting decomposition of the food waste at the same time as drying. The magnetic separator 140 is suspended from the ceiling of the hopper main body 110 to select a magnetic material contained in the food waste.

The air circulation duct 150 is coupled to one side of the hopper body 110 so that air circulates through the hopper body 110 and is aerated to the food waste. The air circulating duct 150 forcibly supplies air into the hopper body 110 to separate the food waste and water and dry the food waste.

Both ends of the air circulation duct 150 are connected to the air inlet 115 and the air outlet 117 of the hopper body 110, respectively. The joint area of the air circulation duct 150 with the air inlet 115 and the air outlet 117 is sealed by a sealing member or the like so that the hopper body 110 is kept in a hermetic state. As a result, the odor in the hopper body 110 is not leaked to the outside.

On the surface of the air circulation duct 150, an external air inflow hole 153 for introducing outside air into the inside is formed.

Meanwhile, at least one blowing fan 151 for forcibly blowing air is provided inside the air circulation duct 150. The air blowing fan 151 forcibly conveys the air introduced into the air circulation duct 150 through the external air inflow hole 153 to supply high pressure air into the hopper body 110. The high pressure air generated by the blowing fan 151 flows into the lower portion of the hopper main body 110 through the air inlet 115 communicated with the drain pipe 113 and is aerated to the food waste.

Air aeration in food waste generates fine bubbles inside food waste. Air collides with the food garbage and air bubbles are generated on the collision surface, whereby the food garbage is mixed with each other so that the food garbage and the leachate are separated from each other. The leachate discharged from the food waste is moved along the slope of the bottom of the hopper body 110.

The air introduced into the air inlet 115 by the air blowing fan 151 is circulated from the bottom to the inside of the hopper main body 110 and discharged through the air outlet 117. In this manner, the outside air continuously circulates in the hopper main body 110 to come in contact with the food wastes, thereby dehydrating the food wastes, and drying the dehydrated food wastes.

Here, the blowing fan 151 may be a sirocco fan type disposed on the duct along the air feeding direction of the air circulating duct 150, or may be provided on the side wall of the air circulating duct 150 where the external air inflow hole 153 is formed And may be equipped with a propeller fan type. The size, number and type of the blowing fan 151 can be appropriately designed in consideration of the size of the hopper main body 110 and the throughput of food waste.

At this time, a unidirectional check valve (not shown) may be provided on the air outlet 117 so that air circulating through the hopper main body 110 and the air circulating duct 150 is transferred in one direction. As a result, only the fresh outside air flows into the hopper body 110, and the inside air containing odor is discharged while the airtightness is maintained outside the hopper body 110.

The drain pipe 160 is connected to the discharge port 113 side of the hopper main body 110 and guides the leachate discharged along the bottom surface of the hopper main body 110 toward the waste water column (not shown). One end of the water discharge pipe 160 is coupled to the discharge port 113 and the other end is coupled to the waste water internal pipe 180. The other end of the drain pipe 160 is formed with a drain hole 161 for discharging the leachate to the inner pipe inner pipe 180.

FIGS. 3A and 3 are views showing an example of a drainage process of the drain pipe 160. FIG.

The drain port (161) is provided with a foreign matter removing unit (170) for preventing food waste contained in the leachate from blocking drainage of the leachate by closing the drainage port (161). The foreign material removing unit 170 is disposed in the upper area of the drain port 161 and is lifted up and down by buoyancy depending on the inflow of the leachate to open and close the drain port 161, And a rotary fan 173 coupled to the rotary shaft 175. The rotary shaft 175 is rotatably coupled to the rotary shaft 175. [

The floater 171 is disposed in the drain pipe 160 such that the lower area is in contact with the drain hole 161. The floater 171 cuts off the drain port 161 as shown in FIG. 3A when there is no inflow of leachate. When the leachate flows into the drainage pipe 160, the floater 171 floats upward on the surface of the leachate by the buoyancy of the leachate to open the drainage port 161. Thereby, the leachate is drained to the waste water pipe inner pipe 180 through the drainage port 161.

The rotary fan 173 is connected to the plotter 171 by a rotary shaft 175. The rotary fan 173 is rotated by the falling pressure of the leachate falling through the drain port 161. The rotation of the rotary fan 173 also causes the floater 171 to rotate together with the drain pipe 160 and a water flow in the form of a whirlwind is formed on the main surface of the drain pipe 161. The food waste moved to the drain port 161 side together with the leachate by the water flow formed around the drain port 161 is discharged to the inner pipe inner pipe 180 through the drain port 161. Accordingly, the food waste is deposited on the main surface of the drain port 161 to prevent the drain port 161 from being blocked, and the drain can be drained smoothly.

The process of treating the food waste of the hopper 100 for treating food waste according to the present invention having such a configuration will be described with reference to FIGS. 2 to 3B.

First, when food garbage arrives from the food garbage collection vehicle, the hatch 111 on the upper part of the hopper main body 110 is opened to put the food garbage into the hopper main body 110. The food waste put into the hopper body 110 is mixed with each other by the feed screw 120 rotating in the reverse direction.

At this time, external air is forcibly introduced into the hopper main body 110 through the air inlet 115 by operating the blowing fan 151. The inflowing external air is brought into contact with the surface of the food garbage to generate minute bubbles, and the food bubbles are separated from the water by the minute bubbles.

The food waste is dehydrated by the rotational pressure of the feed screw 120 and the aeration of the air, and the leached water separated from the food waste moves along the slope of the bottom of the hopper body 110 and is discharged to the discharge port 113.

3A, the floater 171 in the drain pipe 160 maintains a state of being in contact with the drain port 161. When the food waste does not flow, the rotating fan 173 stops flowing because there is no flow of the leachate. State. When the leachate flows into the drain pipe 160 due to the introduction of food waste, the leachate is raised to the bottom of the drain pipe 160, and the floater 171 is raised upward by buoyancy. As shown in FIG. 3B, when the floater 171 is lifted upward, the drain port 161 is opened, and the drainage water drains to the lower portion of the drain port 161.

The drainage water drained falls to the inner pipe inner pipe 180 and presses the surface of the rotary fan 173. The rotary fan 173 rotates by the falling pressure of the leachate and the floater 171 connected to the rotary fan 173 by the rotary shaft 175 is also rotated inside the drain pipe 160. By the rotation of the floater 171, the food waste around the drain port 161 is discharged to the drain port 161.

The air introduced through the air inlet 115 circulates inside the hopper main body 110 while being in contact with the food waste, and gradually dries the food waste which is dehydrated. According to the dry state of the food waste, microorganisms in the microorganism storage tank 130 are supplied to ferment the food waste.

When the drying and fermentation proceed sufficiently, the feed screw 120 is rotated in the forward direction to transport the food waste to the outside.

As described above, the hopper for treating garbage according to the present invention can prevent the odor from leaking to the outside because the air is circulated by the air circulation duct in a state where the hopper main body is hermetically closed.

In addition, a drainage unit for selectively opening and closing the drainage port by buoyancy of the leached water is provided in the drainage port, so that the drainage port is prevented from being clogged by the food waste, thereby allowing the drainage water to be smoothly discharged.

In addition, since the food waste and the leachate are separated by the external air supplied by the air circulation duct, the food waste is dewatered, so that the inclination of the feed screw can be reduced and the size of the hopper body can be reduced.

The embodiments of the food waste disposal hopper of the present invention described above are merely illustrative and those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. You will know very well. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

100: hopper device 110: hopper body
111: Hatch 113: Outlet
115: air inlet 117: air outlet
120: Feed screw 130: Microorganism reservoir
140: magnetic separator 150: air circulation duct
151: blower fan 153: external air inflow hole
160: Water pipe 161: Water pipe
170: Foreign object removal 171: Plotter
173: rotating fan 175: rotating shaft
180: Inside the wastewater treatment plant

Claims (4)

A food waste disposal hopper comprising:
A hopper body provided with a hatch for introducing food waste into the upper region, a hopper body having a discharge port for discharging leachate discharged from the food waste to one side of the lower region, and a housing space for accommodating food waste;
A transfer screw coupled to the lower region of the hopper main body to maintain the airtight state of the hopper main body and to mix and transfer the food waste introduced from the hatch;
A drain pipe coupled to the discharge port and having a drain port for discharging the leachate introduced into the discharge port to the outside;
And a foreign matter removal unit for vertically moving the drainage port by buoyancy of the leachate to selectively open and close the drainage port. The method according to claim 1,
The foreign-
A floater which is vertically moved by buoyancy of the leachate and opens and closes the drain hole;
A rotating shaft extending to a lower region of the floater;
And a rotary fan coupled to an end region of the rotary shaft and rotated by a falling pressure of the leachate through the drain hole. 3. The method according to claim 1 or 2,
One end coupled to an upper region of the hopper body and the other end coupled to a lower region of the hop body,
Wherein the air circulation duct is provided with at least one blowing fan for forming an air flow so that air is forcibly circulated into the hopper body. The method of claim 3,
Wherein the bottom surface of the hopper body is inclined so that the height of the bottom of the hopper body is low and the leached water separated from the food waste by the rotation of the feed screw is moved to the discharge port.

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