KR101899425B1 - Apparatus for treating food waste - Google Patents

Abstract

The present invention relates to a food waste disposer capable of processing a large amount of food waste, which comprises: a housing (100) formed with a lid (110) to open and close a first inlet (101); an input hopper (200) formed with a pair of discharge holes (201); a crushing rotation means (300) provided inside the housing (100); a connection cover unit (400) positioned inside the discharge holes (201) to cover the same; an input induction plate (500); a pulverizing hopper (600); and a pulverizing rotation means (700) pulverizing a crushed food waste and discharging the same to the outside of the housing (100).

Description

{APPARATUS FOR TREATING FOOD WASTE}

More particularly, the present invention relates to a food waste disposal apparatus capable of treating a large amount of food waste, introducing food waste into a feed hopper, separating leachate contained in the food waste by centrifugal separation, finely crushing and cutting food The present invention relates to a food waste disposal apparatus for rapidly disposing food waste that has been pulverized and cut continuously by pressure dewatering, separating leachate once again, discharging the leachate to the outside, and discharging only crushed waste to a separate discharge line.

Generally, each household or restaurant discharges a certain amount of residue (disposal food) daily, and these residues are used as livestock feeds or simply filtered through a simple screen to filter out the mixed water. Such a disposal method increases the amount of waste, and if the garbage is not frequently discarded, it generates a bad odor and pollutes the surrounding air.

Recently, efforts to reduce food waste in general households and restaurants have been actively promoted. However, it is difficult to control the amount of garbage that is gradually increasing. When landfill is made, the landfill site is limited and the environment caused by odor and leachate The damage was very serious.

Therefore, recently, waste disposal system has been implemented and it is mandatory for the government to install a treatment device capable of inducing fermentation, drying, or extinction of foodstuffs when a group foodservice station or an apartment complex is newly constructed.

On the other hand, the food waste generated in the home or restaurant is separated and collected and collected in a collecting container, processed in a food processing facility, or installed in a sink drain, and the food waste filtered through the filter net is transferred, compressed, crushed and dried And the throughput is reduced.

In general households or entertainment establishments, there has been developed a device for crushing and dehydrating garbage that is connected to a sink, that is, a drain of a sink, which is thrown away through a drain hole. Such a food- The present invention also provides an apparatus for collecting food wastes introduced into a sewer pipe without filtering them into streams, and collecting and collecting them separately through pulverization and dehydration processes.

On the other hand, a method of removing odor by mixing a malodor removing agent, a fermentation mold, and the like with a pulverizer may be used.

In addition, one of the methods of separating and collecting food waste generated in a home or a restaurant may be a method of pulverizing and discharging it together with water.

Reference can be made to Patent Document No. 10-0866555 as a conventional document for suggesting a food waste treatment method capable of preventing backflow in the process of pulverizing and dehydrating food waste. In this document, it is described that the water is sprayed on the housing and is supplied to the food waste during the dehydration process to prevent the reverse flow of water serving as a lubricant between the filter net and the screw shaft, thereby preventing backflow of the odor, The present invention does not separately disclose a method for separating and transporting waste and sewage generated in the process of pulverizing, transporting and compressing food waste to be introduced in different directions through the operation of a single feed screw There is a limit.

1. Domestic Patent Registration No. 10-0866555 (title of the invention: Food waste disposal device having a backflow prevention function) 2. Domestic patent registration No. 10-1838915 (title of invention: food garbage disposal device)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a food waste disposal apparatus and a food waste disposal method in which a crushing rotating means and a crushing rotating means are disposed in respective hoppers while a feeding hopper and a crushing hopper forming a predetermined space for accommodating food waste are connected, The present invention also provides a food waste disposal apparatus for continuously performing pressurized dehydration and discharging food waste through a crushing process after the primary leachate is separated at the same time as the crushing and cutting of the food waste.

A housing having a first inlet formed at an upper portion thereof to open and close the first inlet so as to allow food containing moisture to flow through the upper portion while forming a space therein,

A loading hopper having an upper portion opened to be connected to a charging port of the housing and having a pair of discharge holes provided in the upper portion and the lower portion of the lower surface of the lower portion,

A crushing rotating means installed in the housing to rotate the food waste to separate the food waste and to separate the leachate,

A connection cover portion having a pair of discharge holes formed in the charging hopper,

And a second input port formed at a position corresponding to an opened lower portion of the connection cover portion, which is located below the connection cover portion,

A second accommodating portion formed with a leachate outlet hole communicating with the lower side of the first accommodating portion and gradually decreasing the inside diameter to discharge the leachate at the lower center, And a second connection hole communicating with the first connection hole so as to be horizontally aligned with each other while being opposed to the first connection hole, the first connection hole communicating with the first connection hole, A grinding hopper formed; And

The grinding hopper according to any one of claims 1 to 3, wherein the pulverized food waste is supplied to the first receiving groove of the grinding hopper in a lateral direction, And a rotating means.

Meanwhile, the fracture-rotating means may include a plurality of first outflow holes, which are located at an inner bottom surface of the charging hopper and have an outer peripheral end disposed between the upper discharge hole and the lower discharge hole on the lower surface of the charging hopper, A circular plate-shaped rotary plate having a fastening hole formed at the center thereof,

And an outer circumferential end of the outer circumferential end is in close contact with an inner circumferential surface of the loading hopper located at a lower portion of the lower discharge hole of the charging hopper. One end of the outer circumferential end is incised while being connected to a main end of the second charging port of the charging induction plate, And an outlet guide plate having a first binding hole formed at a center thereof to communicate with a second inlet through which a space between an inner circumferential surface of the inlet hopper spaced apart from the one end is communicated with a coupling hole of the rotary plate,

A guide plate in the form of a horizontal plate having a first through hole formed at the bottom of the outlet guide plate and connected to or positioned at the side of the crushing hopper,

A second through hole vertically communicating with each of the first through holes of the guide plate and the first binding holes of the outflow induction plate is formed while the lower portion of the guide plate is coupled to the upper portion of the guide plate, A support portion coupled to the upper side of the through hole and having a socket portion formed with a third through hole penetrating from the upper portion to the lower portion so as to communicate with the second through hole of the guide plate while being transferred to the first binding hole of the outflow inducing plate; And

A first rotation motor which is located at a lower portion of the guide plate and which is coupled to a lower surface of the guide plate and has a first rotation axis protruding upward upward and exposed to an upper portion of the first aperture of the guide plate, A first connecting part connected to the first rotating shaft, a second connecting part engaging with the first connecting part, and a second connecting part connected to the second connecting part, the other end passing through a third through hole formed in the socket part of the supporting part, And a power transmitting member formed of a first rotating shaft and a second rotating shaft coupled to a fastening hole of the rotating plate.

Meanwhile, the rotary plate is arranged and rotated in an inclined form at a predetermined angle within the feed hopper,

The outlet guide plate is formed to have a slope corresponding to the inclination of the rotary plate. The outer peripheral end face having the lowest height of the inclined outlet guide plate is directed toward the discharge hole of the inlet hopper, A first end of the outer circumference is cut and integrally connected to a circumferential end of the second introduction port of the introduction induction plate,

And a first end of the inflow induction plate, which is located at a lower portion of the inflow induction plate, extends horizontally from one end of the infusion induction plate corresponding to a position where the one side of the inflow induction plate is connected to the inner end of the second infusion port of the infusion induction plate, A support plate is provided,

And a second binding hole is formed at the center of the support plate so as to communicate with the first binding hole formed at the center of the outflow inducing plate, wherein a binding rod is formed so as to be connected and in communication with the first binding hole and the second binding hole To the food processor.

The pulverizing and rotating means includes a second rotary motor disposed outside the crushing hopper, a second rotary motor disposed outside the crushing hopper,

A third rotary shaft connected to the second rotary motor;

One end of which is connected to the third rotary shaft and is inserted into the crushing hopper in the transverse direction through the first connection hole formed on one side of the crushing hopper and passes through the second connection hole of the connection supporting plate formed in the first receiving portion of the crushing hopper A cylindrical rotating screw having an end protruding through a first connection hole formed on the other side of the crushing hopper and having a spiral conveying vane from one end to the other end peripheral surface and gradually decreasing the inner diameter toward the other end in the discharge direction;

A plurality of second outflow holes are formed on an outer circumferential surface of the rotary shaft so that the rotary screw is positioned inside the tubular shaft and a tubular shape having a length corresponding to the length of the rotary screw is formed, And the other end formed with a flange protruding in a circumferential shape on the outer periphery in close contact with the hole is positioned at the end of the rotating screw protruded through the first connection hole formed on the other side of the crushing hopper, And the other outer peripheral surface from the other end to the other end is formed of a conveying net having a closed form,

A coupling plate for forming a third connection hole having a larger inner diameter than an inner diameter of the first connection hole, a third connection hole formed on one side of the other side of the crushing hopper so as to communicate with the first connection hole,

And a second screw connected to the other side of the crushing hopper and having one side inserted through the third connection hole of the coupling plate and connected to the flange of the conveying net, Wherein the first discharge hole has an inner diameter gradually reduced from the first discharge hole toward the second discharge hole and a hemispherical fracture channel groove formed in a lengthwise direction from one end of the first discharge hole to the other end thereof, A crushing cover portion formed on the inner circumferential surface of the discharge hole,

A first discharge guide plate having one side connected to the other surface of the crushable cover part and having a hemispherical second discharge hole formed on one surface thereof to communicate with a part of the first discharge hole of the crushable cover part;

A third discharge hole communicating with the first discharge hole of the crushing cover portion is formed at one side of the first discharge outlet plate and connected to the fastening means for fastening the first discharge outlet plate and the crushing cover portion, A discharge control plate formed with a plurality of long bolt holes spaced apart from each other in an arcuate shape,

A second discharge outlet plate having one side connected to the other side of the discharge control plate and having a circular fourth discharge hole communicating with the third discharge hole of the discharge control plate; And

And a tubular discharge pipe connected to the other surface of the second discharge outlet plate and in communication with the fourth discharge hole.

According to the recovering food and beverage processing apparatus of the present invention having the above-described structure, the crushing and rotating means are disposed in the respective hoppers while the feeding hopper and the crushing hopper forming the predetermined space for accommodating the food waste are connected to each other, The process of breaking down and cutting food garbage through a continuous process and simultaneously separating the leachate at the same time, continuously discharging the food waste through the crushing process, and cutting, crushing, separating, pressurizing There is an effect of easily separating and transferring the residue and leachate generated in the continuous process of dehydration and pulverization.

1 is a perspective view of a food processor according to an embodiment of the present invention;
2 is a view illustrating an inner structure of a housing in a food processor according to an embodiment of the present invention.
3 is a view showing a front structure of a crushing rotating means and a crushing rotating means associated with a feeding hopper of a food processing apparatus according to an embodiment of the present invention.
4 is a rear view of the crushing rotating means and the crushing rotating means associated with the feeding hopper of the food processing apparatus according to the embodiment of the present invention.
5 is a plan view showing a crushing rotating means and a crushing rotating means associated with a feeding hopper of a food processing apparatus according to an embodiment of the present invention.
FIG. 6 is a cross-sectional view of the AA region in the food processor according to the embodiment of the present invention shown in FIG. 5; FIG.
7 is a view showing a separated structure of a feed hopper and a fracture-rotating means in a food processor according to an embodiment of the present invention.
8 is a view showing a separating structure between a feeding hopper and a support plate in a food processor according to an embodiment of the present invention.
9 is a view showing the separated structure of the fracture-rotating means in the food processor according to the embodiment of the present invention.
10 is a cross-sectional view of a power transmitting member of the fracture-rotating means in the food processor according to the embodiment of the present invention.
FIG. 11 is a structural view (a) of a rotary plate in a food processing apparatus according to an embodiment of the present invention and a structural view (b) of an outflow induction plate and a support plate connected to the introduction induction plate;
12 is a view showing a structure of a pulverizing hopper in a food processor according to an embodiment of the present invention.
13 is a cross-sectional view of the BB region in the food processor according to the embodiment of the present invention shown in Fig. 5;
14 is a view showing a cross-sectional structure of the pulverizing and rotating means in the food processor according to the embodiment of the present invention.
15 is a view showing the separation structure of the pulverizing and rotating means in the food processor according to the embodiment of the present invention.
16 is a perspective view (a) and a front view (b) of a feeding net in a food processing apparatus according to an embodiment of the present invention.
17 is a front perspective view (a) and a rear perspective view (b) of the crushing cover portion of the crushing and rotating means in the food processor according to the embodiment of the present invention.
FIG. 18 is a perspective view illustrating a first discharge guide plate-discharge control plate-second discharge guide plate combined perspective view of the pulverizing and rotating means in the food processor according to the embodiment of the present invention. FIG.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It is to be understood, however, that the intention is not to limit the invention to the form just described, and that the spirit and scope of the invention encompass ordinary variations and equivalents of the described forms.

The present invention provides a food processor that sequentially performs the process of automatically introducing the crushed food waste while discharging food waste, separating crushed and leached water, and discharging the crushed food waste to the outside through pulverization and dehydration.

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

1 to 6, 9 and 12, the food waste disposal apparatus 10 of the present invention includes a first inlet 101 at an upper portion thereof for introducing food containing moisture through an upper portion thereof while forming a space therein A housing 100 formed with a lid 110 for opening and closing the first inlet 101 and an upper portion opened to be connected to the first inlet 101 of the housing 100 and provided inside the housing 100 (200) having a pair of discharge holes (201) penetrating in the upper side and the lower side of the lower surface of the lower hopper, and a hopper (200) mounted inside the hopper (200) A crushing and rotating means 300 provided inside the housing 100 to rotate the crushing and leachate so as to separate the crushed and leached water and a pair of discharge holes 201 formed in the charging hopper 200, The connection cover portion 400, (500) which is positioned below the connection cover part (400) and in which a second input port (501) is formed at a position corresponding to the opened lower part of the connection cover part (400) A second accommodating portion 610 having a first accommodating portion 610 formed therein and formed with a leachate outlet hole 621 communicating with the lower side of the first accommodating portion 610 to gradually reduce an inner diameter of the first accommodating portion 610, A first connection hole 611 is formed in each side of the first connection part 610 so as to communicate with each other on both sides of the first connection hole 620. The first connection part 610 is connected to one inner surface of the first accommodation part 610, A crushing hopper 600 having a connection support plate 630 formed with a second connection hole 631 communicating with the crushing hopper 611 horizontally, And is transmitted to the first input port 501 of the input induction plate 500, Crushing the food waste to be led to the outside of the other side provides a food treatment system 10 comprising a rotating grinding means 700 is discharged into the outer housing 100.

3, 4, 9, and 12, the food processor 10 of the present invention includes a housing 100, a feed hopper 200, a fracture-rotating means 300, A connection cover portion 400, a feeding induction plate 500, a crushing hopper 600 and a crushing and rotating means 700.

As shown in FIG. 1, the housing 100 has a structure in which a lid 110 is formed to open and close the first charging port 101 while forming a first charging port 101 at an upper portion while forming an empty space therein And a substrate (not shown) for controlling the operation of the crushing and rotating means 300 and the crushing and rotating means 700 are disposed on the outer surface to perform an operation.

7 and 8, the loading hopper 200 has a cylindrical structure for storing food waste supplied from the first inlet 101 of the housing 100, and the upper and lower openings are opened And a pair of spaced apart discharge holes 201 are formed in the upper and lower sides of the lower surface of the lower part of the outer circumference,

6 to 11, the fracture-rotating means 300 is disposed at a lower portion of the inner side of the input hopper 200 and is connected to the lower portion of the input hopper 200 by a power transmitting member 350 And separates and discharges the food waste flowing into the input hopper 200 from the crushing and leachate.

The outer circumferential end is disposed between the upper discharge hole 201 and the lower discharge hole 201 on the lower surface of the charging hopper 200, A circular plate type rotary plate 310 having a plurality of first outlet holes 311 penetrating downward at an upper portion thereof and having a fastening hole 312 formed at the center thereof and a lower discharge hole 201 And one end of the outer circumferential end of the outer circumferential end is cut while being partially connected to the inner end of the second insertion port 501 of the input induction plate 500 to be connected to the outer circumferential end of the insertion hopper 200, A space between the one end of the incising hopper 200 and the inner circumferential surface of the feed hopper 200 spaced apart from the incised end is communicated with the second inlet 501 and communicated with the connection hole 312 of the rotation plate 310 An outflow induction plate 320 on which the first binding hole 321 is formed and a crushing hopper A guide plate 330 of a horizontal plate type in which a first through hole 331 is formed at the center of the guide plate 330 and connected to the side surface of the guide plate 330 and the outlet guide plate 320, A second through hole 341 formed in the first through hole 331 of the guide plate 330 and vertically communicating with the first binding hole 321 of the outflow inducing plate 320 is formed And is connected to the upper side of the second through hole 341 so as to penetrate into the first binding hole 321 of the outflow induction plate 320 and penetrate from the upper side to the lower side so as to communicate with the first through hole 331 of the guide plate 330 A support portion 340 formed with a socket portion 342 having a third through hole 343 formed therein and an upper portion located at a lower portion of the guide plate 330 and coupled to a lower surface of the guide plate 330, A first rotary motor 351 which is exposed to the upper portion of the first through hole 331 of the guide plate 330 and a second rotary motor 352 which is connected to the first rotary shaft 352 of the first rotary motor 351 Being The first connection part 353 is connected to the second connection part 354 and the second connection part 354 is connected to the first connection part 353 and the second connection part 354. The other end of the connection part 353 is vertically extended to a predetermined length, And a power transmission member 350 including a second rotation shaft 355 that passes through the third through hole 343 formed in the first portion 342 and is coupled to the fastening hole 312 of the rotation plate 310, I have.

7 to 9, the fracture-rotating means 300 includes a rotating plate 310, an outflow induction plate 320, a guide plate 330, a support portion 340, and a power transmitting member 350 The rotating plate 310 is disposed on the inner bottom surface of the loading hopper 200 and rotates without interference with the inner circumferential surface of the loading hopper 200 during power transmission of the power transmitting member 350 The outer circumferential end of the rotary plate 310 may be disposed between the upper discharge hole 201 and the lower discharge hole 201 formed on the lower surface of the loading hopper 200 or may be disposed below the lower discharge hole 201 .

9 and 11A, a plurality of first outflow holes 311 and a fastening hole 312 are formed on the front surface of the rotary plate 310, The leachate is discharged through the first outflow hole 311 or when the rotating plate 310 is rotated, the leachate is discharged through the first outflow hole 311. At this time, The leachate is separated from the lower portion of the rotary plate 310 and dropped on the upper surface of the outlet guide plate 320 located at the bottom of the inlet hopper 200 and is separated from the one end of the outlet guide plate 320 and the inner surface of the inlet hopper 200 Through the second inlet 501 of the introduction induction plate 500 through the space of the crushing hopper 600 and the leachate discharge hole 621 of the crushing hopper 600.

A plurality of shredding blade portions 313 are fixed on the upper surface of the rotating plate 310 so that the food waste flowing into the input hopper 200 is cut and crushed to a predetermined size so that the shredding blade portion 313, The food garbage is discharged through the discharge hole 201 by the centrifugal force when the rotary plate 310 rotates. At this time, the discharge hole 201 is opened, And the powdered garbage discharged to the second inlet 501 of the charging guide plate 500 is guided by the connection cover part 400. [

6 to 8, the outflow induction plate 320 is fixedly disposed on the inner bottom surface of the charging hopper 200 so as to be spaced apart from the lower discharge hole 201 of the charging hopper 200, The outer circumferential end is fixedly attached to the inner circumferential surface of the loading hopper 200 to seal the bottom surface of the loading hopper 200.

8 and 11 (b), the outer circumferential end surface of the outflow induction plate 320 is cut, and at this time, the incision position of the outflow induction plate 320 is set to the discharge hole And the entire end of the one side of the outflow induction plate 320 is integrally connected to the inner end of the second inlet 501 of the injection induction plate 500.

The space between the cut-out side of the outflow induction plate 320 and one side of the inner circumference of the feed hopper 200 spaced apart from the cut-out side is communicated with the second inlet 501. At this time, The leachate discharged through the first outlet 311 flows into the second inlet 501 of the inlet guide plate 500 through the space.

A first binding hole 321 is formed at the center of the outflow induction plate 320 so as to communicate with the fastening hole 312 of the rotary plate 310.

6 and 9, the guide plate 330 is spaced apart from the lower portion of the outflow induction plate 320 and faces the lower portion of the outflow induction plate 320. The outflow induction plate 320, Or may be integrally connected to a lower portion of the support portion 340 and may be formed in the form of a horizontal plate having a first through hole 331 formed at the center thereof.

6, 7, and 9, the support portion 340 is disposed between the guide plate 330 and the outflow induction plate 320, and the lower portion thereof is coupled to the upper portion of the guide plate 330, A second through hole 341 vertically communicating with the first binding hole 321 of the outflow induction plate 320 is formed on the first through hole 331 of the first through hole 330 and on the upper side of the second through hole 341, And a third through hole 343 which is connected to the first coupling hole 321 of the outflow induction plate 320 so as to communicate with the first through hole 331 of the guide plate 330, (342) are formed.

The socket portion 342 has a structure in which the second through hole 341 is inwardly protruded from the support portion 340 with respect to the second through hole 341 of the support portion 340, So that the upper end is positioned between the rotary plate 310 and the outflow induction plate 320.

6 and 9, when the socket portion 342 is engaged with the first binding hole 321 of the outflow inducing plate 320, the sealing portion 344 is coupled to the outer peripheral surface of the socket portion 342 The sealing portion 344 prevents the leakage of the leachate dropped on the outflow induction plate 320 to the first binding hole 321. The first binding hole 321 of the outflow induction plate 320 is connected to the first binding hole 321, .

6 and 11 (b), the socket portion 342 is formed by a tilted outflow guide plate 320 and a support plate 360 located below the tilted outflow guide plate 320 Is drawn upward through the inner passage of the binding rod 370 integrally connected between the second binding hole 361 of the support plate 360 and the first binding hole 321 of the outlet guide plate 320 at the time of coupling, The upper end of the connecting rod 342 is positioned between the rotating plate 310 and the outlet guide plate 320 and the sealing portion 344 is coupled to the outer periphery of the socket portion 342, The sealing portion 344 is tightly coupled between the outer circumferential surfaces.

6, 9, and 10, the power transmitting member 350 is a means for transmitting power to rotate the rotating plate 310, and includes a first rotating motor 351, A first connecting portion 353 connected to the first rotating shaft 352 and a second rotating shaft 355 extending vertically upward while coupling the second connecting portion 354 to the first connecting portion 353, The first rotating motor 351 is disposed at a lower portion of the guide plate 330 and is coupled to the lower surface of the guide plate 330 and has a first rotation axis 352 protruding upward, Is exposed to the upper portion of the first through hole 331 of the guide plate 330.

10, the first connection portion 353 is connected to the first rotation shaft 352 of the first rotation motor 351 and the second connection portion 354 is coupled to the first connection portion 353, Is positioned above the first connection part 353.

The other end of the second rotation shaft 355 is connected to the second connection part 354 and the other end of the second rotation shaft 355 is inserted into the insertion hopper 200 through the third through hole 343 formed in the socket part 342 of the support part 340 And is fastened to the fastening hole 312 of the rotating plate 310.

In order to allow food waste, which is crushed by centrifugal force and inertia, to be automatically discharged through the discharge hole 201 of the input hopper 200 while the food waste is being crushed during rotation of the rotary plate 310, .

As shown in FIGS. 6, 7, 8, and 11 (b), the rotary plate 310 is arranged and rotated in an inclined or horizontal form inclined at a predetermined angle within the loading hopper 200, The outflow induction plate 320 is also formed at a slope corresponding to the inclination of the rotary plate 310 so that the outer peripheral end of the lower end of the inclined outflow induction plate 320 faces the discharge hole 201 of the insertion hopper 200 At this time, the outer circumferential end face of the lower end of the outflow induction plate 320 is cut and integrally connected to the inner end of the second inlet 501 of the input induction plate 500,

The injection induction plate 500 is located at a lower portion of the outflow induction plate 320 and corresponds to a position where the one side of the outflow induction plate 320 is connected to the inner end of the second introduction hole 501 of the introduction induction plate 500, Like support plate 360 extending horizontally at one end of the guide plate 360 and facing the outflow induction plate 320,

A second binding hole 361 is formed at the center of the supporting plate 360 so as to be communicated with the first binding hole 321 formed at the center of the outflow inducing plate 320. At this time, 2 binding holes 361, and the binding bars 370 are formed so as to be interconnected and inward.

When the rotary plate 310 is horizontal, the rotary plate 310 is horizontally rotated to cut and crush the food waste by the shredding blade portion 313 formed on the upper surface of the rotary plate 310 as described above. The food waste is discharged through the discharge hole 201 by the centrifugal force when the rotating plate 310 rotates and the leached water is discharged through the first discharge hole 311 to be discharged from the discharge port Is guided by the photoflow guide plate 320 and flows to the second inlet 501 of the injection guide plate 500.

In addition, although not shown in the figure, when the rotation plate 310 itself is inclined, that is, when the rotation plate 310 has a shape inclined to the bottom surface, the rotation plate 310 is rotated at an angle The other end of the vertical second rotary shaft 355 is fixed to the fastening hole 312 of the rotary plate 310 so that the rotary plate 310 is rotated in an inclined manner by the rotation of the second rotary shaft 355, At this time, the food waste flowing into the input hopper 200 is finely cut and crushed by the crushing blade portion 313 provided on the upper surface of the rotating plate 310 by colliding with the upper surface of the inclined rotating plate 310, The automatically crushed food waste is discharged to the discharge hole 201 of the input hopper 200.

The leachate discharged through the first outflow hole 311 formed on the upper surface of the rotating plate 310 is guided by the outflow induction plate 320 having a slope corresponding to the inclined rotating plate 310, 500, respectively.

As shown in FIG. 11 (b), the outer circumferential end face of the outflow induction plate 320 is cut so that the incised one side is positioned downwardly away from the lower outlet hole 201 of the input hopper 200, The plate 320 has an inclined bottom surface and an outer circumferential end of the inclined lower end of the outflow induction plate 320 is cut and the end of the cut out outflow induction plate 320 is connected to the inlet guide plate 500 And is integrally connected to the main end of the second inlet 501.

The support plate 360 is horizontally disc-shaped to be spaced apart from the lower portion of the outflow induction plate 320 so as to face the bottom surface of the injection hopper 200.

A second binding hole 361 is formed at the center of the support plate 360 so as to communicate with the first binding hole 321 of the inclined guide plate 320.

The upper and lower ends of the coupling rod 370 are connected to each other through first and second coupling holes 341 and 342 between the first coupling hole 321 of the outflow induction plate 320 and the second coupling hole 361 of the support plate 360, The first binding hole 321 of the outflow induction plate 320 is connected to the first binding hole 321 and the second binding hole 321, The upper end and the inner diameter of the binding rod 370 are inclined in the same manner by having the inclined inner diameter.

4, the connection cover part 400 includes a pair of discharge holes 201 formed in the charging hopper 200, which are connected to one side of the outer periphery of the charging hopper 200, The connection cover part 400 is formed to have an open space in the lower part thereof so as to surround one side of the outer periphery of the insertion hopper 200 where the discharge hole 201 is located while forming a hollow space inside the connection cover part 400.

That is, the food waste disintegrated in the input hopper 200 is discharged through the discharge hole 201 of the input hopper 200 and prevented from leaking out to the lower portion of the connection cover portion 400, The lower part of the connection cover part 400 covers the second inlet 501 of the introduction induction plate 500 and is guided by the introduction induction plate 500. [ And is integrated with the plate 500.

7, 8, and 11 (b), the introduction guide plate 500 is connected to the lower portion of the connection cover portion 400 and is connected to the lower portion of the connection cover portion 400 The second inlet 501 is formed outside the inlet hopper 200 at a position orthogonal to the outlet hole 201 of the inlet hopper 200, A space between the one surface of the bottom surface of the hopper 200 and the inner surface of the inlet hopper 200 disposed on the outflow induction plate 320 disposed on the bottom surface of the charging hopper 200 may be a part of the second charging port 501 So that the feed hopper 200 is disposed to communicate with the feed hopper.

4, 12, and 13, the crushing hopper 600 is located below the injection inducing plate 500 and includes a first receiving portion 610 therein so as to communicate with the second inlet 501 A second accommodating portion 620 having a lean water discharge hole 621 communicating with the lower side of the first accommodating portion 610 and gradually decreasing the inner diameter and discharging the leachate to the lower center is formed, A first connection hole 611 communicating with and horizontally corresponding to each other is formed on each side of the receiving portion 610. The first connection hole 610 is connected to one inner surface of the first accommodation portion 610, And a connection support plate 630 having a second connection hole 631 communicating with the hole 611 horizontally is formed.

That is, the first accommodating portion 610 is located on the upper side of the crushing hopper 600 and the second accommodating portion 620 is formed on the lower side of the crushing hopper 600 so that the first and second accommodating portions 610, Thereby forming an internal structure of the crushing hopper 600.

The connection support plate 630 divides the first accommodating portion 610 into a left space and a right space and includes a first accommodating portion 610 for allowing the second accommodating portion 610 to pass through the second input port 501 of the input guide plate 500, ) Is located on the left side of FIG.

13 to 18, the crushing and rotating means 700 is a component for pressurizing and dewatering the crushed food waste introduced into the crushing hopper 600 and crushing the crushed food waste. The crushing and rotating means 700 is disposed outside the crushing hopper 600 A third rotary shaft 720 connected to the second rotary motor 710 and a second rotary shaft 720 connected to one end of the third rotary shaft 720 at one side of the crushing hopper 600, The second connection hole 631 of the connection supporting plate 630 formed in the first receiving portion 610 of the crushing hopper 600 is inserted into the crushing hopper 600 through the formed first connection hole 611, The end of the end portion protrudes outward through the first connection hole 611 formed on the other side of the pulverizing hopper 600 and the spiral conveying blade 731 is formed from the one end outer circumferential surface to the other end circumferential surface, A cylindrical rotating screw 730a whose inner diameter progressively becomes smaller, and the rotating screw 733 A plurality of second outflow holes 732 are formed in the outer circumferential surface of the inner circumferential surface so that the inner circumferential surface of the inner circumferential surface of the inner circumferential surface of the outer circumferential surface The other end of the flange 734 protruding in a circumferential direction on the outer circumference is connected to the first connection hole 611 formed on one side of the crushing hopper 600, An opening portion 733 is formed at one end of the rotating screw 730a protruding through the first and second connection holes 730a and 730a and the upper portion of the connection supporting plate 730 is cut in the longitudinal direction, And a third connection hole 741 is formed so as to communicate with the first connection hole 611 while one surface is coupled to the other side surface of the crushing hopper 600 And the third connection hole 611 has a larger inner diameter than the inner diameter of the first connection hole 611, And a flange 734 of the conveying net 730b is connected to the crushing hopper 730b through a third connecting hole 741 of the coupling plate 740. The crushing hopper The first discharge hole 751 is coupled to the other side of the rotary screw 730 and penetrates the other end of the rotary screw 730a from the center to the center of the rotary shaft 730a. A hemispherical fracture channel groove 752 having a length in the lateral direction from one end to the other end of the first discharge hole 751 is formed in the first discharge hole 751 And a plurality of first discharge holes 751 of the crushable cover part 750 are connected to one surface of the crushable cover part 750 so as to communicate with a part of the first discharge hole 751 of the crushable cover part 750, A first discharge guide plate 760 on which a hemispherical second discharge hole 761 is formed, and a second discharge guide plate 760 on the other surface of the first discharge guide plate 760, A third hemispherical discharge hole 771 communicating with the first discharge hole 751 of the crushing cover part 750 is formed and the first discharge guide plate 760 and the crushing cover part 750 A discharge control plate 770 having a plurality of long bolt holes 772 formed in an arc shape spaced apart from each other to be engaged with fastening means to be fastened to the discharge control plate 770, A second discharge outlet plate 780 having a circular fourth discharge hole 781 communicating with the third discharge hole 771 and a fourth discharge hole 780 coupled to the other surface of the second discharge outlet plate 780, Shaped discharge pipe 790 which is in communication with the discharge pipe 781.

14 and 15, the pulverizing and rotating means 700 includes a second rotating motor 710, a third rotating shaft 720, a rotating screw 730a, a feeding net 730b, a coupling plate 740, And a discharge pipe 790. The crushable cover part 750 has a first coupling part 760 and a second coupling part 760. The first coupling part 750 has a first coupling part 760, The third rotating shaft 710 is disposed outside the crushing hopper 600 and is provided inside the housing 100. The power of the second rotating motor 710 is transmitted to the third rotating shaft 720 connected to the second rotating motor 710, As shown in FIG.

13 to 15, the rotating screw 730a is disposed in the first receiving portion 610 of the crushing hopper 600 in the transverse direction, one end of which is connected to the third connecting shaft 720, Has a structure protruding outside the crushing hopper (600).

A spiral conveying blade 731 is formed from one end of the rotation screw 730a to the other end of the rotation screw 730a. The spiral conveying blade 731 may be gradually reduced from the outer diameter of one end to the outer diameter of the other end, The outer diameter of the rotating screw 730a located in the receiving portion 610 may be such that the outer diameter of the rotating screw 730a protruding outside the crushing hopper 600 gradually decreases with the same outer diameter, In the present invention, the outer diameter of the rotating screw 730a located in the first receiving portion 610 of the pulverizing hopper 600 has the same outer diameter and the other end of the rotating screw 730a projected to the outside of the pulverizing hopper 600 And the outer diameter is gradually reduced.

As shown in FIGS. 13 to 16, the delivery nets 730b have a tubular shape having an inner space and an inner diameter equal to each other, and the rotation screws 730a are disposed in the inner space, and the rotation screws 730a, As shown in FIG. 16, an opening 733 is formed at an upper portion in the longitudinal direction from the upper end to the upper end of the outer circumferential surface, and the outer circumferential surface to the other end has a closed shape, And a plurality of second outflow holes 732 are formed on the whole.

That is, the opening 733 of the conveying net 730b has a length corresponding to the length of the second inlet 501 of the inlet guide plate 500 and is connected to the second inlet 501 of the inlet guide plate 500 The discharged food waste that has been discharged is introduced into the opening portion 733 of the transfer net 730b.

The inner diameter of the conveying net 730b and the outer diameter of the conveying blade 731 of the rotary screw 730a are closely formed so that the broken food waste flowing into the opening portion 733 of the conveying net 730b is rotated, The leachate is transferred to the second accommodating portion 620 of the crushing hopper 600 through the second outflow hole 732 and discharged to the leachate discharge hole 621 by the transfer blade 731 of the crusher 730a do.

13 and 14, the conveying net 730b is horizontally disposed in the first receiving portion 610 of the crushing hopper 600 while receiving the rotating screw 730a, And one end of the conveying net 730b is brought into close contact with the first connection hole 611 formed on one side of the crushing hopper 600. The other end of the conveying net 730b is connected to the crushing hopper 600, The end of the rotating screw 730a protruding outside the first connection hole 611 formed on the other side of the conveying net 600 is accommodated and positioned and the flange protruding in the circumferential direction on the outer circumference of the other end of the conveying net 730b 734 are coupled to one side of a crushing cover portion 750 coupled to the other side of the crushing hopper 600 and a crushing cover portion 750 coupled to the flange 734 of the conveying netting 730b, (753) are formed on the other side of the crushing hopper (600).

13 and 17, the crushing cover part 750 extends the other end of the rotation screw 730a projected outward through the third connection hole 741 of the coupling plate 740, The first discharge hole 751 of the crushing cover part 750 is formed in a shape corresponding to the outer peripheral surface of the other end of the rotating screw 730a, A first discharge hole 751 is formed in the center of the first discharge hole 751 so that the inner diameter of the first discharge hole 751 gradually increases from the central inner diameter of the one surface to the inner diameter of the central portion of the first discharge hole 751, A plurality of hemispherical fracture channel grooves 752 are formed on the inner circumferential surface of the first discharge hole 751 so that food waste directed to the other end of the rotating screw 730a is supplied to the rotating screws 730a ) Feeding blade formed at the other end The food waste entering the first discharge hole 751 due to the spiral direction of the first discharge hole 751 and accumulated in the narrow first discharge hole 751 in the discharge direction is pressurized, And is moved along the breaking channel groove 752 to be introduced into the crushing hopper 600.

Between the outer periphery of the spiral conveying blade 731 formed at the other end of the rotary screw 730a and the shredding passage groove 752 formed in the first discharge hole 751 of the shredding cover part 750, The food wastes are rotated and the food wastes collide with the shredding channel grooves 752 to induce pulverization.

13, 15 and 18, the first discharge guide plate 760 has one side connected to the other side of the crushable cover part 750, and the first discharge side of the crushable cover part 750, A second discharge hole 761 is formed on one surface of the first discharge inducing plate 760 so that a part of the second discharge hole 761 is communicated with the second discharge hole 761. If a second discharge hole 761 is formed on one surface of the first discharge inducing plate 760, , The other side corresponding to the first discharge hole 751 of the crushable cover part 750 has a longer residence time of the food waste introduced into the first discharge hole 751 and only the finer crushed food garbage is discharged from the second discharge And is discharged to the hole 761.

As shown in FIGS. 13, 15 and 18, the first discharge guide plate 760 and the second discharge guide plate 760 are provided so as to adjust the distance between the second discharge holes 761 of the first discharge guide plate 760. [ The discharge control plate 770 is coupled to the other surface of the first discharge inducing plate 760 and the discharge control plate 770 is coupled to the crushing cover portion 750, Shaped third discharge hole 771 communicating with the first discharge hole 751 of the first discharge outlet 760 and a coupling means (not shown) through which the first discharge outlet 760 and the breakage cover portion 750 are fastened And a plurality of long bolt holes (772) spaced from the circumference corresponding to the fastening means are formed in an arcuate shape.

18, the second discharge hole 761 of the first discharge guide plate 760 and the third discharge hole 771 of the discharge control plate 770 have the same shape, A partition tab 773 is formed in the middle of the third discharge hole 771 so as to bisect the discharge hole 771.

13, 15 and 18, the second discharge guide plate 780 is connected to the other surface of the discharge control plate 770 to communicate with the third discharge hole 771 of the discharge control plate 770, The fourth waste discharge hole 781 is formed in the discharge control plate 770 and the pulverized food waste discharged through the third discharge hole 771 of the discharge control plate 770 is discharged through the fourth discharge hole 781, The tubular discharge pipe 790 is connected to the discharge hole 781 so that the pulverized food waste discharged through the fourth discharge hole 781 is discharged to the outside through the inner pipe of the discharge pipe 790.

As described above with reference to the above embodiments, the food processor can be variously modified and manufactured. It is possible to manufacture the food processor by limiting the principle of the present invention to the structure of the present invention through the embodiments, It can be easily manufactured by design change.

Food processor 10 housing 100 first inlet 101
Closing hopper 200 discharge hole 201 crushing and rotating means 300
Rotating plate 310 First outflow hole 311 Fastening hole 312
Shredding blade portion 313 outlet guide plate 320 first binding hole 321
Guide plate 330 first through hole 331 support portion 340
Second through hole 341 Socket portion 342 Third through hole 343
Sealing portion 344 Power transmitting member 350 First rotating motor 351
First rotation shaft 352 First connection part 353 Second connection part 354
Second rotation shaft 355 Support plate 360 Second binding hole 361
Bonding rod 370 Connection cover part 400 Input guide plate 500
Second inlet port 501 crushing hopper 600 first receiving portion 610
First connecting hole 611 second receiving portion 620 connecting supporting plate 630
Second connection hole 631 crushing rotation means 700 second rotation motor 710
Third rotating shaft 720 Rotating screw 730a Transferring mesh 730b
The conveying blade 731 the second outlet hole 732 the opening 733
Flange 734 coupling plate 740 third coupling hole 741
Crushing cover portion 750 first discharge hole 751 shredding flow groove 752
First outlet draft 760 Second outlet 761 Release throttle 770
Third Exhaust Ball 771 Bolt Ball 772 Second Exit Drill 780
Fourth Exhaust Hole 781 Exhaust Hole 790

Claims (4)

A housing having a first inlet formed at an upper portion thereof to open and close the first inlet so as to allow food containing moisture to flow through the upper portion while forming a space therein,
A loading hopper having an upper portion opened to be connected to a charging port of the housing and having a pair of discharge holes provided in the upper portion and the lower portion of the lower surface of the lower portion,
A crushing rotating means installed in the housing to rotate the food waste to separate the food waste and to separate the leachate,
A connection cover portion having a pair of discharge holes formed in the charging hopper,
And a second input port formed at a position corresponding to an opened lower portion of the connection cover portion, which is located below the connection cover portion,
A second accommodating portion formed with a leachate outlet hole communicating with the lower side of the first accommodating portion and gradually decreasing the inside diameter to discharge the leachate at the lower center, And a plurality of first connection holes communicating with the first connection holes so as to correspond horizontally with the first connection holes, respectively, the first connection holes being formed on both sides of the first accommodation portion, A crushing hopper having a connecting support plate on which two connecting holes are formed; And
The grinding hopper according to any one of claims 1 to 3, wherein the pulverized food waste is supplied to the first receiving groove of the grinding hopper in a lateral direction, And rotating means for rotating the food waste. The method according to claim 1,
The fracture-rotating means is located on the inner bottom surface of the charging hopper, and the outer peripheral end is disposed between the upper discharge hole and the lower discharge hole on the lower surface of the charging hopper, and a plurality of first discharge holes penetrating downwardly A disk-shaped rotary plate having a fastening hole formed at the center thereof,
And an outer circumferential end of the outer circumferential end is in close contact with an inner circumferential surface of the loading hopper located at a lower portion of the lower discharge hole of the charging hopper. One end of the outer circumferential end is incised while being connected to a main end of the second charging port of the charging induction plate, And an outlet guide plate having a first binding hole formed at a center thereof to communicate with a second inlet through which a space between an inner circumferential surface of the inlet hopper spaced apart from the one end is communicated with a coupling hole of the rotary plate,
A guide plate in the form of a horizontal plate having a first through hole formed at the bottom of the outlet guide plate and connected to or positioned at the side of the crushing hopper,
A second through hole vertically communicating with each of the first through holes of the guide plate and the first binding holes of the outflow induction plate is formed while the lower portion of the guide plate is coupled to the upper portion of the guide plate, A support portion coupled to the upper side of the through hole and having a socket portion formed with a third through hole penetrating from the upper portion to the lower portion so as to communicate with the second through hole of the guide plate while being transferred to the first binding hole of the outflow inducing plate; And
A first rotation motor which is located at a lower portion of the guide plate and which is coupled to a lower surface of the guide plate and has a first rotation axis protruding upward upward and exposed to an upper portion of the first aperture of the guide plate, A first connecting part connected to the first rotating shaft, a second connecting part engaging with the first connecting part, and a second connecting part connected to the second connecting part, the other end passing through a third through hole formed in the socket part of the supporting part, And a power transmitting member formed of a first rotating shaft and a second rotating shaft coupled to a fastening hole of the rotating plate. 3. The method of claim 2,
The rotary plate is arranged and rotated in an inclined manner in the lower side of the loading hopper,
The outflow induction plate is also formed at a slope corresponding to the inclination of the rotary plate. The outer peripheral end of the lower end of the inclined outflow induction plate is directed toward the discharge hole of the charging hopper. At this time, And a second inlet port integrally connected to a peripheral end of the plate,
And a first end of the inflow induction plate, which is located at a lower portion of the inflow induction plate, extends horizontally from one end of the infusion induction plate corresponding to a position where the one side of the inflow induction plate is connected to the inner end of the second infusion port of the infusion induction plate, A support plate is provided,
And a second binding hole is formed at the center of the support plate so as to communicate with the first binding hole formed at the center of the outflow inducing plate, wherein a binding rod is formed so as to be connected and in communication with the first binding hole and the second binding hole And a controller for controlling the operation of the food processor. The method according to claim 1,
The crushing and rotating means includes a second rotating motor disposed outside the crushing hopper,
A third rotary shaft connected to the second rotary motor;
One end of which is connected to the third rotary shaft and is inserted into the crushing hopper in the transverse direction through the first connection hole formed on one side of the crushing hopper and passes through the second connection hole of the connection supporting plate formed in the first receiving portion of the crushing hopper A cylindrical rotating screw having an end protruding through a first connection hole formed on the other side of the crushing hopper and having a spiral conveying vane from one end to the other end peripheral surface and gradually decreasing the inner diameter toward the other end in the discharge direction;
A plurality of second outflow holes are formed on an outer circumferential surface of the rotary shaft so that the rotary screw is positioned inside the tubular shaft and a tubular shape having a length corresponding to the length of the rotary screw is formed, And the other end formed with a flange protruding in a circumferential shape on the outer periphery in close contact with the hole is positioned at the end of the rotating screw protruded through the first connection hole formed on the other side of the crushing hopper, And the other outer peripheral surface from the other end to the other end is formed of a conveying net having a closed form,
A coupling plate for forming a third connection hole having a larger inner diameter than an inner diameter of the first connection hole, a third connection hole formed on one side of the other side of the crushing hopper so as to communicate with the first connection hole,
And a second screw connected to the other side of the crushing hopper and having one side inserted through the third connection hole of the coupling plate and connected to the flange of the conveying net, Wherein the first discharge hole has an inner diameter gradually reduced from the first discharge hole toward the second discharge hole and a hemispherical fracture channel groove formed in a lengthwise direction from one end of the first discharge hole to the other end thereof, A crushing cover portion formed on the inner circumferential surface of the discharge hole,
A first discharge guide plate having one side connected to the other surface of the crushable cover part and having a hemispherical second discharge hole formed on one surface thereof to communicate with a part of the first discharge hole of the crushable cover part;
A third discharge hole communicating with the first discharge hole of the crushing cover portion is formed at one side of the first discharge outlet plate and connected to the fastening means for fastening the first discharge outlet plate and the crushing cover portion, A discharge control plate having a plurality of long bolt holes spaced apart from each other and formed in an arcuate shape,
A second discharge outlet plate having one side connected to the other side of the discharge control plate and having a circular fourth discharge hole communicating with the third discharge hole of the discharge control plate; And
And a tubular discharge pipe connected to the other surface of the second discharge outlet plate and in communication with the fourth discharge hole.

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