KR20170035541A - A agitate dry apparatus for foodstuffs trash - Google Patents

Abstract

The present invention relates to a food waste grinding and drying apparatus which releases food waste inserted through a hopper installed at an inner upper side of a body after cutting and drying the food waste. More specifically, provided is a food waste grinding and drying apparatus which comprises: a body; a radiating plate and a blower fan; a grinder part; a drying/stirring device part; a cooling fan; a purification container; a moisture delivery part; a filtering part; and a first opening/closing valve.

Description

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

More particularly, the present invention relates to a pulverizing and drying apparatus for pulverized food, and more particularly, to a pulverizing and drying apparatus for pulverizing and discharging food waste generated in a household or a restaurant, And more particularly, to a pulverized and dried waste food pulverizing and drying apparatus.

Examples of apparatuses similar to the pulverized and dried pulverized and dried food apparatus according to the present invention include domestic utility model registration No. 20-216275, utility model registration No. 20-335059, utility model registration No. 20-345711, -80139, and Patent Registration No. 10-319709 are known.

[0003] In a " waste food processing apparatus ", a waste food is introduced through a hopper installed on the upper side of a body formed of a rectangular parallelepiped, and the waste food is passed through a pair of pulverizing blades, The pulverized food waste is transported to a transporting screw through which the water is passed through the filter net during the transportation so that a part of the water is discharged through the discharge port at the end and dropped into the drying container. (With stirring) to dry by wind blowing.

However, since the waste food pulverized by the pulverizing blade is conveyed by the conveying screw, the pulverized waste food conveyed by the conveying screw is passed through the upper side of the filter net by the complicated structure, (Water) can not be completely removed because it is dried by the wind blowing simply by discharging it into the drying container in the state that it can not be removed. In order to completely remove the moisture, there is a problem that the drying time is consumed too much have.

Further, in the Utility Model Registration No. 20-335059, "disposal of waste food treatment" is a method in which the waste food introduced through the hopper installed on the upper side of the body is pressurized by a pressurizing rotary member rotated by a motor, The lead screw is passed through the lead screw, cut through the groove of the cutter provided in the middle of each lead screw, and then discharged through a compression cap at the tip thereof into an agitating cylinder. While the waste food being discharged is stirred in the compression housing, And then drying it.

This is because the structure and the process are complicated because the compression housing for crushing and crushing the waste food and the stirring bar (drying barrel) for drying the pulverized food are formed in a separated form, and when the waste food is crushed by the crushing blade, The pulverized food is not smoothly passed through the pulverizing groove formed in the outer periphery of the cutter. Therefore, there is a problem that the pulverizing ability is lowered. In addition, since the pulverized food put in by the pressurizing device installed in the hopper is compressed and compressed, However, there is a problem of polluting the sewage by simply discharging the wastewater generated when crushing and crushing, and since the pressurizing, crushing and stirring are performed by the separately installed motor, the power consumption is increased, There is a problem.

In addition, in the Utility Model Registration No. 20-345711 entitled "Waste Food Drying Device ", waste foods to be introduced into the drying barrel (compression pulverizing barrel) through the hopper are repeatedly agitated (agitated) And blowing wind by a blower while heating by a surface heating element mounted on the upper and lower surfaces of the drying cylinder, and performing stirring, cutting and drying for a certain period of time in the drying cylinder The generated moisture (wastewater) is discharged through a drain hole provided on the lower side (inclined surface) of the drying oven, and is discharged through a discharge hole formed above the bottom surface of the drying oven when drying is completed. However, this is because the conveying screw provided with the cutter is inclinedly mounted in the inside of the drying barrel (compression pulverizing barrel) so that the waste food is simply raised by the conveying screw, and when the conveying screw is rotated, However, there is a problem in that the waste food can not be cut smoothly by merely separating the waste food rising up by the screw and the waste food located around the waste food. There is a problem that the drying time is long and the drying efficiency is low and the electric power is consumed.

In addition, JP-A-10-2002-80139 entitled "Waste Food Treatment Apparatus" is a system in which waste food is filled into a chamber equipped with a stirrer and fermented, and the heat obtained by operating the burner with gas generated during fermentation is utilized for fermentation It will be possible.

However, in order to use the gas generated from the waste food as a raw material for the burner, it is necessary to fill the waste food in a large amount to produce a sufficient amount of gas, because the fermentation time of the waste food is fermented, Since the heat exchanger having the burner is required to be installed, the structure is complicated and the operation can not be easily performed.

In the "waste food treatment apparatus" of Patent Registration No. 10-319709, a waste water to be supplied by providing a transfer passage to an outlet of a sink is pulverized by a pulverizer provided at the tip of the transfer passage and supplied to a dehydrating screen, The waste food is vertically raised by a screw vertically installed in the screen so that the water is dehydrated. The dehydrated sewage is drained through a drain pipe. The waste food moved to the upper side of the dehydrating screen is dropped into a treatment tank And is dried by a heater provided on the bottom of the treatment tank while being stirred.

However, since it is directly connected to the sink of the sink, it is necessary to increase the capacity of the drain tank because all the washing water generated when washing the tableware is passed therethrough causes a problem of occupying a lot of space in the sink, and a dehydrating tank and a drying tank are separately formed Therefore, the structure is complicated and bulky, and the waste food is moved upward by the internal transfer screw of the vertically installed dehydration screen to dehydrate the waste. However, since the waste food is simply raised, There is a problem that can not be removed.

In addition, in the case of Korean Patent No. 10-0757401 for solving the problems of the above-mentioned inventions or inventions, the above-mentioned problems are solved to some extent. However, there is another problem that arises in the problem solving process. In the course of sucking and cooling the inside air of the drying unit, the moisture due to moisture is continuously formed in the rear part of the cooling fan, .

The moisture thus generated includes various components of the food due to the pulverization of the waste food and the smell thereof. Therefore, a food odor is generated not only in the inside of the pulverizing and drying apparatus, but also outside the pulverizing and drying apparatus, and eventually there is a problem that odor is generated.

Therefore, it has a disadvantage that it is not easy to use hygienically and cleanly the waste food pulverizing and drying apparatus.

Korean Patent No. 10-0757401

The present invention relates to a pulverizing and drying apparatus for effectively collecting moisture generated in a pulverizing and drying apparatus and then purifying and discharging the water again, It is another object of the present invention to provide a food pulverizing and drying apparatus.

The present invention relates to a grinding and drying apparatus for cutting, drying and discharging waste foods introduced through a hopper installed on the upper side of a body, the grinding and drying apparatus comprising a main body in which a hopper, a grinding apparatus and a dry- An intermediate partition for connecting the main body and the lower discharge cylinder and a discharge cylinder for storing and withdrawing a discharge drawer installed at the lower side of the middle partition and filled with cutting waste food, A heat radiating plate for radiating heat generated in the heat radiating plate to the outside; A pulverizing device for pulverizing the waste food, which is installed in the lower part of the hopper and located in the lower part of the hopper, through a pair of feeding blades provided in an inverted triangle shape inside the pulverizing container, ; A drying agitation device installed on the lower side of the crushing unit inside the main body and drying the pulverized waste food by a heater provided on both sides of the bottom while being stirred by a pair of stirring vanes installed in the stirring and drying cylinder; A shift power unit mounted on an installation frame installed in the middle of the main body to operate the pulverizing unit and the dry stirring apparatus; A cooling fan installed inside the main body for sucking the inside air of the dry agitation device and cooling the same to remove moisture; A purifying tank installed inside the main body to remove odors from the internal air cooled by the cooling fan and discharge it to the outside or re-supply the dried air to the drying agitation unit; A moisture transfer unit installed at a rear surface of the heat sink to acquire moisture generated on a rear surface of the heat sink and transfer the obtained moisture downward; A moisture storage unit communicating with the moisture transmission unit and storing moisture therein; a filtering unit installed at an upper portion of the moisture storage unit and including a filter tube for filtering moisture vaporized in the moisture storage unit; And a first opening / closing valve provided on the filtering section to prevent the gas in the moisture storage section from flowing back to the water transfer section, wherein the filter tube has a hollow shape, and a predetermined partition member is alternately arranged on the inner wall, And the upper part is closed with a lid having a plurality of grooves formed therein.

The pulverized and dried pulverized and dried pulverized and dried pulverized and dried pulverized and dried pulverized pulverized and dried pulverized pulverized and dried pulverized pulverized pulverized pulverized pulverulent pulverized pulverulent pulverized pulverulent pulverized pulverulent pulverized pulverulent pulverized pulverized pulverized pulverized pulverized pulverized pulverized pulverized pulverized pulverized pulverized pulverized pulverized Can be prevented.

1 is a partially exploded perspective view of a pulverized and dried food waste grinding and drying apparatus according to an embodiment of the present invention.
FIG. 2 is an assembled cross-sectional view of a pulverized and dried pulverized food waste drying apparatus according to FIG. 1; FIG.
3 is an exploded perspective view showing an internal structure of a pulverized and dried pulverized food waste drying apparatus according to the present invention.
FIGS. 4A to 4D are excerpts showing front and rear covers and left and right side plates for forming a pulverizing barrel in the pulverizing and drying apparatus for a pulverized food according to FIG. 1;
FIGS. 5A to 5C are excerpts showing a front and a rear cover and a storage container for forming a drying agitator in the pulverized and dried waste food pulverizing and drying apparatus shown in FIG. 1;
FIGS. 6A and 6B are views showing an input blade and a crushing blade mounted in the crusher of the pulverized and dried waste food pulverizer according to FIG. 1;
FIG. 7 is a cross-sectional view showing an assembled state of the stirring blades installed in the drying and stirring barrel of the pulverized and dried food waste grinding and drying apparatus according to FIG. 1;
FIG. 8 is a power transmission system diagram of the pulverizing unit and the drying and stirring unit in the pulverizing and drying apparatus for pulverized food according to FIG. 1;
FIG. 9 is a longitudinal sectional view showing a filter tube among the configurations of the pulverized and dried waste food pulverizing and drying apparatus according to FIG. 1; FIG.
10 is an assembled cross-sectional view of a pulverized and dried food waste grinding and drying apparatus according to another embodiment of the present invention.

It will be apparent to those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art. The scope of technical thought is not limited to the following examples. Rather, these embodiments are provided so that this disclosure will be more thorough and complete, and will fully convey the scope of the invention to those skilled in the art. As used herein, the term "and / or" includes any and all combinations of one or more of the listed items. The same reference numerals denote the same elements at all times. Further, various elements and regions in the drawings are schematically drawn. Accordingly, the technical spirit of the present invention is not limited by the relative size or spacing depicted in the accompanying drawings.

FIG. 1 is a partially exploded perspective view of a pulverized and dried food waste grinding and drying apparatus according to an embodiment of the present invention; FIG. . FIG. 2 is an assembled cross-sectional view of a pulverized and dried pulverized food waste drying apparatus according to FIG. 1; FIG. 3 is an exploded perspective view showing an internal structure of a pulverized and dried pulverized food waste drying apparatus according to the present invention. FIGS. 4A to 4D are excerpts showing front and rear covers and left and right side plates for forming a pulverizing barrel in the pulverizing and drying apparatus for a pulverized food according to FIG. 1; FIGS. 5A to 5C are excerpts showing a front and a rear cover and a storage container for forming a drying agitator in the pulverized and dried waste food pulverizing and drying apparatus shown in FIG. 1; FIGS. 6A and 6B are views showing an input blade and a crushing blade mounted in the crusher of the pulverized and dried waste food pulverizer according to FIG. 1; FIG. 7 is a cross-sectional view showing an assembled state of the stirring blades installed in the drying and stirring barrel of the pulverized and dried food waste grinding and drying apparatus according to FIG. 1; FIG. 8 is a power transmission system diagram of the pulverizing unit and the drying and stirring unit in the pulverizing and drying apparatus for pulverized food according to FIG. 1; FIG. 9 is a longitudinal sectional view showing a filter tube among the configurations of the pulverized and dried waste food pulverizing and drying apparatus according to FIG. 1; FIG.

1, the body for pulverizing and drying waste food according to the present invention comprises a main body 2, an intermediate partition 3 and a discharge drawer 9, to which various devices to be described later are mounted, And is divided into a discharge cylinder (4) capable of storing and withdrawing.

In the lower part of the rear surface of the main body 2 formed in a rectangular parallelepiped shape, a pipe network window 5 can be attached and detached. In the bottom surface of the back surface, a purging cylinder lid 6-1, (8) and the main body top cover (7) in the front and rear directions, and in particular, the bottom cover (8) of the cover cover (8) A loading port cover 8-1 is provided.

The intermediate partition 3 is interposed between the bottom of the main body 2 and the discharge cylinder 4, which will be described in detail later, so as to be assembled integrally.

The discharge chamber 4 provided at the lower side of the middle partition 3 has an open top and a front and a discharge drawer 9 can be received and taken out from the front. The front cover 9-2 and the drawer handle 9-1 are integrally formed so that the front surface of the discharge drawer 9 is closed by the drawer front cover 9-2 and the drawer handle 9-1 is closed by the drawer handle 9-1 Can be easily taken out / stored.

As shown in FIG. 2, the installation frame 2-1 is integrally formed between the cover cover 8 and the main body top cover 7 in the inside of the main body 2, And divided into a cover 8 side and a main body top cover 7 side.

A hopper 10 formed in a trumpet shape so as to feed the waste food into the hopper 10, a crushing device 11 for crushing the waste food charged through the hopper 10, And a drying agitator unit 12 for agitating and drying the drying agitator unit 12 are vertically arranged in this order and the mounting frame 2-1 is provided with a transmission power unit 13 so that the pulverizer unit 11 and the drying agitator unit 12).

A cooling fan 14 for sucking and cooling the inside air of the drying agitator unit 12 to remove moisture is provided at the lower side of the main body top cover 7 and a cooling fan 14 for cooling the inside air cooled by the cooling fan 14 (6) for discharging it to the outside or re-supplying it to the drying agitation device (12).

A charcoal layer and a pair of filters (activated carbon filters) are provided in parallel in the purifying column 6 from the inlet side to the outlet side, the odor contained in the steam is removed by the charcoal layer, And the air is discharged to the outside (atmosphere). In particular, only the air with moisture removed by the cooling fan and charcoal layer is filtered to be discharged to the outside.

As shown in Figs. 3, 4A to 4D, and 7, the pulverizing apparatus 11 for pulverizing pulverized foodstuff, which is installed on the lower side of the hopper 10, Closing bracket 46 and a pair of input blades 44 and a crushing blade 70 disposed at the lower middle portion thereof.

4C and 4D formed symmetrically on both sides between the front cover 20-1 illustrated in FIG. 4A and the rear cover 20-2 illustrated in FIG. 4B formed symmetrically, The left side cover 20-3 and the right side cover 20-4 are integrally joined to each other so that the upper and lower surfaces are opened.

The front cover 20-1 and the rear cover 20-2 illustrated in FIGS. 4A and 4B formed in the symmetrical shape are formed as follows.

The curved portions 22 and 31 and the curved portions 23 and 32 are formed on both sides of the cover plates 21 and 30 so as to be curved outward. 24) 33 and the input blade long holes 25 and 34 are formed in parallel to the upper side and the crushing blade mounting holes 26 and 35 are formed on the lower side between them, And upper mounting holes 27-1, 27-2, 36-1, and 36-2 are formed on both upper ends of the lower mounting holes 28, 29, 37) 38 are formed in the lower mounting holes 28, 37. The lower mounting holes 28, 37 on one side are formed at higher positions than the lower mounting holes 29, 38 on the other side.

The left side cover 20-3 and the right side cover 20-4 forming the pulverizing casing 20 are provided with upper mounting holes 41 and 44 at the upper and lower ends of the curved surfaces 40 and 43, Mounting holes 42 and 45 are integrally formed and can be mounted between the front cover 20-1 and the rear cover 20-2 using mounting means such as a normal mounting bolt and nut Respectively.

The introduction blades 24 and 33 and the insertion blades 25 and 34 are installed between the front cover 20-1 and the rear cover 20-2 in the inside of the pulverizing barrel 20 formed as described above, A pair of input blades 45 are arranged side by side and the crushing blade mounting holes 26 and 35 are provided with a crushing blade 70 to form an inverted triangle shape, And the crushing blade mounting holes 26 and 35 are provided together with the opening and closing bracket 46.

The opening and closing bracket 46 is inserted between the front cover 20-1 and the rear cover 20-2 so that the opening and closing plate 47 is positioned on the lower side, 48-1 and the crushing blade mounting hole 48-2 are inserted into the front cover 20-1 and the rear cover 20-2 with the insertion blades 25 and 34 and the crush blade installation hole 26, The input blade installation holes 24 and 33 and the insertion blade installation holes 25 and 34 formed in the front cover 20-1 and the rear cover 20-2 which coincide The shaft rod 50 in which the cylindrical rod 51 and the rectangular rod 52 and the coupling rod 53 are formed in a straight line is inserted through the bushings 47-1 and 47-2 and the coupling bushing 49, The shaft rod 50 is inserted between the insertion blade installation slots 25 and 34 while the insertion blade mounting hole 48-1 formed in the mounting plate 48 on both sides of the blade bracket 46 is aligned Respectively.

A plurality of (about ten) insertion blade plates 45 as illustrated in FIG. 6A are loaded in the circular bar 52 of each shaft rod 50 so that each of the insertion blade plates 45 is located at the center The polygonal hole 45-1 can be pierced and inserted into the bar 52 of the shaft rod 50 and a plurality of blade pieces 46 are formed on the outer periphery so as to face the same direction.

Each of the binding supports 49 engaged with the binding rod 53 of each of the shaft rods 50 has a hole 49-1 and a circular hole 49-2 so as to communicate therewith, And the end of the barrel rod 52 is inserted into each hole 49-1 so as to be coupled.

The pulverizing blade mounting holes 26, 35 and 48-2, which are formed in the mounting plate 48 of the front cover 20-1 and the back cover 20-2 and the mounting bracket 46, The grinding blade 70 is inserted through the grinding pawls 74 and 47 so as to be installed, and the cutting blade 74 is inserted to be inserted inward.

The crushing blade 70 integrally has an interlocking gear 72 formed at one end of the outer circumference of the mounting rod 71 and a blade bar 73 having a small diameter at the center of the other end thereof. A plurality of cutting blades 74 are spirally formed on the outer circumference of the mounting rod 71 so that the outer circumference of the cutting blade 74 is aligned with the outer circumference of the mounting rod 71. A key groove 71-1 are formed to be coupled to the shaft 87-1 of the transmission unit 13, which will be described later in detail.

The insertion blade gear 47 is inserted into the cylindrical bar 51 of each shaft rod 50 which is exposed to the outside through the insertion blade mounting hole 24 of the front cover 20-1 and the insertion blade installation hole 25, And each of the input blade gear 47 mounted on the cylindrical bar 51 of each shaft rod 50 and the interlocking gear 72 of the crushing blade 70 exposed (protruded) by the crushing blade mounting hole 26 ) Can be connected to a chain described later so that they can be operated (rotated) in a lump.

The drying agitator unit 12 provided below the pulverizer unit 11 was formed as illustrated in FIGS. 3 and 5A to 5C.

As shown in FIG. 5C, the front and rear surfaces of the receiving cylinder 50-3, which are formed in an open shape with the upper portion and the front / rear surfaces open and the discharge space 61 formed at the upper portion of one side thereof, 50-1 and the back plate 50-2 are combined to form the dry stirring barrel 50 integrally and the front cover 50-1 and the back cover 50-2 A pair of stirring vanes 75 are mounted between the stirring vane mounting holes 52 and 53 and the stirring vane mounting holes 51-1 and 52-1 which are drilled in the respective stirring vanes 75 Can be rotated from the inside downward to the outside upward by the power means.

The front cover 50-1 and the rear cover 50-2 are provided with a pair of stirring vane mounting holes 52 and 53 at the lower side of the center of the cover plates 51 and 51-1 having a rectangular shape 54-1, 54-2, and 54-3 are formed at the upper end, respectively, and upper mounting holes 54, 54-1, 54-2, and 54-3 are formed at the upper end, And intermediate mounting holes 57 and 57-1 are formed on both sides of the upper side of the lower side respectively and heater mounting holes 55 and 55-1 are formed on both sides of the lower side.

The receiving cylinder 50-3 having the front cover 50-1 and the back cover 50-2 provided on the front and rear surfaces thereof is formed with a rectangular parallelepiped receiving cylinder 60 having a front surface, The upper and lower mounting holes 62-1 and 62-2 are formed on the upper side of the upper and lower mounting holes 64-1 and 64-2 And intermediate mounting holes 57-1 and 57-2 are formed on the upper and lower sides of both sides of the upper and lower sides and heater mounting holes 55-1 are formed on both sides of the lower mounting holes to form a heater Respectively.

The front cover 50-1, the back cover 50-2 and the receptacle 50-3 formed as described above are assembled to form an agitating and drying cylinder 50. [

The upper mounting holes 62-1 and 62-2 of the receiving cylinder 50-3 are connected to the front and rear faces of the receiving cylinder 60 in a state where the front cover 50-1 and the back cover 50-2 are connected to each other, Mounting means such as a mounting bolt rod and a nut are fastened to the upper mounting holes 54-1 and 54-4 of the front cover 50-1 and the rear cover 50-2, And a front cover 50 (see FIG. 5) that matches the lower mounting holes 64-3, 64-4, and 64-4 of the receiving box 50-3 and the intermediate mounting holes 64-1 and 64-2 -1) and the bottom mounting holes 56-1, 56-2, 56-3 and the intermediate mounting holes 57-1, 57-2 of the back cover 50-2, And an electric heater (not specifically shown) is built in the heater installation holes 63-1 and 55-1 and the heater installation holes 63-2 and 55-2, Respectively.

The stirring blade mounting holes 52-1, 53-1 and 53-1 of the front cover 50-1 and the rear cover 50-2, which face each other in the housing 50-3, The stirring stirrer 75 shown in Fig. 3 was mounted as shown in Fig. 7, respectively.

The stirring vanes 75 are formed in such a manner that a support table 77 is arranged to be gradually expanded so as to be parallel to both ends of the stirring plate 76. Mounting holes 77-1 and 77-2 are formed at the ends of the support tables 77, Respectively.

Mounting holes 77-1 and 77-2 of different stirring blades 75 are respectively fitted to the stirring blade mounting holes 52-1 and 53-1 of the back cover 50-2, The stirring vane 75 is mounted so as to freely rotate using the mounting bolt 65-1 through the washer nut 65 and the washer 65-2.

The mounting holes 77-2 of the stirring blades 75 or the mounting holes 77-1 of the stirring blades 75 are aligned with the stirring blade mounting holes 52 and 53 of the front cover 50-1, And the shaft rod 64 projecting outward (outer surface) of the front cover 50-1 is inserted through the pair of bushings 67-1 and 67-2 And the gear cover 69 is mounted on the outer surface of the front cover 50-1 at the outside of the stirring wing actuating gear 66 to protect the stirring wing actuating gears 66 .

The gear cover 69 has a pair of mounting holes 69-1 and 69-2 formed at its center so that a small diameter rod of the bushing 67-2 coupled to the end of the shaft rod 78 is inserted And an upper fixing piece 69-3 and a lower fixing piece 69-4 are integrally formed on the upper and lower ends and fixed to the outer surface of the front cover 50-1.

In the front cover 50-1, a tension adjusting gear 68 is mounted by a mounting bolt 68-2 through a washer 68-1 at the center of the stirring vane actuating gears 66, And mounted to rotate freely.

When the grinding cylinder 20 is integrally mounted on the upper side of the agitating and drying cylinder 50 assembled as described above, the lower end mounting holes 28 and 29 formed in the bottom portion of the grinding cylinder 20, The space between the outer side of the holes 37 and 38 and the upper mounting holes 54 and 54-2 formed in the front cover 50-1 of the agitation drying cylinder 50 and the rear cover 50-2 The lower end of the front cover 20-1 and the lower cover 20-2 forming the pulverizing casing 20 are mounted and fixed by mounting means such as a mounting bolt and a mounting nut in a state in which they are sandwiched between the holding rods 56, A space portion is formed between the outer surface and the inner surface of the upper end of the rear cover 50-2, which forms the stirring and drying cylinder 50.

3 is mounted on the mounting frame 2-1 provided at the center of the inside of the main body 2 and the input blade 44 and the crushing blade 45 of the crushing cylinder 20 And the agitating blades 75 of the agitating drying cylinder 50 can be operated simultaneously.

The transmission power unit 13 includes a first gear chamber 82-1, a second gear chamber 82-2 and a third gear chamber 82-3 on one side of the housing plate 81, The first gear 85 and the second gear 86 and the third gear 87 are engaged with each other to decelerate the rotation speed input to the first gear 85, 3 gear 87, as shown in Fig.

A first gear 85-1 is formed at the center of the first gear 85 so as to protrude from both sides of the first gear 85. A first gear chamber 82-1 is fitted to a rotary shaft 85-1, And the rotary shaft of the motor 15 is connected to the rotary shaft 85-1 of the other side. The second gear 86-2 is integrally formed with the large gear 86-1 and the small gear 86-2 And the small gear 86-2 is engaged with the first gear 85. The third gear 87 is meshed with the large gear 86-1 of the second gear 86, A transmission gear 87-2 is mounted on the shaft rod 87-1 of the third gear 87 protruding from the other surface of the housing plate 81 while the shaft rod 87-1 is inserted into the shaft rod 87 .

The rotational force of the transmission gear 87-2 is transmitted to the pulverizing blade 44 and the pulverizing blade 45 of the pulverizing cylinder 20 by the power transmission system shown in FIG. 50 can be operated simultaneously.

A chain ring 90 is mounted on the transmission gear 87-2 so as to be hooked from the lower side of the blade feed gear 47 on one side to the lower side from the upper side of the other blade feed gear 47 to the left side of the tension adjusting gear 68 And passed through the lower side of the side-by-side stirring wing actuating gear 66, so as to pass from the lower left side to the upper side of the transmission gear 87-2 located at the upper end.

2, the apparatus for pulverizing and drying pulverized food waste according to the present invention includes a cooling fan 14 and a purifier 6 vertically installed in a mounting table 2-1, (Heat) can be sucked through the suction pipe 18 and connected to the drying and stirring device unit 12 so that the air purified by the purifier can be discharged to the outside through the purifier bar lid 6-1 (Supply) the mixture to the inside of the main body 2 provided with the drying and stirring device parts 12 through the discharge pipe 18-1 so that the grinding device part 11 and the drying and stirring device part 12 can be heated Respectively.

On the other hand, since the above-mentioned heat sink 16 is relatively lower in temperature than the periphery, moisture may be formed on the rear surface of the heat sink 16, and moisture may eventually be generated. Since such moisture is based on the inhalation of the air inside the drying agitator unit 12, moisture and moisture contain components of various waste foods and odors. Therefore, there is a problem that the odor due to the propagation of bacteria from the heat sink 16 to the waste food pulverizing and drying device to the outside of the waste food product may be generated.

In order to solve such a problem, the moisture transfer unit 120 may be installed at the rear surface of the heat sink 16. That is, the water generated by the heat radiating plate 16 can be taken and the water taken can be transmitted downward.

More specifically, the water transfer unit 120 may include an upper transfer unit 121 and a lower transfer unit 122. The upper transfer unit 121 may be installed to contact the rear surface of the heat sink 16 while being formed to be larger than the area of the heat sink 16 so as to receive the rear surface of the heat sink 16. [

The lower transmitting portion 122 may be formed to extend downward from the upper transmitting portion 121. The lower transmitting portion 122 is positioned to be spaced rearward from the upper transmitting portion 121 by a predetermined distance, Between the portion 121 and the lower transmission portion 122, a joint C may be formed, which is inclined at an angle from above to below.

Here, since the joint portion C is formed so as to be inclined at a predetermined slope rather than vertically downward, the moisture is not directly transferred from the upper transfer portion 121 to the lower transfer portion 122, (C) for a certain period of time. That is, the minute water is not taken directly to the water storage part 111 but may be collected to have a certain viscosity and to be directed to the water storage part 111 in the joint part (C) .

However, such a joint portion C may be provided as a part of at least one of the upper transfer portion 121 and the lower transfer portion 122, or may be separately provided.

The filtering unit 110 may include a moisture storage unit 111 and a filter tube 112. The moisture storage unit 111 communicates with the moisture transmission unit 120, and moisture can be stored. The moisture storage unit 111 may be provided in an appropriate size in consideration of the size and capacity of the waste food pulverizing and drying apparatus.

The filter tube 112 is installed at the upper part of the water storage part 111 to filter moisture vaporized in the water storage part 111. A nonwoven filter 121C is provided between the filter tube 112 and the water storage part 111 or below the lid part 112a to be described later to filter the gas moving from the water storage part 111 .

Here, the filter tube 112 is hollow, and a predetermined partitioning member 121b is alternately formed along the longitudinal direction on the inner wall, and the filter tube 112 can be closed with a lid portion 112a having a plurality of grooves formed thereon.

Here, as the partition member 121b, an activated carbon filter can be applied. In this case, the gas moving from the water storage part 111 can be filtered from below to plural times along the moving direction of the gas.

The activated carbon filter may have a shape such as a circle, an ellipse, a semicircle, or a polygonal cross-section in the inside of the filter tube 112. When the partitioning member 121b is provided more densely in the inside of the filter tube 112, it is possible to more effectively filter the gas moving from the water storage part 111. [

The first opening and closing valve B1 is provided on the filtering part 110 to prevent the gas of the water storage part 111 from flowing back to the water transfer part 120. [ The first opening / closing valve P1 may include a solenoid valve or the like.

The housing cover H may be mounted on the rear surface of the water transmission portion 120 and the lower end may be formed on the upper portion of the filtering portion 110. Accordingly, it is possible to prevent the odor inside the pulverizing and drying device of the waste food product from leaking to the outside, and to prevent the external impact. The filtering unit 110 may be removably detachable from the waste food pulverizing and drying apparatus and the housing cover H.

10 is an assembled cross-sectional view of a pulverized and dried food waste grinding and drying apparatus according to another embodiment of the present invention. Hereinafter, the present invention will be described by focusing on differences from the above-described embodiment of the present invention.

10, the waste food pulverization and drying apparatus according to another embodiment of the present invention includes a suction motor 130 ', an ultrasonic vibration unit 140', a second opening / closing valve B2 ', an air filter F '), and a control unit (not shown).

The suction motor 130 'is installed so as to communicate with the water storage part 111' and the pipe P1 ', and sucks moisture generated on the rear surface of the heat sink through the water transfer part 120' And can be moved more quickly and easily to the storage unit 111 '.

At this time, when the suction motor 130 'is operated, it is preferable that the upper portion of the filter tube 112' is closed after being sealed by a separate detachable sealing means. This is to prevent the outside air from flowing into the filter tube 112 'and to prevent the suction force of the water transducer 120' from dropping.

The ultrasonic vibration unit 140 'may apply ultrasonic vibration to the moisture stored in the moisture storage unit 111'. Therefore, moisture stored in the moisture storage unit 111 'can be vaporized more quickly and easily, so that water can be stored in the moisture storage unit 111' for a long time, .

The water level sensor S 'may include a water storage unit 111' to sense the level of the water stored in the water storage unit 111 '. Here, the water level sensor S 'is for sensing in advance that the water level reaches the position of the pipe P1' between the suction motor 130 'and the water storage unit 111'.

That is, when the moisture storage part 111 'is filled with water and flows into the suction motor 130' through the pipe P1 ', a failure of the suction motor 130' occurs. .

The second on-off valve B2 'is installed in the pipe P1' to prevent the water in the water storage part 111 'from flowing into the suction motor 130'. Similarly, the air filter F 'is installed in the pipe P1' to filter water and fine foreign substances from the water storage unit 111 ', and moisture, fine foreign substances, etc. are introduced into the suction motor 130' Can be prevented.

The control unit may cause each of the above-described configurations to perform a specific control operation under a predetermined condition. For example, in the first control operation, when water reaches a certain level in the water storage part 111 'through the water level sensor S', it senses the water level and then selects the first open / close valve and the second open / Or stop the operation of the suction motor 130 '.

On the other hand, the filter tube 112 'may be provided with an opening / closing member 112b' which can be opened or closed by an electric system, an electronic system, a hydraulic system or the like. In this case, as the second control operation, the control unit operates the suction motor 130 'while operating the opening / closing member 112b' to maintain suction force on the water transfer unit 120 'of the suction motor 130' So that the filter tube 112 'can be blocked from the outside.

Hereinafter, the pulverized and dried pulverized and dried food pulverizer 1 according to the present invention will be used in a home or a general restaurant, and the operation of the apparatus will be described.

When a switch (not specifically shown) provided in the pulverized food waste grinding and drying apparatus 1 is operated to supply power, the motor 15 mounted on the mounting table 2-1 is operated.

When the motor 15 is operated, the crushing blade 70 rotates at high speed together with the first gear 85 of the transmission unit 13 directly connected to the rotation shaft of the motor 15, The large gear 86-1 and the small gear 86-2 of the second gear 86 are rotated by the rotation of the first gear 85 of the second gear 86, 87 are rotated (decelerated rotation) by decelerating the rotation speed.

When the third gear 87 is rotated at a reduced speed, the transmission gear 87-2 mounted on the shaft rod 87-1 of the third gear 87 rotates. When the transmission gear 87-2 rotates, the chain ring 90 revolves in the counterclockwise direction. When the chain ring 90 revolves, The input blade gears 47 of the input blade 44 are rotated respectively and at the same time the tension adjusting gear 68 is rotated and then the stirring blade operating gears 66 arranged in parallel to the stirring and drying cylinder 50 .

When the input blade gears 47 are rotated in parallel to the pulverizing cylinder 20, the input blades 45 mounted on the prongs 52 rotate while the shaft rods 50 rotate. In particular, The chainring 90 passes through the lower side of the input blade gear 47 located on the left side and passes over the upper side of the input blade gear 47 located on the right side so as to reciprocate, The grinding blade 70 is rotated at a high speed in the clockwise direction.

Further, the stirring vane actuating gears 66 arranged in parallel to the stirring and drying cylinder 50 are rotated, and the stirring vane 75 mounted on the shaft rod 78 rotates in the same direction.

The cooling fan 14, the blowing fan 17 mounted on the heat sink, and the heater (not specifically shown) mounted on both sides of the lower end of the drying agitation cylinder 50 are operated.

In the state where the respective devices are operating as described above, the food produced in the home or restaurant is squeezed by hand, and the moisture is removed through the hopper 10 in a state where the moisture is removed.

The waste food is charged into the center by the pair of input blades 45 rotating clockwise and counterclockwise, and is introduced into the lower side. The waste food is collected at the center by the pair of input blades 45, The food is crushed by the crushing blade 70 rotating at a high speed and the crushed food particles that have been crushed and densely dropped into the inside of the stirring and drying cylinder 50.

The pulverized waste food particles falling into the inside of the agitating and drying cylinder 50 are mounted in parallel to the half-wing actuating gears 66 and are pounded (agitated) by a rotating agitating blade 75, The pulverized waste food particles agitated by the agitating blades 75 are heated by the stirrer drying drum 50 in which the heat of the heater is transferred to the agitated drying drum 50, Lt; / RTI >

The pulverized waste food particles which have been crushed by the crushing blade 70 and passed through the input blade 45 as described above are agitated by the agitating blades 75 and the stirring and drying cylinder 50 A part of the heat is released to the space between the pulverizing cylinder 20 and the stirring and drying cylinder 50 separated by the interval maintaining single rod 56. [

When the cooling fan 14 is operated, the heat and moisture generated in the stirring and drying cylinder 50 are sucked and cooled, and the heat and moisture to be sucked and cooled are supplied to the purifying cylinder 6 The odor is removed while the odor is removed and the heat is discharged to the outside through the telephone case lid 6-1 or through the discharge pipe 18-1 to the side of the pulverizer unit 11, Thereby preventing the cake 50 from being heated.

The waste food particles completely dried in the stirring and drying cylinder 50 are lifted up by the rotating stirring vane 75 and the discharged space 61 pierced on one side of the receiving cylinder 60 And discharged into the discharge drawer 9 of the discharge cylinder 4 to be filled.

When the waste food particles are completely collected and fall into the discharge drawer 9, when the waste food particles are completely dried, the switch (not specifically shown) is reversely operated (OFF) Thereby stopping the operation of the pulverized and dried waste food pulverizer 1 according to the present invention.

In the state where the operation of the pulverization and drying apparatus for pulverized food according to the present invention is stopped, the discharging drawer 9 is taken out to dry (empty) the charged waste food particles, and the empty discharging drawer 9 is discharged (4).

The apparatus for pulverizing and drying the pulverized food waste according to the present invention repeatedly performs the above-described process while repeatedly performing the process of feeding pulverized food, cutting, stirring, drying and discharging the pulverized food, Can be processed.

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. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1: Food waste trash drying device 2:
4: Emptying box 5: Watch window
6: canister 9: outlet drawer
10: hopper 11: crushing unit
12: Dry stirrer unit 13: Power unit
14: cooling fan 15: motor
16: heat sink 17: blower
20: Grinding cylinder 46: Opening and closing bracket
44: input blade 110, 110 ': filtering part
111, 111 ': moisture storage unit 112, 112': filter tube
112a, 112a ': lid part 120, 120': a water-
121, 121 ': upper conveying portion 122, 122': lower conveying portion
130 ': Suction motor 140': Ultrasonic vibration section
H. H ': Housing cover B1, B1': First open / close valve
B2 ': second opening / closing valve P1': piping
F ': Air filter S': Water level sensor

Claims (7)

1. A pulverizing and drying apparatus for cutting, drying, and discharging waste foods introduced through a hopper installed on the upper side of a body,
The body includes a body having a hopper, a pulverizing device, and a drying and stirring device installed therein, an intermediate partition for connecting the main body and the discharge compartment on the lower side, and a discharge And a discharge cylinder for storing and withdrawing the drawer,
A heat sink installed on a rear surface of the main body and discharging heat generated from the inside to the outside, and a blowing fan installed on the heat sink;
A pulverizing unit for pulverizing the waste food charged through the hopper in the main body;
A drying agitator unit for agitating the pulverized waste food charged in the main body and drying the pulverized waste food by a heater installed on both sides of the bottom;
A cooling fan installed inside the main body to cool the inside of the drying and stirring device to cool the inside of the drying and stirring device;
A purifying tank installed in the main body to remove odors from the inside air cooled by the cooling fan and discharge the outside air to the outside or re-supply to the drying and stirring unit;
A moisture transfer unit installed at a rear surface of the heat sink to acquire moisture generated on a rear surface of the heat sink and transmit the obtained moisture downward;
A moisture storage unit for storing the moisture and a filter tube installed at an upper portion of the moisture storage unit and filtering the vaporized gas in the moisture storage unit, ; And
And a first open / close valve provided on the filtering unit to prevent the gas in the moisture storage unit from flowing back to the moisture transfer unit,
Wherein the filter tube is hollow and has a predetermined partitioning member formed on the inner wall alternately along the longitudinal direction and closed by a lid portion having a plurality of grooves formed thereon. The method according to claim 1,
A nonwoven filter is provided between the filter tube and the water storage part or below the lid part to filter the gas moving from the water storage part,
Wherein the partition member filters the gas moving from the moisture storage portion as an activated carbon filter. The method according to claim 1,
Further comprising a suction motor installed to communicate with the water storage unit and the pipe and sucking the moisture generated on the rear surface of the heat sink through the water transfer unit to move the moisture to the moisture storage unit, . The method of claim 3,
A water level sensor for sensing the level of the water stored in the water storage,
A second open / close valve installed in the pipe to prevent the moisture in the water storage part from flowing into the suction motor,
Further comprising an air filter installed in the pipe for filtering the moisture and fine particles of the water storage unit. The method according to claim 1,
Further comprising an ultrasonic vibrator for applying ultrasonic vibration to moisture stored in the moisture storage unit to vaporize the moisture. The method according to claim 1,
A suction motor installed to communicate with the water storage unit through a pipe and sucking the moisture generated on the rear surface of the heat sink through the water transfer unit to move the moisture to the moisture storage unit;
A water level sensor for sensing the level of the water stored in the water storage,
A second open / close valve installed in the pipe to prevent the moisture in the water storage part from flowing into the suction motor,
An air filter provided in the pipe for filtering the moisture and fine particles of the water storage,
Further comprising a control unit for controlling operations related to the waste food treatment,
The control unit locks at least one of the first opening / closing valve and the second opening / closing valve and stops the operation of the suction motor when it is detected that the moisture reaches the predetermined water level in the water storage unit through the water level sensor. The drying device for waste food. The method according to claim 6,
Further comprising an opening / closing member for opening / closing the filter tube at an upper portion of the filter tube,
Wherein when the suction motor is operated, the control unit closes the filter tube to keep the suction force applied to the moisture transmission unit by the suction motor so that the filter tube is sealed from the outside, A device for drying waste food that performs operations.

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