KR101434035B1 - Compression apparatus of waste - Google Patents

Abstract

The present invention relates to a waste compaction apparatus, and more particularly, to a waste compaction apparatus that can collect waste shells of garlic in one place and compress the waste so that the waste can be easily treated.
A feeding unit (100) for allowing the garlic shell (10) to be fed; A partitioning unit (200) for partitioning the envelope (10) supplied through the supply unit (100); At least one storage unit (300) in which the envelope (10) supplied from the partition unit (200) is stored; A compression unit (400) which is moved to each of the plurality of storage units (300) and flows inside from the storage unit (300) to compress the envelope (10) inside the storage unit (300); And a body unit 500 for allowing the compartment unit 200, the storage unit 300, and the compression unit 400 to be operated while being mounted.

Description

[0001] COMPRESSION APPARATUS OF WASTE [0002]

The present invention relates to a waste compaction apparatus, and more particularly, to a waste compaction apparatus that can collect waste shells of garlic in one place and compress the waste so that the waste can be easily treated.

Garlic, which is used as a spice in many foods and has been scientifically proved to have pharmacological effects, is separated from the body of garlic because the shell of the protective layer surrounds the body. Thus, Is said to be peeled off.

Garlic is peeled dry or wet depending on whether it is peeled off in a dry condition or dry. The dry garlic peeler is rubbed by a rubber roller, so there is a limitation of garlic peeling and damage to garlic Most garlic peeling machines have been used in recent years because of the problem of garlic peeling.

However, when the garlic peeler is peeled by using the wet garlic peeling machine, the garlic shell is very heavy because it contains a large amount of water, and its volume is large, so that it is difficult to dispose of the garlic shell.

Further, even when a dry garlic peeling machine is used, a method of incinerating the garlic shell to dispose of the garlic shell is used, so that the problem of causing environmental pollution still occurs.

The garlic peel that is peeled off from the garlic is difficult to recycle, so it has to be discarded. However, there is a problem in that it takes much time and labor to dispose of the garlic shell.

Registration of Patent Literature Utility Model 20-0306226

It is an object of the present invention to provide a waste compaction device for collecting garbage bark in a convenient place and compressing it for disposal.

An object of the present invention is to provide a waste compaction device capable of compressing and disposing a large amount of garlic shell at the same time to dispose of a garbage shell at the same time, and to reduce equipment cost.

It is an object of the present invention to provide a waste compaction device that can easily compress and dispose of a garlic shell while securing safety according to the operation.

The waste compaction apparatus according to the present invention comprises: a supply unit (100) for transferring a garlic shell (10); A partitioning unit (200) for transferring the envelope (10) while the conveyance path of the envelope (10) supplied through the supply unit (100) is partitioned; At least one storage unit (300) in which the envelope (10) supplied from the partition unit (200) is stored; A compression unit (400) which is moved to each of the plurality of storage units (300) and flows inside from the storage unit (300) to compress the envelope (10) inside the storage unit (300); And a body unit 500 for allowing the compartment unit 200, the storage unit 300, and the compression unit 400 to be operated while being mounted.

The storage unit 300 includes a storage pack 310 disposed at a lower portion of the compression unit 400 to allow the envelope 10 to be laminated and stored therein, A storage tank 320 in which the storage pack 310 is formed in a polygonal column shape and upper and lower portions are opened and a storage tank 320 connected to the storage tank 320 and the body unit 500, And an ascending and descending unit 330 for ascending and descending the reservoir 320.

The lifting and lowering unit 330 includes a reservoir cylinder 332 provided in the body unit 500 to move up and down the reservoir 320 and a reservoir cylinder 332 disposed above the reservoir cylinder 332, And a connection bolt 336 formed at a lower portion of the body unit 500 and protruding from the connection piece 334 to control the lowering of the reservoir 320 A lower limit switch 331 and an upper limit switch 333 which is formed on the upper portion of the body unit 500 and controls the lifting and lowering of the reservoir 320 when the shorting bolt 336 contacts the lower limit switch 331.

The compression unit 400 includes a reciprocating roller 410 formed at an upper portion of the body unit 500 and reciprocating horizontally at an upper portion of the body unit 500, A compression cylinder 420 which is formed to extend up and down in a vertical direction while being extended and formed to surround the lower portion of the compression cylinder 420 and is lifted up and down in the longitudinal direction of the reservoir 320 in the reservoir 320, A pressing plate 430 for pressing the outer casing 10 inside the storage pack 310 and a pressing plate 430 for pressing the outer circumference of the body unit 500 to define a limit position in which the reciprocating roller 410 is horizontally conveyed in the body unit 500, And a horizontal limit switch 440 formed at both ends of the upper part of the upper panel 500.

The supply unit 100 includes a pulley 114 that is rotated by power supplied by a motor 112 and a belt 116 that is rotated by the pulley 114, And is conveyed while being supported on the upper surface of the belt 116 to be supplied to the partition unit 200.

The supply unit 100 is configured to allow the air inside the pipe-shaped transfer pipe 122 to flow to the steel material so that the outer skin 10 is fed into the transfer unit 122 while being supplied to the partition unit 200 (Not shown).

The partition unit 200 includes a housing 210 for collecting the envelope 10 supplied from the supply unit 100 and a housing 210 for housing the envelope 10, A plurality of discharge tubes 220 formed in the housing 210 so as to be discharged through the discharge tube 220 and one or more discharge tubes 220 selected from a plurality of the discharge tubes 220 while being disposed inside the housing 210, A partition plate 230 which is connected to the partition plate 230 so that the partition plate 230 is pivotally moved in the housing 210 and a pivot shaft 240 And a sub motor 250 that provides power to rotate the rotary shaft 240 bidirectionally.

The plurality of discharge tubes 220 includes a screw-type conveyance screw 222 that operates to allow the envelope 10 to be conveyed to the storage unit 300, And the partitioning unit 200 includes a plurality of discharge tubes 220 which are arranged in parallel with the movement of the partition plate 230 and are connected to the discharge tubes 220, And a division switch 226 for controlling only the feed screw 222 of the feed screw 220 to be operated.

The body unit 500 includes guide grooves 510 formed at an upper portion of the body unit 500 and guiding the compression unit 400 to reciprocate horizontally at an upper portion of the body unit 500, And a control panel 520 for externally controlling operations of the supply unit 100, the partitioning unit 200, the storage unit 300, and the compression unit 400.

The waste compaction apparatus according to the present invention has the technical effect of maximizing the working efficiency by minimizing the time while collecting and compressing the garlic shell in a convenient place.

The waste compacting apparatus according to the present invention has the economic effect of being capable of compressing a large amount of garlic shell at a same time and disposing it, minimizing facility cost and minimizing labor costs.

The waste compression apparatus according to the present invention has a technical effect that the garlic shell can be easily compressed and disused while the operation can be stably performed.

1 is a view showing a waste compaction apparatus according to the present invention.
2 is a cross-sectional view of a waste compression apparatus according to the present invention.
3A is a view showing a main part of a waste compression apparatus according to the present invention.
FIG. 3B is a view showing another embodiment according to FIG. 3A.
Fig. 4 is a view showing a cross section according to Figs. 3a and 3b. Fig.
5A is a view showing still another essential part of the waste compaction apparatus according to the present invention.
FIG. 5B is a view showing an embodiment according to FIG. 5A.
6A is a view showing another essential part of the waste compaction apparatus according to the present invention.
6B is a view showing an embodiment according to FIG. 6A.
7 is a view showing a cross section according to Figs. 6A and 6B.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views, and length and area, thickness, and the like may be exaggerated for convenience.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

In the following detailed description, it is to be understood that the technical constructions of the waste compaction apparatus (particularly, the compartment unit and the compaction unit) that can collect the waste husks of garlic in one place and compress the waste so as to facilitate the waste treatment can be applied equally .

1 is a view showing a waste compaction apparatus according to the present invention.

2 is a cross-sectional view of a waste compression apparatus according to the present invention.

Referring to FIGS. 1 and 2, the outer skin 10, which is the skin of garlic, is peeled off from the garlic and is discarded.

In this way, the outer skin 10 of the garlic is transported to a certain place to be discarded in a peeled state, and then can be compressed and discarded.

For this purpose, the outer skin 10 peeled from the garlic is supplied to the place to be compressed while being transported through the supply unit 100.

The envelope 10 supplied through the supply unit 100 is divided into a division unit 200 for transferring the envelope 10 while the conveyance path of the envelope 10 is divided in the process of being conveyed to be compressed ).

Then, the envelope 10 supplied from the partition unit 200 is separately stored in one or more storage units 300.

 When the outer envelope 10 is stored in a plurality of the storage units 300, the outer envelope 10 flows into the inside of the storage unit 300 from the outside of the storage unit 300, Is compressed by the compression unit (400) which compresses the compressor (10).

In addition, a body unit 500 is formed to allow the partition unit 200, the storage unit 300, and the compression unit 400 to be operated while being mounted.

The body unit 500 includes a control panel for externally controlling operations of the supply unit 100, the partitioning unit 200, the storage unit 300 and the compression unit 400 520).

In detail, the supply unit 100 performs a function of allowing the envelope 10 to be smoothly transferred to the partition unit 200.

The supply unit 100 includes a pulley 114 that is rotated by a motor 112 and a belt 116 that is rotated by the pulley 114, May be conveyed while being supported on the upper surface of the belt 116 so that the conveyor 110 may be supplied to the partition unit 200.

That is, when the motor 112 is rotated, the pulley 114 connected to the motor 112 and rotated by the power of the motor 112 surrounds the pulley 114 and interlocks with the pulley 114 The belt 116 is rotated.

At this time, when the belt 116 is rotated, the envelope 10 conveyed while being supported on the upper surface of the belt 116 is smoothly supplied to the partition unit 200.

The supply unit 100 is configured to allow the air inside the pipe-shaped transfer pipe 122 to flow into the steel material so that the envelope 10 is transferred from the inside of the transfer pipe 122 to the partition unit 200, A blower 120 may be used.

For this purpose, the transfer pipe 122 is provided with an entry port 124 through which the outer skin 10 can enter from the outside to the inside of the transfer pipe 122.

As a result, the feeding unit 100 can use the conveyor 110 if it can feed the envelope 10 smoothly and supply it to the compartment unit 200, and the conveyor 110 can be used as the blower 120) can be substituted.

Here, the supply unit 100 is an embodiment only, and it is natural that various components can be used and replaced if the casing 10 can be smoothly transported.

Meanwhile, the partitioning unit 200 functions to allow the envelope 10, which is supplied through the supply unit 100, to pass through the partitioning unit 200 and to have various transport paths.

To this end, the partitioning unit 200 includes a housing 210 for collecting the envelope 10 supplied from the supply unit 100 and the envelope 10, which is collected in the housing 210, And a plurality of discharge tubes 220 formed to be discharged to the discharge tube 300.

The partitioning unit 200 is disposed in the housing 210 and flows into the discharge pipe 220 selected from the plurality of discharge pipes 220 so that the casing 10 is discharged As shown in Fig.

The partitioning unit 200 includes a rotation shaft 240 connected to the partition plate 230 so as to rotate the partitioning plate 230 and a rotation shaft 240 rotatably supporting the rotation shaft 240 in a bi- Motor 250. Fig.

The partition unit 200 may be configured such that the envelope 10 entering the interior of the housing 210 through the partition plate 230 flows into the discharge pipe 220 selected from the plurality of discharge pipes 220, As shown in FIG.

The details of the partitioning unit 200 will be described in more detail below.

The storage unit 300 is disposed below each of the discharge tubes 220 so that the envelope 10 passing through the partition unit 200 can enter and be stored.

To this end, the storage unit 300 has a storage pack 310 disposed below the compression unit 400 to allow the envelope 10 to be stacked therein.

The storage pack 310 may be made of a synthetic resin material whose shape can be changed freely and is formed of a transparent material so that the capacity of the outer casing 10 to be stored therein can be confirmed from outside.

The storage unit 300 may be formed in a shape of a polygonal column such that the storage pack 310 is vertically moved up and down from the inside of the storage pack 310, (Not shown).

The reservoir 320 has a circular column shape according to an embodiment of the present invention, and the reservoir 320 has an open top and a bottom.

The storage unit 300 has a lifting and lowering unit 330 connected to the storage unit 320 and the body unit 500 to move the storage unit 320 up and down.

As a result, the reservoir 320 functions to maintain the shape of the circular pillars while the envelope 10 is received, so that the storage pack 310, which is formed of thin vinyl, is free to change its shape .

That is, while the envelope 10 is being introduced into the storage pack 310, the reservoir 320 may be retained within the storage pack 310, After the envelope 10 is filled, the reservoir 320 is separated from the storage pack 310.

At this time, the storage container 320 is lifted or lowered so that the storage container 320 can move from the inside to the outside of the storage pack 310.

Here, the reservoir 320 is lifted or lowered while being connected to the body unit 500.

The compression unit 400 performs a function of compressing the envelope 10 accommodated in the storage pack 310 of the storage unit 300 while being moved to each of the plurality of the storage units 300.

The compression unit 400 is connected to the upper part of the body unit 500 and reciprocates horizontally. The compression unit 400 enters the upper part of the storage container 320, (10).

The body unit 500 functions to support the partition unit 200, the storage unit 300, and the compression unit 400 in a state where they are stationary.

Particularly, in another embodiment, the body unit 500 is loaded on a lorry such as a truck, and is capable of supplying leaves on a roadside to the storage unit 300 through the supply unit 100.

At this time, the supply unit 100 transfers the leaves through the blower 120 and transfers the leaves to the storage unit 300.

The leaves transferred to the storage unit 300 can be compressed and discarded through the compression unit 400 while being stored in the storage pack 310.

3A is a view showing a main part of a waste compression apparatus according to the present invention.

FIG. 3B is a view showing another embodiment according to FIG. 3A.

Fig. 4 is a view showing a cross section according to Figs. 3a and 3b. Fig.

Referring to FIG. 2, referring to FIG. 3A to FIG. 4, the partitioning unit 200 includes a housing 210 for collecting the envelope 10 supplied from the supply unit 100, And a plurality of discharge tubes 220 formed in the housing 210 so that the envelope 10 is discharged to the storage unit 300.

The partitioning unit 200 is disposed in the housing 210 and flows into the discharge pipe 220 selected from the plurality of discharge pipes 220 so that the casing 10 is discharged As shown in Fig.

The partitioning unit 200 includes a rotation shaft 240 connected to the partition plate 230 to rotate the partitioning plate 230 in the housing 210 and formed in the housing 210, And a sub motor 250 that provides power to rotate the pivot shaft 240 bidirectionally.

The housing 210 has a box shape in which a space is formed therein so that the outer envelope 10 supplied from the outside can be received and accommodated.

The housing 210 is hollow and has an upper portion of a body unit 500 forming a rectangular frame.

The partition plate 230, which separates the inside of the housing 210 from the left and right, is disposed at the center of the inside of the housing 210.

A pair of discharge tubes 220 and 220 'are disposed in the housing 210 in parallel with the lower left portion and the lower right portion of the housing 210.

Therefore, the envelope 10 housed in the housing 210 can be transferred to the discharge pipe 220, 220 '.

Particularly, the outer envelope 10 enters the selected one of the discharge pipes 220 and 220 'by the partition plate 230 partitioning the inside of the housing 210 to the left and right.

In detail, the pivot shaft 240 is connected to the sub motor 250 fixed to the outside of the housing 210, and is rotated in conjunction with the sub motor 250 being rotated in both directions.

The pivot shaft 240 is connected to the sub motor 250 and is arranged to enter the inside of the housing 210. In the upper space between the pair of the discharge pipes 220 and 220 ' (220, 220 ').

Therefore, the plate-shaped partition plate 230 connected to the pivot shaft 240 is formed in such a manner that the upper surface of the partition plate 230 is connected to the discharge pipes 220 and 220 ' So as to have an inclination angle.

When the upper surface of the partition plate 230 is fixed in a state where the upper surface of the partition plate 230 is inclined with respect to the selected one of the discharge tubes 220 and 220 ' The supplied envelope 10 slides along the inclined angle of the partition plate 230 and enters the discharge pipe 220 disposed in a direction in which the upper surface of the partition plate 230 is viewed.

As a result, the envelope 10 supplied to the inside of the housing 210 can be introduced into any one of the discharge pipes 220 and 220 'according to the user's selection.

The reason why the envelope 10 that enters the inside of the housing 210 is moved to any one of the discharge tubes 220 and 220 'is that the outer tube 210, which is conveyed through the discharge tubes 220 and 220' 10 are transferred to and filled in the storage packs 310 disposed at the lower portions of the discharge tubes 220 and 220 ', respectively.

That is, after the envelope 10 is completely filled in one storage pack 310, the envelope 10 may be filled in the other storage pack 310 with a time lag.

This is because it takes time to compress the envelope 10 packed in the storage pack 310 through the compression unit 400 so that the envelope 10 accommodated in one storage pack 310 is compressed So that it is possible to supply another enclosure 10 to another storage pack 310 for a period of time.

The plurality of discharge tubes 220 may include a screw type conveyance screw 222 that operates so that the envelope 10 can be transferred to the storage unit 300 and a conveyance screw And a screw motor 224 that provides power.

The partitioning unit 200 may be configured such that only the transferring screw 222 of the discharge pipe 220 through which the outer casing 10 is transferred is operated in accordance with the movement of the partition plate 230 (Not shown).

The feed screw 220 is disposed within the discharge pipe 220 and the feed screw 222 is rotated by the screw motor 224 to rotate the feed pipe 220, So that the sheath 10 is transferred.

At this time, the screw motor 224 is connected to the feed screw 222 while being held on the outside of the housing 210.

The division switch 226 is disposed in the housing 210 at a position adjacent to the screw motor 224 so that the user can select any one of the discharge tubes 220 and 220 ' When the conveying screw 222 of the pipe 220 is operated, the conveying screw 222 'of the other discharging pipe 220' performs a function of controlling the electrical short circuit so as to stop the operation.

The screw motor 224 has a number of teeth corresponding to the plurality of the feed screws 222 so that the screw motor 224 is driven by the feed screw 222 so that the feed screw 222, Lt; / RTI >

When the envelope 10 is conveyed to one of the discharge tubes 220 selected as described above, the conveyance screw 222 inside the discharge tube 220 is moved to the lower side of the discharge tube 220 Until the storage pack 310 is completely filled.

At this time, when the envelope 10 entering the selected one discharge pipe 220 is filled with the storage pack 310 disposed under the discharge pipe 220 by the operation of the conveyance screw 222, , The conveying screw 222 stops its operation.

When the operation of the delivery screw 222 of the discharge pipe 220 is stopped, the partition plate 230 is rotated so that the upper surface of the partition plate 230 faces the other discharge pipe 220 ' And stops at an inclination angle.

In this case, the envelope 10 is supplied to another discharge pipe 220 'disposed in parallel with the discharge pipe 220, and the transfer screw 222' inside the discharge pipe 220 'is operated The envelope 10 is filled in the other storage pack 310 'disposed below the discharge pipe 220'.

The envelope 10 previously filled in the storage pack 310 while the envelope 10 is being supplied to the storage pack 310 'disposed at the lower portion of the discharge pipe 220' (400). ≪ / RTI >

In the above description, the discharge tubes 220 and 220 'are arranged in parallel, but a plurality of discharge tubes 220 may be arranged according to the needs of the user, Can be used.

5A is a view showing still another essential part of the waste compaction apparatus according to the present invention.

FIG. 5B is a view showing an embodiment according to FIG. 5A.

5A and 5B, the storage unit 300 includes a storage pack 310 disposed at a lower portion of the compression unit 400 to allow the envelope 10 to be stacked therein, Respectively.

The storage unit 300 is configured to move up and down from the inside of the storage pack 310 to form a polygonal column shape of the storage pack 310, And has a reservoir 320.

The storage unit 300 further includes a lifting unit 330 connected to the storage unit 320 and the body unit 500 to move the storage unit 320 up and down.

The lifting and lowering unit 330 includes a reservoir cylinder 332 provided in the body unit 500 to move the reservoir 320 up and down and a reservoir cylinder 332 disposed above the reservoir cylinder 332, (Not shown).

The lower limiter 330 controls the lowering of the reservoir 320 when it comes in contact with the shorting bolt 336 formed at the lower portion of the body unit 500 and protruded from the connecting piece 334, And a switch 331.

The lifting and lowering unit 330 has an upper limit switch 333 formed at the upper part of the body unit 500 and controlling the lifting and lowering of the storage container 320 when the shorting bolt 336 is contacted.

The storage unit 300 functions to separately store the envelope 10 discharged from the discharge tubes 220 and 220 '.

The reservoir 320 is formed so that the reservoir pack 310 is formed in a cylindrical shape while the reservoir pack 310 is lifted up and down from the inside of the reservoir pack 310 and the upper and lower portions are opened.

Here, the reservoir 320 is made of iron and the pipe shape is firmly maintained, so that the reservoir pack 310 can maintain the outer shape of the reservoir 320 while entering the reservoir 310 And the like.

That is, the storage pack 310 is made of thin vinyl and is free from deformation. Therefore, when the storage container 320 enters the storage pack 310, the storage pack 310 is inserted into the storage container 320, And has an outer surface shape of the reservoir 320.

The operation of the storage unit 300 will be described below. The storage packs 310 and 310 'are arranged in a pair at the lower part of the body unit 500.

At this time, the storage packs 310 and 310 'are formed with a receiving space formed therein.

The reservoirs 320 and 320 'are disposed on the respective storage packs 310 and 310' and are connected to the inner side surfaces of the body unit 500 by the lifting and lowering units 330 and 330 ' And will be supported.

More specifically, the reservoirs 320 and 320 'are fixed to the connection pieces 334 and 334' connected to the reservoir cylinders 332 and 332 'disposed on both sides of the body unit 500.

The reservoirs 320 and 320 'are formed to be able to enter into or out of the storage packs 310 and 310' through the lifting and lowering units 330 and 330 '.

The reservoirs 320 and 320 'disposed above each of the storage packs 310 and 310' are formed so as to be able to operate independently of each other.

The reservoir 320 disposed at the upper portion of the storage pack 310 interlocks with the lowering of the reservoir cylinder 322 and enters the storage pack 310 while descending.

Then, the storage pack 310 has an outer shape of the reservoir 320 while enclosing the outer surface of the reservoir 320.

At this time, the reservoir 320 is lowered from the upper part to the lower part in the body unit 500 by the reservoir cylinder 322 and the connecting piece 334.

The lowering limit switch 331 protruding inward from the lower side of the body unit 500 contacts the shorting bolt 336 protruding from the connecting piece 334, The reservoir cylinder 322 interlocks with the operation stop and stops.

In this state, the envelope 10 discharged into the discharge pipe 220 flows into the upper portion of the storage container 320 and is received in the storage pack 310.

The compression unit 400 enters through the upper part of the reservoir 320 in the process of filling the reservoir 310 while filling the reservoir 310 so that the outer surface of the reservoir 310, (10).

When the compression of the envelope 10 is completed, the reservoir 320 is lifted and separated from the inside of the reservoir pack 310.

At this time, the reservoir 320 is raised and lowered from the lower part to the upper part in the body unit 500 by the reservoir cylinder 322 and the connection piece 334.

When the shorting bolt 336 protruding from the connecting piece 334 touches the upper limit switch 333 protruding inward from the upper side of the body unit 500 The operation of lifting and lowering the reservoir cylinder 322 is interlocked and stopped.

In addition, another reservoir 320 'disposed in parallel to the reservoir 320 may be moved up or down by the reservoir cylinder 322, which is formed separately, and operated in the same manner.

When the storage pack 310 is filled with the envelope 10 and the filled envelope 10 is compressed through the compression unit 400, The storage pack 310, which is filled with the outer shell 10, is separated from the body unit 500 and discarded.

6A is a view showing another essential part of the waste compaction apparatus according to the present invention.

6B is a view showing an embodiment according to FIG. 6A.

7 is a view showing a cross section according to Figs. 6A and 6B.

Referring to FIG. 2, the compression unit 400 is formed on an upper portion of the body unit 500 and reciprocates horizontally at an upper portion of the body unit 500, A roller 410 and a compression cylinder 420 extending upward and downward from the reciprocating roller 410 while being extended.

The compression unit 400 is formed by wrapping the lower portion of the compression cylinder 420 and is lifted up and down in the longitudinal direction of the storage container 320 inside the storage container 320, And a pressure plate (430) for pressing the outer skin (10).

In addition, the compression unit 400 may include a horizontal (not shown) horizontal portion formed at both ends of the upper portion of the body unit 500 to define a limit position in which the reciprocating roller 410 is horizontally conveyed in the body unit 500. [ And a limit switch 440.

The body unit 500 includes guide grooves 500 formed at an upper portion of the body unit 500 and guiding the reciprocating roller 410 to reciprocate horizontally at an upper portion of the body unit 500 510).

As a result, the reciprocating roller 410 is extended from the upper portion of the compression cylinder 420 and connected to the guide groove 510, so that the reciprocating roller 410 can be reciprocated along the guide groove 510.

Accordingly, the compression cylinder 420 and the pressure plate 430 connected to the reciprocating roller 410 are interlocked with each other and interlocked with each other according to the operation of the reciprocating roller 410.

Here, the reciprocating roller 410 may reciprocate along the guide groove 510 through a reciprocating motor (not shown) or a screw bolt (not shown) that provides power to rotate the reciprocating roller 410 have.

At this time, if the reciprocating roller 410 is smoothly guided and can be guided and moved, the guide groove 510 may be formed in the shape of a protrusion that surrounds the reciprocating roller 410, and may be formed in various shapes .

Next, the body unit 500 has a control panel 520 for externally controlling the operation of the compression unit 400.

In detail, the storage pack 310 is disposed below the pressure plate 430, and the storage container 320 is disposed inside the storage pack 310.

The storage packs 310 are arranged in parallel on the lower surface of the body unit 500 and the storage containers 320 are disposed one by one inside the respective storage packs 310 as described above.

In this state, the envelope 10 is discharged from the discharge pipe 220 to be filled into the storage pack 310.

When the envelope 10 is filled into the storage pack 310, the compression cylinder 420 is lowered and the pressure plate 430 is inserted into the reservoir 310 through the upper portion of the reservoir 320. Thereby pressing the envelope 10 filled in the casing 10.

When the skin 10 is pressed through the pressure plate 430, it is preferable to pressurize the skin 10 for a predetermined period of time so that the skin 10, which is a garlic shell, is breathable.

At this time, during the time when the shell 10 of the storage pack 310 is pressed through the pressure plate 430, the storage pack 310 'and the reservoir 320' disposed below the other discharge pipe 220 ' So that the other outer sheath 10 enters.

When the other package 10 is introduced into the upper part of the other storage container 320 'that has entered the storage pack 310' and the storage pack 310 'is filled with the outer package 10, The pressure plate 430, which is pressing the pack 310, is moved to the upper portion of the storage pack 310 '.

The compression cylinder 420 is moved up and down by interlocking with the compression cylinder 420 while the compression cylinder 420 is lifted and lowered when the compression of the sheath 10 is completed through the compression plate 430. [

The reciprocating roller 410 connected to the compression cylinder 420 rotates and moves along the guide groove 510 of the body unit 500. [

In particular, a horizontal shorting bolt 450 is formed at an adjacent position of the reciprocating roller 410 to allow the reciprocating roller 410 to move to the horizontal limit switch 440.

When the horizontal shorting bolt 450 which is interlocked with the reciprocating roller 410 is moved to the horizontal limit switch 440 while the reciprocating roller 410 is moved along the guide groove 510, The power transmitted to the roller 410 is cut off and the reciprocating roller 410 stops its operation.

The horizontal limit switch 440 is formed at both ends of the guide groove 510 which is the upper portion of the body unit 500 and the horizontal shorting bolt 450 is connected to the reciprocating roller 410 The function of limiting the horizontal movement position of the reciprocating roller 410 is performed.

At this time, when the pressure plate 430 is not stopped immediately by the acceleration force even after the horizontal shorting bolt 450 contacts the horizontal limit switch 440 when the pressure plate 430 is horizontally moved, A stopper plate 322 for blocking the pressure plate 430 is formed.

The pressure plate 430 pressurized the envelope 10 filled in the storage pack 310 is moved to the upper portion of another storage pack 310 'disposed next to the storage pack 310 And is compressed by pressing the envelope 10 filled in the storage pack 310 'while being lowered by the descent of the compression cylinder 420.

Similarly, when the compression of the storage pack 310 'is completed, the compression cylinder 420 is moved up and down, and the pressure plate 430 is moved up and down to move back to the existing storage pack 310.

By repeating this process, the envelope 10 filled in the plurality of storage packs 310 and 310 'can be smoothly compressed through the single compression unit 400.

The envelope 10 compressed inside the storage packs 310 and 310 'is released to the outside of the body unit 500 and discarded.

The operation of the above configuration becomes externally controllable via the control panel 520. [

Through the above-described structure, the skin of the garlic can be easily gathered and compacted and disposed, but the time can be minimized, thereby maximizing the working efficiency.

Also, it is possible to compress a large amount of garlic shells at the same time and to dispose them, while minimizing equipment costs and minimizing labor costs.

Finally, there is an advantage that the garlic shell can be compressed and disposed of easily, and the work can be performed stably.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Those skilled in the art will appreciate that various modifications and changes may be made thereto without departing from the scope of the present invention.

Therefore, the spirit of the present invention should not be construed as being limited to the above-described embodiments, and all of the equivalents or equivalents of the claims, as well as the following claims, I will say.

10: Sheath
100: supply unit 110: conveyor
112: motor 114: pulley
116: belt
120: blower 122: transfer pipe
124: Entry
200: partition unit 210: housing
220, 220 ': Discharge tube 222, 222': Feed screw
224, 224 ': screw motor 226: drive switch
230: partition plate 240:
300: storage unit 310, 310 ': storage pack
320, 320 ': reservoir 322: stopper plate
330, 330 ': Up and down
331: Lower limit switch 332, 332 ': Reservoir cylinder
333: upper limit switch 334, 334 ': connecting piece
336: Shorting bolts
400: compression unit 410: reciprocating roller
420: compression cylinder 430: pressure plate
440: Horizontal limit switch 450: Horizontal shorting bolt
500: body unit 510: guide groove
520: Control Panel

Claims (9)

A feeding unit (100) for allowing the garlic shell (10) to be fed;
A partitioning unit (200) for transferring the conveyance path of the envelope (10) supplied through the supply unit (100) so as to be partitioned;
At least one storage unit (300) in which the envelope (10) supplied from the partition unit (200) is stored;
A compression unit (400) which is moved to each of the plurality of storage units (300) and flows inside from the storage unit (300) to compress the envelope (10) inside the storage unit (300); And
And a body unit (500) for allowing the compartment unit (200), the storage unit (300) and the compression unit (400) to be operated while being mounted.
The method according to claim 1,
The storage unit (300)
A storage pack 310 disposed at a lower portion of the compression unit 400 to store the outer skin 10 in a stacked state,
A reservoir 320 of a tubular shape having a polygonal column shape and having upper and lower openings so that the storage pack 310 is lifted up and down from the inside of the storage pack 310,
(330) connected to the reservoir (320) and the body unit (500) to move up and down the reservoir (320).
3. The method of claim 2,
The lifting / lowering mechanism 330 includes:
A reservoir cylinder 332 provided in the body unit 500 to move up and down the reservoir 320,
A connection piece 334 disposed above the reservoir cylinder 332 and connected to the outer surface of the reservoir 320,
A lower limit switch 331 formed at a lower portion of the body unit 500 and controlling the lowering of the reservoir 320 when the shorting bolt 336 is protruded from the connecting piece 334,
And an upper limit switch (333) formed on an upper portion of the body unit (500) to control the lifting and lowering of the reservoir (320) when the shorting bolt (336) is contacted.
4. The method according to any one of claims 1 or 2,
The compression unit (400)
A reciprocating roller 410 formed on the body unit 500 and reciprocating horizontally at an upper portion of the body unit 500,
A compression cylinder 420 extending upward and downward from the lower end of the reciprocating roller 410,
A pressure plate 430 which is formed by wrapping the lower part of the compression cylinder 420 and is lifted up and down in the longitudinal direction of the storage container 320 from inside the storage container 320 to press the outer skin 10 inside the storage pack 310, and,
And a horizontal limit switch 440 formed on both ends of the upper portion of the body unit 500 to define a limit position in which the reciprocating roller 410 is horizontally conveyed in the body unit 500. [ Device.
The method according to claim 1,
The supply unit (100)
And a belt 116 rotated by the pulley 114. The sheath 10 is supported on the upper surface of the belt 116, And is conveyed while being fed to the partition unit (200) while being conveyed.
The method according to claim 1,
The supply unit (100)
And a blower 120 for allowing the air inside the pipe-shaped transfer pipe 122 to flow to the steel material so that the envelope 10 is fed into the partition unit 200 while being transferred from the inside of the transfer pipe 122 Characterized by a waste compression device.
The method according to claim 1,
The partitioning unit (200)
A housing 210 for collecting the envelope 10 supplied from the supply unit 100,
A plurality of discharge tubes 220 formed in the housing 210 to discharge the envelope 10 to the storage unit 300,
A partition plate 230 disposed in the housing 210 to guide the outer casing 10 to be discharged to a discharge pipe 220 selected from a plurality of the discharge pipes 220,
A rotating shaft 240 connected to the partition plate 230 and formed in the housing 210 so that the partition plate 230 rotates in the housing 210,
And a sub motor (250) that provides power to rotate the rotary shaft (240) in both directions.
8. The method of claim 7,
The plurality of discharge tubes (220)
A transfer screw 222 in the form of a screw that operates to transfer the outer skin 10 to the storage unit 300 and a screw motor 224 that supplies power to operate the transfer screw 222 and,
The partitioning unit (200)
A dividing switch 226 for controlling only the feed screw 222 of the discharge pipe 220 to which the envelope 10 is to be transferred is operated in accordance with the movement of the partition plate 230 Containing waste compaction device.
The method according to claim 1,
The body unit (500)
A guide groove 510 formed at an upper portion of the body unit 500 to guide the compression unit 400 to reciprocate horizontally at an upper portion of the body unit 500,
And a control panel (520) for externally controlling operations of the supply unit (100), the partition unit (200), the storage unit (300), and the compression unit (400).

Images