KR100975392B1 - Compression apparatus for food leavings - Google Patents

Abstract

The present invention relates to a residual compressor, and more particularly, water is discharged to the outside during compression and can be easily discarded by only compressing the residue, thereby efficiently compressing the residue and reducing the volume of the residue as well as the residue in the compression process. Since it is not discharged to the outside it relates to a residual compressor that can prevent the odor caused by the debris, etc., and also prevents the problem of clogging the filter sieve or drain.

The present invention, the pedestal 20, the discharge hole 21 is formed; The top plate 40 and the bottom of the first support bar 24 coupled to the upper end of the plurality of first support bar 24 coupled to the upper side of the pedestal 20 is vertically coupled to the pedestal 20 A lower plate 45 spaced apart from each other and a through hole 46 formed therein; Opening and closing means (30) installed between the pedestal (20) and the lower plate (45) to open and close the discharge hole (21) of the pedestal (20); An outer cylinder 50 coupled to the upper side of the lower plate 45 and having a hopper tube insertion hole 51 formed therein; Is inserted into the outer cylinder 50 is seated on the lower plate 45 and is installed to be lowered through the lifting means 90 installed on the upper plate 40 and a plurality of first discharge holes in the circumferential direction A main filter pipe 60 formed with 61; It is installed to ascend and descend the inside of the main filter tube 60 through the driving means 80 installed on the upper plate 40, and a plurality of second discharge holes 71 are formed in the circumferential direction and flows into one side surface. Compression filter tube 70 in which the ball 73 is formed; It is installed inside the compression filter tube 70 but is installed to move up and down the inside of the compression filter tube 70 through the drive means 80 to the remaining half introduced into the compression filter tube 70 A compression plate 75 for compressing; It characterized in that it comprises an input hopper 100 which is installed to feed the remainder into the inlet hole 73 of the compression filter tube 70 through the hopper tube insertion hole 51 of the outer cylinder 50.

Residual compressor, outer cylinder, main filter pipe, compressed filter pipe, compression plate, feed hopper

Description

Compression apparatus for food leavings

The present invention relates to a residual compressor, and more particularly, water is discharged to the outside during compression and can be easily discarded by only compressing the residue, thereby efficiently compressing the residue and reducing the volume of the residue as well as the residue in the compression process. Since it is not discharged to the outside it relates to a residual compressor that can prevent the odor caused by the debris, etc., and also prevents the problem of clogging the filter sieve or drain.

In general, food wastes discharged from homes and businesses contain a large amount of water, which are fermented by molds, etc., to cause odors, and various pathogens grow naturally, which adversely affects the environment and health.

Therefore, the disposal of such food waste has emerged as a very serious problem, and many methods for efficiently treating food waste have been proposed.

In other words, in the process of washing dishes in a business or home, the leftover is discharged together with the dishes in the sink, which causes the leftover to accumulate in the sink.

Such residues are generally collected using a separate food container before dish washing.

Recently, in order to reduce the volume of the residue, an apparatus for compressing the residue is used.

1 is a cross-sectional view schematically showing a conventional residual compressor 1, a compression cylinder (2) having a plurality of discharge holes (3) formed in the circumferential direction, and can be moved up and down inside the compression cylinder (2) It is comprised by the compression plate 4 which is provided and compresses the remainder of the inside of the compression cylinder 2. As shown in FIG.

Therefore, when the residue is put into the compression cylinder 2, and the residue is compressed by the compression plate 2, water is discharged into the discharge hole 3 of the compression cylinder 2 during the compression process. The residue is compressed by the compression plate 4 to reduce the volume of the residue.

However, the conventional residual compressor (1) is not only the water discharged through the discharge hole (3) of the compression cylinder (2) in the process of compressing the residue, but also discharged with the debris there is a problem that clogged nets or sewers and thus There is also a problem that a lot of smell.

An object of the present invention for solving the above-mentioned problems is that the water is discharged to the outside when the residue is compressed and can be simply discarded by simply compressing the residue, thereby efficiently compressing the residue and reducing the volume of the residue as well as the residue in the compression process. Since it is not discharged to the outside to prevent the odor caused by the residue, etc. and to provide a residual compressor that can also prevent the problem of clogging the filter sieve or drain.

The present invention for achieving the above object, the pedestal formed with the discharge hole; An upper plate coupled to an upper end of the plurality of first support bars vertically coupled to an upper side of the pedestal, and a lower plate coupled to a lower end of the first support bar and spaced apart from the pedestal at a predetermined interval; Opening and closing means slidably installed between the pedestal and the lower plate to open and close the discharge hole of the pedestal; An outer cylinder coupled to the upper side of the lower plate and formed with a hopper tube insertion hole; A main filter tube inserted into the outer cylinder and seated on the lower plate, the lower side penetrating through the through hole of the lower plate to be in close contact with the upper side of the opening and closing means, and a plurality of first discharge holes formed in the circumferential direction; Lifting means for lifting and lowering the main filter pipe by lifting the main filter pipe and sliding the main filter pipe so as to smoothly slide the opening and closing means during the sliding operation of the opening and closing means; A compression filter tube installed to ascend and descend the inside of the main filter tube through a driving means installed on the upper plate, and a plurality of second discharge holes are formed in a circumferential direction and an inlet is formed at one side thereof; A compression plate installed inside the compression filter tube and installed to move up and down the compression filter tube through the driving means to compress the residue introduced into the compression filter tube; It characterized in that it comprises an input hopper which is installed to inject the remainder into the inlet hole of the compression filter tube through the hopper tube insertion hole of the outer cylinder.

According to the present invention, water is discharged to the outside during compression and can be easily discarded by only compressing the residue so that the residue can be efficiently compressed and the volume of the residue is reduced as well as the residue is not discharged to the outside. This also prevents the problem of clogging of scum and sewers.

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

Repeated description of the same configuration and operation as in the prior art will be omitted.

Figure 2 is a cross-sectional view showing a residual compressor according to the present invention, Figure 3 is an exploded perspective view showing a state in which the outer cylinder from the pedestal of the residual compressor according to the present invention, Figure 4 is a main of the residual compressor according to the present invention It is an exploded perspective view which shows the disassembled state from the filter tube to the drive means, and FIG. 5A-5D is a figure which shows the operation state of the remainder compressor which concerns on this invention.

As shown, the remaining compressor 10 according to the present invention, the pedestal 20, the upper plate 40 and the lower plate 45, the opening and closing means 30, the outer cylinder 50, the main filter pipe 60, the compression filter tube 70, the compression plate 75, and the injection hopper 100 are comprised.

First, the pedestal 20 is formed of a rectangular iron plate, the discharge hole 21 is formed through the center.

In addition, a plurality of leg portions 22 are formed at the lower end of the pedestal 20 to put the barrel 23 into the lower side of the pedestal 20 so as to contain the compressed debris discharged through the discharge hole 21. It is.

In addition, a plurality of first support bars 24 are vertically coupled to an upper side of the pedestal 20, and an upper plate 40 is coupled to an upper end of the first support bar 24, and a lower plate 45 is provided at the lower end thereof. ) Is combined. At this time, the lower plate 45 is coupled to the pedestal 20 and spaced apart at a predetermined interval and the through hole 46 is formed at the same position as the discharge hole 21 of the pedestal 20.

In addition, opening and closing means 30 is installed between the pedestal 20 and the lower plate 45 to open and close the discharge hole 21 of the pedestal 20, the opening and closing means 30, Guide rail 32 formed in the shape of the letter "c" in the outer direction of the discharge hole 21 of the pedestal 20, and is installed to be slidable inside the guide rail 32 to open and close the discharge hole (21) In addition, an opening and closing plate 31 having a rack gear 31a formed at one side thereof, and a pinion gear 33 installed at an upper end of the pedestal 20 to be engaged with the rack gear 31a of the opening and closing plate 31. ) Consists of a second reduction motor (34) installed.

Therefore, when the pinion gear 33 is rotated forward or reversely by the second deceleration motor 34, the opening and closing plate 31 engaged with the pinion gear 33 through the rack gear 31a is slid. In operation, the outlet 21 of the pedestal 20 is selectively opened and closed.

In addition, the outer cylinder 50 is coupled to the upper side of the lower plate 45, and the hopper tube insertion hole 51 so that the hopper tube 102 of the input hopper 100 can be installed through one side of the upper end. ) Is formed.

The outer cylinder 50 is coupled to the lower plate 45 through a plurality of third support bars 53 installed around the outer cylinder 50, that is, the upper end of the outer cylinder 50 The flange 54 and the lower plate 45 are connected to each other through the third support bar 53.

At this time, the O-ring 52 is installed on the bottom surface of the outer cylinder 50 to maintain the sealing property between the lower plate 45.

The main filter pipe 60 is inserted into the outer cylinder 50 at a predetermined interval and is seated on the lower plate 45 and the lifting means 90 installed on the upper plate 40. It is installed to move up and down.

In addition, in the circumferential direction of the main filter tube 60, the plurality of first discharge holes 61 are formed to be spaced apart from each other by a predetermined interval, but are formed in the vertical direction, and a flange 62 is formed at the bottom thereof.

The inner side o-ring 63 in close contact with the upper side of the opening and closing plate 31 of the opening and closing means 30 and the outer side in close contact with the upper side of the lower plate 45 on the lower side of the flange 62 of the main filter tube 60. The o-ring 64 is provided stepwise.

At this time, the inner o-ring 63 penetrates the through hole 46 of the lower plate 45 to be in close contact with the upper side of the opening and closing plate 31, and the outer o-ring 64 is the upper side of the lower plate 45. In contact with the upper side of the lower plate 45 in a state seated on.

In addition, the elevating means 90 is a elevating plate 91 which is installed to be elevated by the third reduction motor 92 is installed on the upper end of the upper plate 40, the elevating plate 91 and the It consists of a plurality of second support bars (93) connecting the flange (62) formed on the outer circumferential surface of the main filter pipe (60).

Here, the second support bar 93 passes through the upper plate 40 to connect the elevating plate 91 and the flange 62 of the main filter tube 60.

Therefore, when the elevating plate 91 is moved up and down by the third reduction motor 92, the main filter pipe 60 connected to the elevating plate 91 through the second support bar 93 is also raised and lowered together. do.

The reason why the main filter pipe 60 is moved up and down is that the inner o-ring 63 provided on the lower surface of the flange 62 of the main filter pipe 60 is on the opening and closing plate 31 of the opening and closing means 30. Since it is in close contact with the side surface, it is difficult to slide the opening and closing plate 31 in this state. Therefore, when sliding the opening and closing plate 31 is to be able to smoothly operate the opening and closing plate 31 by first lifting the main filter tube 60 slightly.

On the other hand, between the upper plate 40 and the lower plate 45 to prevent the shaking of the main filter tube 60 when raising and lowering the main filter tube 60 through the elevating means (90). The guide bar 65 is vertically installed, and the sliding hole 65a slidingly coupled to the guide bar 65 is formed in the flange 62 of the main filter tube 60.

In addition, the compression filter tube 70 is installed to ascend and descend the inside of the main filter tube 60 through the driving means 80 installed on the upper plate 40 and a plurality of second discharge holes in the circumferential direction. 71 is formed to be spaced apart from each other by a predetermined interval and the inlet hole 73 is formed at the same position as the hopper tube insertion hole 51 of the outer cylinder 50.

At this time, the outer circumferential surface of the compression filter tube 70 is installed to be in close contact with the inner circumferential surface of the main filter tube 60. Accordingly, water is compressed between the compression filter tube 70 and the main filter tube 60 when compressing the residual plate. It can be discharged but the residue cannot be discharged.

In addition, the height of the compression filter tube 70 is formed larger than the height of the main filter tube 60, the second discharge hole 71 formed in the compression filter tube 70 is formed in the vertical direction.

On the other hand, the plurality of first discharge holes 61 and the second discharge hole 71 formed in the vertical direction in the main filter pipe 60 and the compression filter pipe 70, respectively, are staggered from each other.

In addition, the upper end of the compression filter tube 70 is coupled to the separation prevention ring 74 penetrated through the center so that the compression plate 75 installed inside the compression filter tube 70 ascends.

In addition, the locking jaw 72 is formed on the outer circumferential surface of the compression filter tube 70 so that the compression filter tube 70 can be caught on the upper end of the main filter tube 60 in a completely lowered state.

In addition, the driving means 80 is connected to the first reduction motor 81 installed on the lower side of the upper plate 40, the screw shaft 82 and a screw on the outer peripheral surface of the screw shaft 82 And coupled to the lifting and lowering during the rotation of the screw shaft 82, the lower end is coupled to the nut shaft 83 and the compression plate 75, and the outer circumferential surface of the nut shaft 83 is installed so as to be flowable and In addition, by a spring 85 installed on the outer peripheral surface of the nut shaft 83 is made of a holder (84) in close contact with a predetermined elasticity on the upper end of the compression filter tube (70).

That is, the upper side of the spring 85 is supported by the support plate 83a fixedly formed on the outer peripheral surface of the upper end of the nut shaft 83, and the lower side of the spring 85 is movable to the nut shaft 83. By being caught by the lower jaw 84a of the 84, the holder 84 always pushes the compression filter tube 70 downward by the elasticity of the spring 85.

Therefore, when the screw shaft 82 is rotated and the nut shaft 83 is lowered, the holder 84 pushes the compression filter tube 70 downward by the elasticity of the spring 85 so that the compression filter is lowered. The tube 70 can be lowered to the bottom of the main filter tube 60, and conversely, when the nut shaft 83 is raised, the compression plate 75 coupled to the lower end of the nut shaft 83 is It is possible to pull up the compression filter tube 70 because it is caught by the separation prevention ring 74 of the compression filter tube 70.

On the other hand, the lower end of the compression filter tube 70 is to be overlapped with the upper end of the main filter tube 60 to some extent even in the position where the compression filter tube 70 is lifted by the drive means 80. desirable.

In addition, the compression plate 75 is installed inside the compression filter tube 70, but is installed to move up and down the inside of the compression filter tube 70 through the driving means 80. The residue introduced into 70 is compressed.

That is, the compression plate 75 is coupled to the lower end of the nut shaft 83 to move the inside of the compression filter tube 70 when the nut shaft 83 moves up and down by the rotation of the screw shaft 82. Ascend and descend.

A rubber member 76 is formed on an outer circumferential surface of the compression plate 75 so as to be in close contact with an inner circumferential surface of the compression filter tube 70, and a second portion of the compression filter tube 70 is formed around the outer circumferential surface of the rubber member 76. A plurality of protrusions 77 are formed to be inserted into the discharge holes 71, respectively. Here, the end of the protrusion 77 is in close contact with the inner peripheral surface of the main filter tube (60).

Therefore, when the compression plate 75 compresses the residue introduced into the compression filter tube 70, the rubber member 76 is brought into close contact with the inner circumferential surface of the compression filter tube 70 and the protrusion 77. Since it is in close contact with the inner circumferential surface of the main filter tube 60 in the state inserted into the second discharge hole 71, the residue does not rise above the compression plate 75.

In addition, the inlet hopper 100 is installed to inject the remainder into the inlet hole 73 of the compression filter tube 70 through the hopper tube insertion hole 51 of the outer cylinder 50.

The input hopper 100 is a hopper portion 101 for receiving the residual and the inlet is connected to the hopper portion 101 and the outlet is compressed through the hopper tube insertion hole 51 of the outer cylinder 50 It is composed of a hopper tube 102 extending to the inlet hole 73 of the filter tube (70).

In addition, the hopper pipe 102 is provided with an on-off valve 103 to open the hopper pipe 102 when the residue is to be introduced into the compression filter pipe 70 and the main filter pipe 60. When the residual filter is filled to some extent in the compression filter tube 70 and the main filter tube 60, the hopper tube 102 is closed.

On the other hand, the inlet (73) below the inlet hole (73) of the compression filter tube 70 when the inlet flows into the inlet hole (73) from the outlet of the hopper tube (102) the outlet and inlet hole ( The connection support 73a is formed so that an residue may not leak between 73.

In addition, when compressing the residue filled in the compression filter tube 70 and the main filter tube 60, the first and second discharge holes 61 of the main filter tube 60 and the compression filter tube 70 are compressed. Water is discharged through the 71, wherein the discharged water is collected at the inner bottom of the outer cylinder 50.

Therefore, a drain hole 25 is formed in the lower plate 45 and the pedestal 20 so that the water collected in the outer cylinder 50 can be discharged to the outside (sewer, etc.).

Then, the remaining amount of residual amount in the remaining compressor 10 may be checked to determine whether the remaining amount of the remaining amount of the compression filter tube 70 and the main filter tube 60 is filled to a specific position through the input hopper 100. Inspection means 95 is installed.

The remaining amount inspection means 95, the first sensing unit 96 is installed on the bottom side in the main filter tube 60, and the outer cylinder 50 is installed on the outer surface of the outer cylinder 50 And the second sensing unit 97 periodically moving forward and backward through the compression filter tube 70 to the inside of the compression filter tube 70, and the first sensing unit 96 and the second sensing unit. The first sensing unit 96 and the second sensing unit 97 are electrically connected to each other by being electrically connected to the 97 and remaining in the compression filter tube 70 and the main filter tube 60. It consists of a control unit 98 for recognizing that the view point is filled up to the position where the second detection unit 97 is installed.

The second sensing unit 97 is composed of an electrode rod, the electrode rod penetrates through the outer cylinder 50 and the compression filter tube 70 through a cylinder or a reduction motor 97a of the compression filter tube 70. It periodically moves forward and backward to the inside.

On the other hand, a faucet (not shown) may be further installed in the upper direction of the input hopper 100 so as to smoothly input the remaining portion into the input hopper 100, and the cutting inside the hopper pipe 102 An apparatus (not shown) may be further installed. The cutting device cuts when the food (eg, bean sprouts, etc.) needing cutting is cut so that the moisture is smoothly discharged when compressed into the compression plate 75 inside the compression filter tube 70.

Hereinafter, the operation of the residual compressor 10 according to the present invention will be described with reference to FIGS. 5A to 5D.

First, when the residue is introduced into the input hopper 100, the residue is introduced into the inlet hole 73 of the compression filter tube 70 through the hopper tube 102 of the input hopper 100.

The residue introduced into the inflow hole 73 of the compression filter tube 70 is gradually filled from the inner bottom of the main filter tube 60, wherein the total amount inspection means 95 is the main filter tube 60 ) And the remaining portion of the compression filter tube 70 is filled only up to an appropriate amount.

That is, when the residue is filled in the main filter tube 60 and the compression filter tube 70 to a certain degree or more, the first and second sensing portions of the residual amount inspection means 95 are caused by moisture contained in the residue. When the first and second sensing units are electrically connected to each other through moisture in the remaining portion, the control unit 98 recognizes that the remaining portion is filled to the position where the second sensing unit 97 is installed, and the hopper The hopper pipe 102 is closed by the on / off valve 103 installed in the pipe 102 so that no residue is introduced.

Thereafter, the screw shaft 82 is rotated by the first reduction motor 81 of the driving means 80, and the nut shaft 83 is lowered by the rotation of the screw shaft 82.

When the nut shaft 83 is lowered, the compression plate 75 coupled to the lower end of the nut shaft 83 is lowered and at the same time the compression filter tube 70 is also lowered by the elasticity of the spring 85. It is lowered together by the holder 84.

Subsequently, when the compression plate 75 and the compression filter tube 70 are lowered, the compression filter tube 70 completely overlaps the inside of the main filter tube 60, and the locking jaw 72 formed on the outer circumferential surface thereof. While being caught by the upper end of the main filter tube 60 is pressed by the pressure of the spring (85).

At this time, since the second discharge hole 71 of the compression filter tube 70 and the first discharge hole 61 of the main filter tube 60 are staggered from each other, no residue is discharged through the first and second discharge holes. Will not.

Thereafter, when the screw shaft 82 continues to rotate, the compression filter tube 70 is gradually pressed by the force of the spring 85 that pushes the holder 84, the compression plate 75 Compresses the residue filled in the compression filter tube (70).

Here, when the compression plate 75 compresses the residue filled in the compression filter tube 70, the second discharge hole 71 and the main filter tube 60 of the compression filter tube 70 are compressed. While only water is discharged through the first discharge hole 61, only the residues filled in the compression filter tube 70 are continuously compressed.

That is, since the compression filter tube 70 is in close contact with the main filter tube 60 and the first and second discharge holes are alternate with each other, the compression filter tube 70 and the main filter tube 60 are overlapped. Water can leak into small gaps between them, but the compressed debris will not leak into small gaps.

As such, when the residue is compressed in the compression filter tube 70 by the compression plate 75, only the residue remains and is compressed, and all the water is discharged into the outer cylinder 50.

At this time, the water discharged to the inside of the outer cylinder 50 is discharged to the outside (sewer) through the drain port 25 formed in the lower plate 45 and the pedestal 20.

On the other hand, if the compression plate 75 is more than a certain pressure to press the remainder is recognized that the compression of the remainder is to proceed to the next step.

When the compression of the residue is completed, the screw shaft 82 is rotated in the opposite direction by the first reduction motor 81 of the driving means 80, and the nut shaft 83 is raised. The compression plate 75 also rises together, and at the same time, the pressure of the spring 85 holding the compression filter tube 70 is gradually released.

Thereafter, while the compression plate 75 continues to rise, the compression filter tube 70 is lifted together by the separation prevention ring 74 coupled to the upper end of the compression filter tube 70.

When the compression filter pipe 70 rises by a predetermined height to release the pressure holding the main filter pipe 60, the lifting plate 91 is moved by the third reduction motor 92 of the lifting means 90. And the second support bar 93 is raised to lift the main filter tube 60 by a certain height, and the main filter tube 60 is spaced apart from the opening and closing plate 31.

When the main filter tube 60 is spaced apart from the opening and closing plate 31, the opening and closing plate 31 is slid by the second deceleration motor 34 of the opening and closing means 30. 21 is opened, and when the discharge hole 21 of the pedestal 20 is opened, the debris compressed in the compression filter tube 70 is lowered to the pedestal 20 through the discharge hole 21. It is contained in the barrel 23 prepared in advance.

Thereafter, the opening and closing plate 31 again closes the discharge hole 21 of the pedestal 20 by the opening and closing means 30, and the main filter pipe 60 is connected to the lifting means 90. It is lowered again to be in close contact with the upper side of the opening and closing plate 31, the opening and closing valve 103 of the hopper pipe 102 is opened again to resume the inflow of the residue through the input hopper (100).

1 is a cross-sectional view schematically showing a conventional residual compressor,

2 is a cross-sectional view showing a residual compressor according to the present invention;

3 is an exploded perspective view illustrating a state in which the outer cylinder from the pedestal of the residual compressor according to the present invention is disassembled;

Figure 4 is an exploded perspective view showing a state in which the drive means from the main filter pipe of the residual compressor according to the present invention,

5a to 5d are views showing an operating state of the residual compressor according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: residual compressor 20: pedestal

21: discharge hole 22: leg portion

23: Tong 24: First Support Bar

25: drain

30: opening and closing means 31: opening and closing plate

31a: rack gear 32: guide rail

33: pinion gear 34: second deceleration motor

40: top plate 45: bottom plate

46: through hole 50: outer cylinder

51: hopper tube insertion hole 52: O-ring

53: third support bar 54: flange

60: main filter tube 61: the first discharge hole

62: flange 63, 64: O-ring

65: guide bar 65a: sliding hole

70: compression filter tube 71: second discharge hole

72: engaging jaw 73: inlet hole

73a: Connection support 74: Release prevention ring

75: compression plate 76: rubber member

77: projection 80: drive means

81: first reduction motor 82: screw shaft

83: nut shaft 84: holder

85: spring 90: lifting means

91: the lifting plate 92: the third reduction motor

93: second support bar 95: residual amount inspection means

96: first detection unit 97: second detection unit

98: control unit 100: input hopper

101: hopper section 102: hopper tube

103: on-off valve

Claims (7)

Pedestal 20, the discharge hole 21 is formed; The top plate 40 and the bottom of the first support bar 24 coupled to the upper end of the plurality of first support bar 24 coupled to the upper side of the pedestal 20 is vertically coupled to the pedestal 20 A lower plate 45 spaced apart from each other and a through hole 46 formed therein; An opening and closing means (30) installed slidably between the pedestal (20) and the lower plate (45) to open and close the discharge hole (21) of the pedestal (20); An outer cylinder 50 coupled to the upper side of the lower plate 45 and having a hopper tube insertion hole 51 formed therein; Is inserted into the outer cylinder 50 is seated on the lower plate 45, the lower side penetrates through the through-hole 46 of the lower plate 45 to be in close contact with the upper side of the opening and closing means 30 and the circumference A main filter pipe 60 formed with a plurality of first discharge holes 61 in a direction; When the sliding operation of the opening and closing means 30, the main filter pipe 60 is lifted up and down is installed on the top plate 40 so as to smoothly slide the opening and closing means 30 to raise and lower the main filter pipe 60 Means 90; It is installed to ascend and descend the inside of the main filter tube 60 through the driving means 80 installed on the upper plate 40, and a plurality of second discharge holes 71 are formed in the circumferential direction and flows into one side surface. Compression filter tube 70 in which the ball 73 is formed; It is installed inside the compression filter tube 70 but is installed to ascend and lower the inside of the compression filter tube 70 through the drive means 80 to compress the residue introduced into the compression filter tube 70 Compression plate 75; Residuals characterized in that it comprises an input hopper (100) which is installed to inject the remnant into the inlet (73) of the compression filter tube 70 through the hopper tube insertion hole 51 of the outer cylinder (50) compressor. The method of claim 1, The drive means 80, A screw shaft 82 which is connected to and rotates with the first reduction motor 81 installed on the lower surface of the upper plate 40; A screw shaft 83 which is screwed to the outer circumferential surface of the screw shaft 82 and moves up and down when the screw shaft 82 rotates, and a lower end portion is coupled to the compression plate 75; It is installed to be able to flow at a predetermined interval on the outer circumferential surface of the nut shaft 83 and is in close contact with the upper end of the compression filter tube 70 by a spring 85 installed on the outer circumferential surface of the nut shaft 83. Residual compressor comprising a holder (84). The method of claim 1, The plurality of first discharge holes 61 and the second discharge holes 71 formed in the main filter pipe 60 and the compression filter pipe 70, respectively, are formed in the vertical direction and are staggered from each other. The method of claim 1, A rubber member 76 is formed on an outer circumferential surface of the compression plate 75 so as to be in close contact with an inner circumferential surface of the compression filter tube 70, and a second portion of the compression filter tube 70 is formed around the outer circumferential surface of the rubber member 76. Residual compressor, characterized in that a plurality of projections 77 are formed to be inserted into the discharge hole 71, respectively. The method of claim 1, The opening and closing means 30, A guide rail 32 formed in a “c” shape in an outward direction of the discharge hole 21 of the pedestal 20, An opening and closing plate 31 formed to be slidable inside the guide rail 32 to open and close the discharge hole 21 and having a rack gear 31a formed at one side thereof; Residual compressor, characterized in that consisting of a second reduction motor (34) installed on the top of the pedestal 20, the pinion gear (33) is engaged with the rack gear (31a) of the opening and closing plate (31). The method of claim 1, The lifting means 90, A lifting plate 91 which is installed to be lowered and lowered by a third reduction motor 92 installed at an upper end of the upper plate 40; Residual compressor comprising a second support bar (93) connecting the elevating plate (91) and the flange (62) formed on the outer circumferential surface of the main filter tube (60). The method of claim 1, Residual amount inspection means in the residual compressor (10) to check whether the residual amount of the remaining filled in the compression filter tube 70 and the main filter tube 60 is filled to a specific position through the input hopper 100 95 is installed, The remaining amount inspection means 95, the first detection unit 96 is installed on the bottom side in the main filter tube 60, The second sensing unit is installed on the outer surface of the outer cylinder 50 and periodically moves forward and backward through the outer cylinder 50 and the compression filter tube 70 to the inside of the compression filter tube 70. 97, The first sensing unit 96 is electrically connected to the first sensing unit 96 and the second sensing unit 97 and is filled in the compression filter tube 70 and the main filter tube 60. And a control unit (98) which recognizes that the time when the second sensing unit (97) is electrically connected to the position where the second sensing unit (97) is installed is filled with the remaining unit.

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