JP2622498B2 - Waste treatment equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste disposal apparatus.

[0002]

2. Description of the Related Art Conventionally, this type of apparatus has been limited to a single function, and the most popular one is a garbage collection packer. A variation of this is a packing drum, which is temporarily installed as a transportable one and is replaced when it is full.

[0003] These are only for collection, and they have been widely used because they can be loaded on a truck or a trailer, moved to an arbitrary place, and can collect waste such as refuse.

[0004]

However, if it becomes necessary in recent years to separate collected materials into general combustibles, metals (steel, aluminum), glass, earth and sand, etc., the above-mentioned method is used. The collection is powerless, and it is necessary to restart the sorting operation from the bag-breaking operation again at the accumulation site, and the efficiency and quality are continuously decreasing due to the operation in the bad environment.

[0005] It is an object of the present invention to provide a waste disposal apparatus that processes waste in real time at a place where the waste is collected.

[0006]

In order to achieve the above object, a pipeline according to the present invention, a fixed- quantity feeding section,
Section, separation section, magnetic separation section, volume reduction section, filter section
Waste treatment equipment having a pipeline and a constant
Quantity sending section, crushing section, sorting section, magnetic sorting section, volume reduction section, filter
The ruta part is integrated and unitized,
The pipeline transfers the waste from the fixed-quantity sending section to the shredding section,
Air transfer to the separation section, magnetic separation section, volume reduction section, filter section
The fixed-quantity feeding unit rotates in opposite directions.
And a pair of rotating drums,
With a claw planted and wound between a pair of rotating drums
The bag containing the waste is broken with a nail and discarded with the nail.
The waste is sent to the shredding section by a fixed amount at a fixed rate.
The shredding section is the waste transported by pipeline from the quantitative
The waste is broken into fine particles.
Fine particles of waste transported by pipeline from
At it is intended to separate to the heavies and light products, magnetic separation
In the part, the heavy material separated in the separation part is
Genus and non-metallic ones .
Compress the light material separated in the separation section and reduce its apparent volume
Reduces is intended to packaging, the filter unit
Is installed on the exhaust side of the pipeline and passes through the separation section
It filters out the degassed gas and deodorizes it .

[0007]

[0008]

[0009]

[0010]

Further, the pipeline, the fixed-quantity feeding section, the crusher,
The cutting section, the sorting section, the magnetic sorting section, the volume reducing section, and the filter section are integrated into a machine frame and can be transported.

Further, the pipeline, the fixed-quantity feeding section, the crusher,
The machine frame in which the cutting section, the separation section, the magnetic separation section, the volume reduction section, and the filter section are incorporated is mounted on a moving body and transported.

Further, the pipeline, the fixed-quantity feeding section, the crusher,
The machine frame in which the cutting section, the sorting section, the magnetic sorting section, the volume reducing section, and the filter section are incorporated is transported by self-propelled or towed.

[0014]

[Function] A pipeline for pneumatically transporting fine particles obtained by crushing waste, a crushing section for crushing input waste into fine particles, and a fine particle of crushed waste. Combined with a separation unit that separates during the phase, the crushing unit is connected to the intake side of the pipeline, and the separation unit is installed in the pipeline downstream from the crushing unit, so that these are unitized. is there.

[0015] The unitized crushing section, sorting section, and pipeline are assembled in a machine frame, transported to a waste collection location, and the waste is processed there in real time.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a perspective view showing one embodiment of the present invention, and FIG. 2 is a longitudinal sectional view of the same.

In the figure, the waste disposal apparatus according to the present invention has a pipeline 1, a crushing section 2, and a sorting section 3.

The pipeline 1 has pipes 1a and 1b connecting the crushing section 2 and the separation section 3, a pipe 1c, and an air pressure for pneumatically transporting fine particles of waste into the pipeline. And a power unit 1d to be operated.

The crushing section 2 is for crushing the inputted waste into fine particles. The crushing section 2 shown in the embodiment has a pair of cutters 2a and 2b. A pair of cutters 2a, 2
b is supported by a bearing and is horizontally mounted.
a and 2b have cutter teeth 2c on the peripheral surface, and a pair of cutters 2c.
a and 2b are combined by mutually engaging the cutter teeth 2c. The cutters 2a and 2b are driven to rotate in opposite directions so that waste is bitten between the mutually engaged cutter teeth 2c and broken into fine particles. Below the combined cutters 2a, 2b, a funnel-shaped gutter 2d having a receptacle at the top is provided along the axial direction of the cutters 2a, 2b, and a screw conveyor 2e is provided at the bottom of the funnel-shaped gutter 2d. Provided horizontally, the fine particles of waste by the cutters 2a and 2b are transported to the end of the funnel-shaped gutter 2d by the screw conveyor 2e. Further, a pipe 1a of the pipeline 1 is connected to the end side of the screw conveyor 2e, and the fine particles 2f by the transfer of the screw conveyor 2e can be sucked into the pipe 1a.

On the input side of the pair of cutters 2a and 2b, a fixed-quantity feeding section 4 is provided. The fixed-quantity sending unit 4
It has a pair of rotating drums 4a and 4b and a claw 4c. The pair of rotating drums 4a and 4b rotate in opposite directions, and the claws 4c are radially erected on the peripheral surfaces of the rotating drums 4a and 4b.
The bag accommodating the waste entrapped between the cutters 4b is broken by the claws 4c, and the claw 4c is used to throw the waste into the cutters 2a and 2b of the shredding unit 2 by a fixed amount. Reference numeral 5 denotes a drive motor that drives the fixed-quantity feeding unit 4 to rotate.

Further, a separating section 3 is provided in the pipeline 1 downstream of the crushing section 2, and the separating section 3 is a fine section of the waste pneumatically transported from the crushing section 2 in the pipeline 1. Granules are separated into heavy substances and light substances in the gas phase. Here, the heavy material means an object which settles relatively quickly when dispersed in the air. The term “light material” means an object that is relatively unlikely to settle when dispersed in air. Heavy materials include small pieces and particles of metals, glass, plastics, etc. Light materials include small pieces of paper and plastic films, etc. It is not due to the size or the specific gravity.

The separation unit 3 shown in the embodiment is a heavy material separation unit 6
And a light material separation unit 7. The heavy matter separation section 6
It has an air chamber 6a and a rotating drum 6b. The air chamber 6a is provided with a pipe 1a from the crushing unit 2.
Is open at the top of the internal space. Air chamber 6
The cross-sectional area of a is larger than the cross-sectional area of the pipe 1a, and the pressure in the air chamber 6a is lower than the suction pressure in the pipe 1a. Floating in the upper space of the chamber 6a, it is separated into heavy substances and light substances. That is, when the fine particles of the waste material pneumatically transported through the pipe 1a are transferred into the air chamber 6a having a cross-sectional area enlarged from the pipe 1a, the fine particles including the heavy matter are pneumatically transported. Since the necessary suction force of the pipeline 1 is reduced, heavy substances among the fine particles in the air chamber 6a quickly settle down and are deposited and captured on the funnel-shaped bottom in the air chamber 6a. On the other hand, the light material floating in the air chamber 6a is a pipe 1b connected to the upper part of the air chamber 6a.
Since the air is sucked by the suction force generated in the inside and is pneumatically transported to the next light material separation unit 7, the separation of the heavy material and the light material is performed smoothly.

The rotary drum 6b has a circular cross section, has a hollow interior, and is installed at the bottom of the air chamber 6a so as to be rotatable around a horizontal axis. The rotating drum 6b has a plurality of openings 6c on its peripheral surface for capturing sedimented heavy matter, and a buffer 6d protruding inward on its inner peripheral surface, and the heavy matter captured through the opening 6c. Supported by the buffer 6d and the rotating drum 6b
The mixing is performed in conjunction with the rotational movement caused by the rotation of the liquid crystal, and the liquid is dropped from the downward opening 6c to the lower funnel-shaped bottom.

The light material separation unit 7 has an air chamber 7a connected to the air chamber 6a of the heavy material separation unit 6 via a pipe 1b. The pipe 1b is opened in the upper space of the air chamber 7a, The chamber 7a has a cross-sectional area that is larger than the cross-sectional area of the pipe 1b, similarly to the air chamber 6a, and reduces the suction force of the pipe 1c for the light substance pneumatically conveyed through the pipe 1b to remove the light substance from the air. The air is floated in the chamber 7a and sedimented toward the funnel-shaped bottom of the air chamber 7a to be captured.

Further, the sorting section 3 includes a magnetic sorting section 8 corresponding to the heavy material separating section 6 and a volume reducing section 9 corresponding to the light material separating section 7, respectively.

The magnetic separation unit 8 includes a hopper 8a and a rotary cylinder 8b.
And a permanent magnet 8c. The hopper 8a is connected to the funnel-shaped bottom of the air chamber 6a, and forms a receiving port into which heavy materials separated and settled in the air chamber 6a are introduced. The rotary cylinder 8b is rotatably provided adjacent to the bottom of the hopper 8a. The permanent magnet 8c is formed in a semicircular shape, and is fixed separately from the rotary cylinder 8b with its arc portion along the inner peripheral surface of the rotary cylinder 8b. Further, the permanent magnet 8c is
The magnetic force is fixed on the circumferential surface of the rotary cylinder 8c until the b slightly passes through a position where the upper circumferential surface is inverted by 180 ° and the posture is changed downward.

A funnel-shaped hopper 8d is provided below a position where the upper peripheral surface of the rotary cylinder 8b passes through a position where the upper circumferential surface of the rotary cylinder 8b is turned 180 ° and turned downward, and below the hopper 8d,
A collection box 8e for collecting the magnetic body F is detachably provided.

In front of the position where the upper peripheral surface of the rotary cylinder 8b changes its position by 180 °, an endless conveyor 8f is hung in the horizontal direction by hanging over rollers 8g and 8h corresponding to the hopper 8e. The heavy material that has fallen without being adsorbed around the rotary cylinder 8b is supported and transported in the horizontal direction. Further, an electromagnet 8i is attached to one of the rollers 8h, and an alternating magnetic field in which N poles and S poles are alternately generated along the circumferential direction of the roller 8h is applied. Since an eddy current is generated by the action of the AC magnetic field by the electromagnet 8i, when the conveyor 8f reverses along the peripheral surface of the roller 8h, the non-magnetic metal AL such as aluminum contained in the heavy material is moved forward from the conveyor 8f. You will be repelled. Non-metal G such as glass, plastic, etc., falls downward from the folded portion of the conveyor 8f,
It will be separated from the non-magnetic metal AL. A collection box 8j for collecting the non-magnetic metal AL and a collection box 8k for collecting the non-metal G are detachably provided below the conveyor 8f.

On the other hand, the volume reducing section 9 is for compressing the light material settled on the funnel-shaped bottom of the air chamber 7a and packing it in the collection box 9b.

Further, in the present invention, the above-mentioned crushing section 2
Is connected to the intake side of the pipeline 1, that is, to the pipe 1 a, and the separation unit 3 is installed in the pipeline 1 downstream of the crushing unit 2 so that the crushing unit 2, the separation unit 3, the pipeline 1 Are integrated into a unit.

The air chamber 7 of the light material separation section 7
A bag filter 10 is connected to the upper part of a, and a deodorizing section 11 is connected to the bag filter 10 via a pipe 1c. The bag filter 10 filters fine particles from the gas sucked into the pipe 1c from the air chamber 7a by the power unit 1d. The deodorizing section 11
This is to deodorize the bad smell attached to the gas that has passed through the bag filter 10.

Further, in the present invention, the unitized crushing section 2, sorting section 3 and pipeline 1
It can be transported by being integrated into the unit. Machine frame 12
It has a box shape, and has a structure in which a crushing section 2, a separating section 3 and a pipeline 1 are incorporated therein, and these are isolated from the outside. The machine frame 12 may have a soundproof structure so that noise does not leak out during waste disposal, or may have an airtight structure so that a bad odor does not leak out to surroundings during waste disposal. In the embodiment, the machine frame 12 is provided with the wheels 13 so that the machine frame 12 can be indexed and transported.
The machine frame 12 may be equipped with a traveling mechanism so that the machine frame 12 can travel by itself and can be transported. Further, the machine frame 12 can be transported by being mounted on a moving body such as a truck or a train. Also,
Reference numeral 14 denotes an input port provided in the machine frame 12, through which the waste is input into the fixed-quantity feeding section 4. An opening / closing door 15 is attached to the opening 14 so as to be openable and closable. Reference numeral 16 denotes a control panel for controlling the components.

Next, the operation of the present invention will be described. First, when processing waste, the machine frame 12 in which the unit is unitized and in which the crushing unit 2, the separation unit 3 and the pipeline 1 are incorporated is transported to a waste collection place and installed. Then, the opening / closing door 15 of the machine frame 12 is opened to open the slot 14.

When the waste is put in from the inlet 14, the fixed amount feeding section 4 bites the waste between the claws 4c of the rotary drums 4a and 4b, and sends the waste to the crushing section 2 by a fixed amount. Here, when the waste is packed in the bag, the fixed quantity sending unit 4 sends the waste while breaking the bag with the claw 4c.

The crushing unit 2 bites the waste from the fixed amount feeding unit 4 between the cutter teeth 2c of the pair of cutters 2a and 2b,
This is crushed by the cutter teeth 2c, and the waste is crushed into fine particles. In the case of crushing, the bag containing the waste is also crushed together with the waste. Shredded waste is hopper 2d
And transported laterally to one end of the hopper 2d by the screw conveyor 2e.

Since one end of the pipeline 1 is connected to the outlet side of the crushing section 2, the pipeline 1 receives the suction pressure of the power unit 1d and is sucked into the pipe 1a. for that reason,
The waste crushed by the crushing unit 2 is pneumatically transported by the pipeline 1 and transferred to the heavy material separation unit 6 of the separation unit 3.

The fine particles of waste transferred to the heavy material separation section 6 are first sent into the air chamber 6a. Here, since the air chamber 6a is larger than the cross-sectional area of the pipe 1a, the suction force by the pipeline 1 that pneumatically transports the fine particles of waste decreases in the air chamber 6a. When the suction force of the pipeline 1 against the fine particles of waste in the air chamber 6a decreases, all the fine particles in the air chamber 6a are removed from the pipe 1b.
It becomes impossible to suck into the inside of the air chamber 6a, and among the fine particles in the air chamber 6a, heavy wastes immediately settle down and are captured in the rotating drum 6b through the opening 6c, and with the rotation of the rotating drum 6b. It is mixed and fed into the hopper 8a of the magnetic separation unit 8 from the downward opening 6d of the rotating drum 6b.

The heavy matter put into the magnetic separation unit 8 once falls on the peripheral surface of the rotary cylinder 8b. Here, when the heavy material is the magnetic material F, the magnetic material F is sent downward along with the rotation of the rotary cylinder 8b while being attracted to the peripheral surface of the rotary cylinder 8b by the permanent magnet 8c, and the permanent magnet 8c When it is fed to a position where no magnetic force is applied, it is shaken down from the peripheral surface of the rotary cylinder 8b and collected in the collection box 8e.

On the other hand, heavy materials other than the magnetic material F are
And is caught on the conveyor 8f. The heavy object transported on the conveyor 8f receives an AC magnetic field of the electromagnet 8i attached to the roller 8h. In this case, when the non-magnetic metal AL is used, it is flipped forward from the conveyor 8f under the influence of the AC magnetic field of the electromagnet 8i and collected in the collection box 8j. Since the non-metallic G is not affected by the AC magnetic field of the electromagnet 8j, the conveyor 8f is
h falls down when it is reversed along the peripheral surface of the collection box 8
Collect in k. When the inside of each collection box 8e, 8j, 8k becomes full, it is replaced with a new one.

On the other hand, since the light materials floating in the air chamber 6a are unlikely to settle, they are sucked into the pipe 1b by the suction force of the pipeline 1 and separated from the heavy materials to be separated from the heavy material processing unit 7 by the air. It is sent into the chamber 7a.
Since the cross-sectional area of the air chamber 7a is larger than the cross-sectional area of the pipe 1b, the suction force of the pipeline 1 for the light substances floating in the air chamber 7a is weakened, and the light substances in the air chamber 7a gradually settle to the bottom. I do. The light material deposited on the bottom of the air chamber 7a is compressed by the volume reducing unit 9 into the collection box 9b to reduce the discriminating volume and packed. When the inside of the collection box 9b is full, it is replaced with a new one.

The gas exhausted from the air chamber 7a is filtered by the bag filter 10, deodorized by the deodorizing section 11, and discharged from the pipeline 1 to the outside air.

At the time when the waste is collected and the processing of the waste is completed in real time, the machine frame 12 in which the shredding section 2, the separation section 3 and the pipeline 1 are unitized and assembled is used for the next waste collection. Move to a location where waste collection and disposal is performed in real time.

[0043]

As described above, according to the present invention, since a unit is formed by combining a crushing unit and a sorting unit around a pipeline, it can be integrated in a small size. Furthermore, since it can be separated into heavy matter and light matter (generally combustible matter) simply by being thrown into the waste and the crushing section, a large amount of waste can be efficiently treated.

Further, by providing a magnetic separation unit,
Steel and aluminum materials can be extracted from heavy materials, metals in waste can be effectively recovered, and it is effective for resource recycling.

Also, by reducing the apparent volume of the light material by the volume reducing section, the efficiency of the accumulation space and the efficiency of the work for carrying out to an incineration facility can be dramatically improved.

Further, since it can be moved anytime and anywhere, the waste can be processed in real time at the place where the waste is collected.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an embodiment of the present invention.

FIG. 2 is a longitudinal sectional view showing one embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Pipeline 2 Crushing part 3 Separation part 8 Magnetic sorting part 9 Volume reduction part 10 Bag filter 11 Deodorization part 12 Machine frame

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Koichi Nakamura 5-7-1 Shiba, Minato-ku, Tokyo Inside NEC Corporation (72) Inventor Toshie Hasegawa 2--16-20 Shimura, Itabashi-ku, Tokyo Copa (56) References JP-A-58-40180 (JP, A) JP-A-3-161057 (JP, A) JP-A-4-27498 (JP, A) JP-A-5-319508 (JP, A) JP-A-7-204618 (JP, A) JP-A-61-49711 (JP, U) JP-A-61-167956 (JP, U) JP-B-56-51962 (JP, B2) 60-6083 (JP, Y2) Shoko 53-53989 (JP, Y2)

Claims (4)

(57) [Claims] 1. A pipeline, a fixed-quantity feeding section, and a crushing section.
, A separation unit, a magnetic separation unit, a volume reduction unit, a filter unit
Waste treatment equipment having pipeline, fixed-quantity feeding section, crushing section, sorting section, magnetic sorting
Unit, volume reduction unit and filter unit are integrated into a unit
In the pipeline, the waste from the fixed quantity sending section was
Air transfer to the separation section, magnetic separation section, volume reduction section, filter section
The fixed-quantity sending unit includes a pair of rotating drums that rotate in opposite directions.
And a claw radially erected on the peripheral surface of the rotating drum.
And store the waste caught between a pair of rotating drums
Break the bag with nails, and crush the waste by a fixed amount with the nails
The crushing section is a waste product transported by pipeline from the fixed- quantity feeding section.
Waste is broken up into fine particles .
For separating fine particles into heavy and light materials in the gas phase
And the magnetic separation unit separates the heavy material separated by the separation unit into a magnetic metal,
Non-magnetic metals and non-metals are sorted out, and the volume reduction section compresses the light materials separated by the separation section,
Filtering is performed by reducing the application volume and the filter is installed on the exhaust side of the pipeline.
Filter and deodorize the gas passing through the
Waste treatment apparatus characterized by that. 2. The pipeline, the fixed-quantity feeding section, and the crushing
The waste disposal apparatus according to claim 1 , wherein the section, the separation section, the magnetic separation section, the volume reduction section, and the filter section are integrated into a machine frame and can be transported. 3. The pipeline, a fixed-quantity feeding section, and a crushing machine.
3. The waste treatment according to claim 2 , wherein the machine frame in which the unit, the sorting unit, the magnetic sorting unit, the volume reducing unit, and the filter unit are incorporated is mounted on a moving body and transported. apparatus. 4. The pipeline, the fixed-quantity feeding section, the crushing
The waste disposal apparatus according to claim 2 , wherein the machine frame in which the section, the separation section, the magnetic separation section, the volume reduction section, and the filter section are incorporated is transported by self-propelled or towed.