KR101785218B1 - Quantitative supply apparatus for the continuous supply to the waste being introduced to the amount of waste sorting device - Google Patents

Abstract

(Combustible waste, waste concrete, waste soils, metals, etc.) that can be recycled in landfilled wastes mixed with soil and combustible and nonflammable wastes in an unsanitary landfill or a recycling-type landfill and a construction waste intermediate- (Hereinafter referred to as " waste "), and more particularly, to a waste quantitative supply apparatus for continuously supplying wastes in a fixed amount to a waste sorting apparatus for separating wastes from a waste sorting apparatus It is possible to maximize the facility capacity by supplying the wastes continuously in a fixed amount and to prevent the overloading of the rear end facilities and to prevent the loss of the repair cost and the operation time due to the failure, And a technique for supplying a fixed quantity feeder.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a quantitative supply apparatus for continuously supplying wastes to be supplied to a waste sorting apparatus in a fixed amount,

The present invention relates to a process for recovering landfill by-products (flammable waste, waste concrete, waste soils, metals, etc.) which can be recycled in landfill mixed waste mixed with soil erosion and flammable and nonflammable waste in an unsanitary landfill or a reclamation landfill and a construction waste intermediate treatment plant, (Hereinafter referred to as " waste "), and more specifically, it relates to a technique for supplying a waste in a fixed amount to a waste sorting apparatus for separating waste (hereinafter referred to as "waste" It is possible to maximize the facility capacity and to prevent the overload of the waste sorting apparatus from being overloaded and to prevent the loss of the repair cost and the operation time due to the failure The present invention relates to a quantitative feeder for continuously supplying wastes in a constant amount.

In general, landfills containing mixed soil and waste at unsanitary landfill sites, reclamation landfills, or construction waste disposal facilities are selected by the currently available sorting machines to the greatest extent possible. However, since their disposal capacity is low and soil is excessively contained in the soil, And it can not be reused as a cover material.

According to the relevant laws and regulations (the Act on the Promotion of Recycling of Construction Waste), "the maximum diameter is 100mm or less, and the content of organic foreign matter is 1% or less by volume", so that the organic foreign material, Leather, wood, plastic, etc. must be completely removed.

Therefore, the landfill waste is selected as the most recyclable combustible waste, incombustible waste such as waste concrete, waste reclaimable waste and combustible waste that can be recycled, and only minimal waste that can not be recycled is selected and incinerated or buried, While reducing the throughput significantly, the selected combustible wastes are re-injected into the dry separating separator, dried, crushed to remove foreign substances and reduced in weight, and made into alternative fuels such as RDF or RPF to be used as fuel for cement plant or paper factory. Waste incineration, waste incineration, and waste incineration are crushed using a crusher and a sorting machine, and 25mm or less of the aggregate is sorted and re-used to minimize the amount of landfill. There is a need.

In addition, the conventional soil and aggregate are not only unevenly distributed by the standard size, but also include the garbage and foreign matter such as vinyl sculpture, wood sculpture, tree roots, fiber, leather and plastic in the produced soil and aggregate, When the aggregate is reused as an embankment, the content of the foreign material exceeds the standard, and when the aggregate is used as a concrete material, the standard is not suitable, the strength is low, and the water absorption rate is high.

As a result, it is necessary to separate flammable and nonflammable waste, which can be recycled through separate sorting facilities, and waste garbage, which can not be recycled, such as landfills containing flammable waste, sand and aggregate, It is necessary to minimize the amount of waste to be treated.

The applicant of the present application has proposed Korean Patent No. 10-1061166 as a prior art for maximizing the reduction of waste to be incinerated or landfilled by recycling waste byproducts as much as resources by sorting and separating the waste.

Prior art for reducing the above-mentioned wastes is to feed waste materials such as sand, aggregate, and landfill to a hopper using an excavator, and then to a waste sorting device using a conveyor to collect combustible wastes that can be recycled, incombustible wastes, The technology of separating waste and the use of excavator are used to divide soil, aggregate and landfill into hopper of waste sorting device 3 or 4 times, so that continuous supply is difficult and constant quantity can not be supplied continuously. Therefore, heavy equipment such as excavator The selection processing ability is deteriorated in proportion to the operation time of the circulation cycle, and when the input amount is excessive, the load is generated in the sorter and the succeeding equipment, which is a cause of failure.

Thus, a waste sorting system capable of continuous dosing in a fixed amount has been proposed in Korean Patent No. 10-1398199.

Since waste introduced into the hopper of the sorting system is divided into small amounts by the excavator, it is injected into the hopper. Therefore, the amount of waste is irregular so that the sorting operation and the equipment and personnel are continuously inputted. In addition, when a large amount of waste is injected at once, an operation stoppage occurs due to an overload, so that it is difficult to efficiently operate the work and there have been inconveniences in maintenance.

Korean Patent No. 10-1061166 Korean Patent No. 10-1136047 Korean Patent No. 10-1398199

In the prior art, the waste is not continuously supplied to the subsequent treatment facility (waste sorting apparatus) while the waste such as soil, aggregate and landfill is not continuously supplied, and a certain amount is not continuously supplied, It is a technology that is created to solve the problems of overloading. As a result, it is possible to increase the treatment efficiency of the waste equipment and increase the operation rate of the input equipment by continuously supplying the waste to the subsequent treatment facility in a constant amount, And to prolong the service life thereof.

In addition, according to the present invention, there is provided a hopper in which waste (input material) is stored and supplied through an excavator or the like in order to prevent a repair cost and an operation time from being lost due to a failure, It is an object of the present invention to provide a waste quantitative supply device for continuously supplying a predetermined amount of buckets to a waste sorting device while sequentially opening and closing the buckets of the waste quantitative supply device in a stepwise manner.

According to the present invention, since the buckets mounted on the lower part of the hopper are opened and closed in a stepwise manner, the waste is discharged in a fixed amount while the waste stored in the hopper is raised and lowered to be stirred. To be smoothly and continuously supplied to the conveying means provided at the lower portion of the conveying path.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

The construction of the waste quantitative feeder for continuously discharging wastes to be supplied to the waste sorting apparatus according to the present invention in a fixed amount includes a plurality of buckets 21 and 22 in close contact with each other at a lower portion of a hopper 10 for inputting waste, A waste quantitative supply unit 20 equipped with the waste water collecting unit 23;

A cylinder 40 connected to the buckets 21, 22 and 23 for driving opening and closing of the buckets 21, 22 and 23;

A hydraulic unit (30) for controlling the driving of the cylinder (40);

Conveying means 50 mounted on the lower portion of the buckets 21, 22, 23 for conveying the waste discharged downward by opening the buckets 21, 22, 23;

The waste sorting apparatus according to claim 1,

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The opening and closing of the buckets 21, 22,

The bucket 21 at the rear, the bucket 22 at the center, and the bucket 23 at the front are sequentially moved to repeat the opening and closing operations,

The bucket 21 at the rear side, the bucket 22 at the central portion and the bucket 23 at the front side are sequentially moved to perform the opening and closing operations and then the opening and closing operations of the buckets 23, 22 and 21 are repeated in the reverse order ,

When the rear bucket 21 is opened 50%, the center bucket 22 is opened and when the bucket 22 at the center is opened 50%, the front bucket 23 is opened and the center bucket 22 is opened. When the front bucket 23 is opened by 50%, the rear bucket 21 is opened. When the front bucket 23 is opened by 100%, the bucket 21 at the front is opened, (22) is closed.

The plurality of buckets 21, 22 and 23 according to the present invention are sequentially opened and closed and the waste stored and stored in the buckets 21, 22 and 23 is raised and lowered to perform stirring operation .

According to the embodiment of the present invention, there is provided a hopper to which an input is supplied through an excavator or a loader, and a plurality of buckets for continuously supplying a predetermined amount of waste supplied to the hopper, It is possible to continuously supply waste in a predetermined amount to the waste sorting apparatus as a facility, thereby improving waste disposal efficiency, drastically reducing processing costs, preventing overloading of equipment, There is an effect of preventing loss.

In addition, since the stirring operation is performed by the opening and closing operation of the buckets while the wastes introduced through the hopper are stored, the hardening of the wastes can be prevented, and the wastes can be continuously Therefore, it is possible to prevent the decrease in the work efficiency due to the shutdown.

1 is a perspective view of a hopper mounted on an upper side of a dosing device according to the present invention.
FIG. 2 is a perspective view showing a quantitative feeder for continuously and continuously supplying wastes according to the present invention. FIG.
FIG. 3 is a side view showing a quantitative feeder according to the present invention. FIG.
4 is a front view showing an operation state of the dosing device according to the present invention;
5 is a cross-sectional view illustrating an operation state of a quantitative feeder according to another embodiment of the present invention.

The main point in the embodiment of the present invention is that when the unsorted landfill, the recycled landfill or the construction waste intermediate treatment plant is transported to the waste sorting apparatus for sorting waste such as waste paper and the like containing combustible and incombustible waste mixed with soil, It is possible to increase the treatment efficiency of wastes in the waste sorting apparatus while drastically reducing the processing cost and preventing the overload of the equipment, And to prevent the repair cost and the operation time from being lost due to the downtime and the failure.

Hereinafter, a waste water quantity supplying device for continuously supplying wastes to be supplied to the waste sorting device according to the embodiment of the present invention in a fixed amount will be described in detail as follows.

The main constitution of the waste quantitative quantity supply apparatus according to the present invention is characterized by comprising a hopper 10 for charging waste, a waste quantity supply means 20 mounted on the lower portion of the hopper 10 for continuously supplying waste in a fixed quantity, And a transfer means (50) mounted on the lower part of the waste quantity supply means (20) for transferring the waste to the waste sorting apparatus.

The hopper 10 is a function of intermittently supplying and temporarily storing waste by using an excavator or a loader, and the hopper 10 is provided with a door As shown in FIGS. 1 to 4, the opened upper part is wide and the lower part is narrowly shaped in the form of a top-down bottom, and may be formed in a different size depending on the supply amount of the waste.

In addition, the hopper 10 can be manufactured using an iron plate or a stainless steel plate having a relatively high durability and corrosion resistance, and is provided with wastes such as waste paper in which an open top is mixed with combustible and nonflammable waste, The waste is dropped and introduced into the waste quantitative supply means 20, which will be described later.

At this time, the hopper 10 is designed to collect foreign matters such as large-sized stones, garbage, and metal mixed with the waste introduced into the hopper 10 as in the registered patent No. 10-1530653 registered by the present applicant, (Not shown) may be installed.

That is, the net is installed at an upper portion of the hopper 10, and is installed so as to incline downwardly in one direction along the inclination of the hopper 10.

In the above description, the net body may be formed of a straight or lattice type wire net, and it is preferable that the net is installed in a straight line shape with different mesh sizes depending on the kind of the waste.

Accordingly, when the waste is supplied to the hopper 10 through the excavator or the loader as the mesh is installed on the upper part of the hopper 10, a large amount of the bulk of the waste, metal, So that it is prevented that a large amount of a block of stone, garbage, or metal is introduced into the inner space of the hopper 10, thereby preventing overload and mechanical failure.

The waste quantitative supply unit 20 includes a plurality of buckets 21, 22 and 23 and a cylinder 40 for opening and closing the buckets 21, 22 and 23, respectively. The waste amount determining means 20 is formed on the lower side of the hopper 10 and on the upper side of the conveying means 50 mounted on the frame 60 to be described later. In the present invention, the buckets 21, 22, and 23 are illustrated as having three buckets for explaining the embodiment, but the buckets are not limited thereto and one or more buckets may be installed You can.

The buckets 21 and 22 are attached to each of the plurality of hinges 110 and 110a fixedly mounted on both sides of the lower side of the hopper 10 at predetermined intervals, (21a, 22a, and 23a), which are punched with shaft holes, are connected to and fixed to both sides of the hinges (110) and (110a) Therefore, the buckets 21, 22, and 23 are rotated about the hinges 110 and 110a. At this time, the buckets 21, 22 and 23 are sloped in a flat plate, and guide the waste to the inside of the buckets 21, 22, and 23, and also interfere with the stored waste stored therein The guide plates 21 ', 22', 23 'are protruded from only the upper side of the buckets 21, 22, In addition, a hinge 111 (111a) for connecting to the piston (41) of the cylinder (40) is attached to the center of the outer surface of the buckets (21), (22) and (23).

At this time, the buckets 21, 22, and 23 are mounted on the hopper 10 so as to be sloped inwardly so as to form an inclined surface. The buckets 21, 22, 60 are mounted in an inclined manner.

The rear ends of the cylinders 40 are connected to the respective shaft pins 70 (71) mounted at intervals on the cylinder frames 61 (62) projecting horizontally on both sides of the frame 60 and fixedly mounted . Therefore, the cylinder 40 mounted on each of the shaft pins 71 and 72 is rotatable about the shaft pins 70 and 71. The piston 41 of the cylinder 40 is connected to the hinge 111 or 111a mounted on the center of the outer surface of the bucket 21, 22 or 23 described above.

The piston 41 of the cylinder 40 moves forward and backward to push and pull the bucket 21, 22 and 23 connected to the cylinder 40 to open and close the lower portion of the bucket 21, 22 and 23 So that the waste can be supplied in a quantitative manner.

The opening and closing times and the like are input to the hydraulic unit 30 in advance so that the buckets 21, 22 and 23 of the waste quantity supplying means 20 can be sequentially opened and closed by the cylinder 40. Therefore, the cylinder 40 is driven by the internal drive of the hydraulic unit 30 to open and close the bucket 21 (22, 23) while pushing and pulling.

The conveying means 50 mounted on the lower portion of the buckets 21, 22 and 23 includes a rotary roller 80 and 81 mounted on both ends in the longitudinal direction of the frame 60, 80) 81 disposed in the inner side of the drive shaft. The driving roller 90 forms a plurality of horizontal rollers 90a at regular intervals in the upper part of the inner side of the rotary rollers 80 and 81 and slopes on both sides of the horizontal roller 90a, ).

The conveyor belt 100 is coupled to the outer side of the rotating rollers 80 and 81 and the driving roller 90 so that the conveyor belt 100 rotates in a direction in which the rotating roller 80 and the driving roller 90 And can be rotated by driving.

Accordingly, the waste supplied in a predetermined amount by the opening and closing operations of the buckets 21, 22 and 23 is supplied to the conveyor belt 100 and moved to a subsequent waste sorting device (not shown).

As shown in FIG. 4, the conveying means 50 is formed symmetrically with respect to the waste quantitative supply means 20 on both sides so that the waste can be transferred to the left or right side according to the site conditions, A hydraulic unit 30 for providing hydraulic pressure to the cylinder 40 for opening and closing the buckets 21, 22 and 23 of the supply means 20 is formed at one side of the buckets 21, 22 and 23 The conveyor belt 100 of the conveying means 50 is driven to the left or right without being interfered with by the hydraulic unit 30 so that the waste can be conveyed will be.

The operating state of the waste quantity dispensing apparatus according to the present invention will be described in more detail with reference to the drawings.

As shown in Figs. 1 and 2, wastes are introduced into the hopper 10 in order to select wastes such as waste paper, which are mixed with soil, flammable and non-combustible waste, at unsanitary landfill sites, reclaimed landfill sites or construction waste disposal sites. At this time, the open / close time of the waste quantity supplying means 20 installed in the lower part of the hopper 10 is inputted in advance in the hydraulic unit 30.

When the waste is introduced into the hopper 10, it falls into the plurality of buckets 21, 22, and 23 constituting the waste quantity supply means 20 mounted on the lower portion of the hopper 10. At this time, the waste dropped from the hopper 10 moves downward along the guide plates 21 ', 22' and 23 'formed on both sides of the buckets 21, 22 and 23 so as to protrude only on the upper side. In addition, since the guide plates 21 ', 22', and 23 'are formed only on the upper side in addition to the structure for guiding wastes to the inside, the wastes stored and stored therein are not interfered with each other So that the discharge of the fixed amount can be smoothly discharged to the bottom without any time lag and supplied to the waste sorting device.

In addition, foreign matter such as a large amount of massive stone, garbage, and metal are selectively introduced into the buckets 21, 22, and 23 through the net attached to the upper surface of the hopper 10.

When the waste introduced into the hopper 10 falls into the buckets 21, 22 and 23 of the waste quantity supply means 20, the piston 41 of the cylinder 40 22 and 23 mounted on the lower portion of the hopper 10 while the buckets 21, 22 and 23 move forward and backward. At this time, the buckets 21, 22, and 23 are closed before the wastes are injected and supplied to supply the wastes to the hopper 10 in a fixed amount.

In the opening and closing states of the buckets 21, 22 and 23 of the waste quantity supplying means 20,

1) Sequential open / close status of buckets (single acting circulation type)

(Direction of travel of the bucket --- repetition of the bucket 21-22-23-21-22-23)

First, when the pistons 41 of the respective cylinders 40 mounted on the cylinder frames 61 and 62 protruding to both sides of the frame 60 are driven by the driving of the hydraulic unit 30, As shown in Fig. 2, the piston 41 of the cylinder 40 mounted on the rear bucket 21 is moved backward to slowly open the rear bucket 21. When the piston 41 of the cylinder 40 advances the bucket 21 after the waste is supplied to the conveyor belt 100 under the bucket 21, the bucket 21 is closed.

The piston 41 of the cylinder 40 mounted on the bucket 22 at the center portion is moved backward to slowly open the bucket 22 at the center portion to open the bucket 22 at the center portion. The bucket 22 is closed when the piston 41 of the cylinder 40 advances while pushing the bucket 22 after the waste is supplied to the conveyor belt 100 under the bucket 22.

And the piston 41 of the cylinder 40 mounted on the bucket 22 at the front is moved backward to slowly open the bucket 23 at the front to open the bucket 23 at the front. The bucket 23 is closed when the piston 41 of the cylinder 40 advances while pushing the bucket 23 after the waste is supplied to the conveyor belt 100 under the bucket 23.

As described above, when the bucket 21 at the rear side of the figure is closed, the bucket 22 and the bucket 23 at the center are sequentially opened and closed repeatedly so that the inside of the bucket 21, 22, The waste can be continuously supplied in a constant amount to the conveyor belt 100 for conveying the waste to the waste sorting device as a subsequent treatment facility.

2) Opening and closing in reverse order from sequential opening and closing of buckets (Single-acting sequential method)

(Direction of travel of the bucket --- 21-22-23-22-21 repetition of the bucket)

First, when the pistons 41 of the respective cylinders 40 mounted on the cylinder frames 61 and 62 protruding to both sides of the frame 60 are driven by the driving of the hydraulic unit 30, As shown in Fig. 2, the piston 41 of the cylinder 40 mounted on the rear bucket 21 is moved backward to slowly open the rear bucket 21. When the piston 41 of the cylinder 40 advances the bucket 21 after the waste is supplied to the conveyor belt 100 under the bucket 21, the bucket 21 is closed.

The piston 41 of the cylinder 40 mounted on the bucket 22 at the center portion is moved backward to slowly open the bucket 22 at the center portion to open the bucket 22 at the center portion. The bucket 22 is closed when the piston 41 of the cylinder 40 advances while pushing the bucket 22 after the waste is supplied to the conveyor belt 100 under the bucket 22.

And the piston 41 of the cylinder 40 mounted on the bucket 22 at the front is moved backward to slowly open the bucket 23 at the front to open the bucket 23 at the front. The bucket 23 is closed when the piston 41 of the cylinder 40 advances while pushing the bucket 23 after the waste is supplied to the conveyor belt 100 under the bucket 23.

The buckets 21 are moved back to the buckets 21 in the reverse order and are not opened and closed. The buckets 22 in the reverse order are opened and closed, and then the buckets 21 are opened and closed.

As described above, when the buckets 21, 22, 23, 22, and 21 are sequentially opened and closed in reverse order, the supply of waste is continuously and continuously supplied to the conveyor belt 100 in a fixed amount It will be possible.

3) Continuous open / close status of buckets

(Direction of travel of the bucket --- repetition of the bucket 21-22-23-21-22-23)

First, when the pistons 41 of the respective cylinders 40 mounted on the cylinder frames 61 and 62 protruding to both sides of the frame 60 are driven by the driving of the hydraulic unit 30, 3, when the piston 41 of the cylinder 40 mounted on the rear bucket 21 is moved backward and the rear bucket 21 is slowly opened, The piston 41 of the mounted cylinder 40 is retracted and the bucket 22 at the center portion is slowly opened.

At this time, when the rear bucket 21 is opened by about 50%, the piston 41 of the cylinder 40 installed at the center of the rear portion of the bucket 21 is retracted to open the bucket 22 at the central portion do. When the bucket 22 at the center portion is opened by about 50%, the piston 41 of the cylinder 40 installed at the foremost position in the front portion of the bucket 22 is retracted, 23 are opened. When the bucket 22 at the center portion is opened by about 100%, the bucket 23 at the rear is closed. When the front bucket 23 is opened by 50%, the rear bucket 21 is opened. When the rear bucket 23 is opened by about 100%, the bucket 22 at the center portion is closed.

The buckets 21, 22, and 23 are simultaneously opened in the buckets 21, 22, and 23 while the foreign substances that are misplaced in the longitudinal direction of the bucket are simultaneously opened 22, and 23 are prevented from being prevented or stopped, so that the work efficiency can be prevented from being lowered due to the shutdown of the buckets 21, 22, and 23 because the waste is supplied to the lower conveyor belt 100.

When the piston 41 of the cylinder 40 advances and the bucket 21 is pushed forward, the cylinder 40 is rotated about the axis pins 70 and 71 obliquely at an obtuse angle, (21) is rotated while being rotated inward around the hinge (111) (111a) mounted on the lower portion of the hopper (10).

Conversely, when the piston 41 of the cylinder 40 is retracted and the bucket 21 is pulled backward, the cylinder 40 is rotated at an acute angle with the oblique angle being inclined about the shaft pins 70 and 71, 21 are rotated while being rotated around the hinges 111, 111a mounted on the lower portion of the hopper.

As described above, according to the present invention, since the opening and closing operations of the buckets 21, 22 and 23 are repeatedly performed through the above three methods, the wastes introduced into the hopper 10 are successively transferred to the waste sorting device To the conveyor belt (100) of the conveying means (50).

When one of the buckets 21, 22, 23 in the opened state is closed while the piston 41 of the cylinder 40 advances, for example, The waste is raised and the buckets 22 and 23 in the closed state are opened one by one while the piston 41 of the cylinder 40 is moved backward so that the waste stored therein is downwardly moved.

Therefore, the waste stored and stored in each of the buckets 21, 22 and 23 is raised and lowered repeatedly by the opening and closing operations of the buckets 21, 22 and 23, So that the waste can be continuously supplied to the waste sorting device which is a subsequent device.

5, a plurality of buckets 21 and 22 mounted in close contact with each other in the waste quantitative supply unit 20 at the lower part of the hopper 10, A partition wall 120 is formed in the bottom wall 23 so that waste can be supplied in quantities from both sides of the buckets 21, 22 and 23, respectively. At this time, the buckets 21, 22 and 23 can be opened and closed at one side or both sides. A plurality of conveying means 50 'and 50' 'are formed below the buckets 21, 22 and 23. The conveying means 50' and 50 ' So that the wastes can be continuously supplied in a quantitative manner while being transferred in one direction or opposite to each other.

That is, the wastes are introduced into the plurality of buckets 21, 22, 23 mounted on the waste quantity supplying means 20 through the hopper 10. At this time, since the partition wall 120 is formed at the inner center of the buckets 21, 22, and 23, the waste flows into both sides.

Therefore, only the buckets 21, 22, and 23 formed on one side (left or right side in the drawing) of the partition wall 120 can be opened and closed, and both sides can be opened and closed simultaneously if necessary.

When only the buckets 21, 22 and 23 formed on one side (left or right side in the figure) of the partition wall 120 constituting the waste quantitative supply means 20 operate, the bucket 21 Only one conveyor belt 101 forming a plurality of conveying means 50 'provided at the lower portion of the buckets 21, 22 and 23 is opened and closed sequentially by the driving method of the conveyor belt 22 Waste can be supplied in a quantitative manner.

When the buckets 21, 22, and 23 formed on both sides of the partition wall 120 (left and right in the drawing) are simultaneously operated, the buckets 21, 22, The conveyor belts 101 and 102, which form a plurality of conveying means 50 'and 50 "provided at the lower portion of the buckets 21, 22 and 23, Can supply.

At this time, the plurality of conveyor belts 101 and 102 can be supplied in a predetermined amount by transferring the waste to the waste sorting device, which is a subsequent treatment facility, with different lengths in the same direction, and the conveyor belts 101 and 102 The waste can be transported in the opposite direction and transported to the waste sorting apparatus, which is a subsequent treatment facility, to be supplied in a quantitative manner.

While the present invention has been described in connection with what is presently considered to be preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

10. Hopper 20. Waste quantitative supply means
21, 22, 23. Buckets 21 ', 22', 23 '. Guide plate
21a, 22a, 23a. Coupling unit 30. Hydraulic unit
40. Cylinder 41. Piston
50, 50 ', 50 ". Feeding means 60. Frame
61. 62. Cylinder frame 70, 71. Pivot pin
80, 81. Rotary roller 90. Drive roller
90a. Horizontal roller 90b. Inclined roller
100, 101, 102. Conveyor belts 110, 110a, 111, 111a. Hinge
120. Partition wall

Claims (8)

A waste quantitative supply means 20 in close contact with a lower portion of the hopper 10 for inputting waste and equipped with a plurality of buckets 21, 22 and 23;
A cylinder 40 connected to the buckets 21, 22 and 23 for driving opening and closing of the buckets 21, 22 and 23;
A hydraulic unit (30) for controlling the driving of the cylinder (40);
Conveying means 50 mounted on the lower portion of the buckets 21, 22, 23 for conveying the waste discharged downward by opening the buckets 21, 22, 23;
The waste sorting apparatus according to claim 1,
The opening and closing of the buckets 21, 22,
The opening and closing operation is repeated while the bucket 21 at the rear side, the bucket 22 at the center portion, and the bucket 23 at the front side are sequentially moved,
The bucket 21 at the rear, the bucket 22 at the center, and the bucket 23 at the front are sequentially moved to perform opening and closing operations, and then the bucket is repeatedly opened and closed in the reverse order,
When the rear bucket 21 is opened 50%, the center bucket 22 is opened and when the bucket 22 at the center is opened 50%, the front bucket 23 is opened and the center bucket 22 is opened. When the front bucket 23 is opened by 50%, the rear bucket 21 is opened. When the front bucket 23 is opened by 100%, the bucket 21 at the front is opened, (22) is closed, characterized in that the waste sorting device is configured to continuously supply waste in a predetermined amount. delete delete delete delete The method according to claim 1,
Wherein the buckets 21, 22 and 23 are sequentially opened and closed so that the waste stored and stored in the buckets 21, 22 and 23 is raised and lowered to perform the stirring operation. A quantitative feeder for continuously supplying waste in a predetermined amount. The method according to claim 1,
The conveying means 50 is symmetrically formed on both sides of the lower portion of the waste quantity supplying means 20 and the conveying means 50 is mounted on the lower portion of the conveying means 50 to the left or right, And the waste water is supplied to the waste sorting device. delete

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