KR101486270B1 - Apparatus and system for treatment of trash - Google Patents

Abstract

Disclosed are a waste descending apparatus for a high-rise building and a waste treatment system for a high-rise building using the same. The waste treatment system for a high-rise building, which is a system for treating waste discharged in each floor of a high-rise building, includes one or more descending apparatuses vertically installed by penetrating each floor, and forming ascending air flow to descend waste while controlling the descending speed of the waste; a transfer apparatus installed right below the descending apparatuses to transfer the waste discharged from the descending apparatus to a sorting station; and a sorter installed at the sorting station to store the transferred waste by classifying the waste.

Description

[0001] APPARATUS AND SYSTEM FOR TREATMENT OF TRASH [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste disposal apparatus and a treatment system, and more particularly, to a waste disposal apparatus and a treatment system for controlling the descending speed of waste using an ascending air flow.

Generally, in a high-rise building such as an apartment or a building, in order to collect garbage from each floor, the residents moved directly using an elevator and then disposed of garbage in a separate garbage collection place. For this reason, there has been a problem that the elevator or the residents' moving passage is dirty with sewage or odor is generated.

In addition, garbage is collected separately in terms of recycling resources. As a result, the residents had to separate the garbage into different types of garbage and take the garbage to the garbage cemetery. Therefore, it was necessary to transport the garbage several times to the garbage cemetery.

Therefore, recently, a system has been proposed in which waste is dropped from each floor of an apartment, a bill, and the like, and the garbage is transferred to a collection place.

These systems have been developed with a focus on how to drop the garbage without impact, because the garbage is damaged by falling and pollutes the environment.

For example, Japanese Unexamined Patent Publication No. 2897843 (Patent Document 1) and High-rise Building Waste Disposal System (Korean Patent No. 1287171; Patent Document 2 ) "And the like.

Patent Literature 1 and Patent Literature 2 all have a dust chute extending vertically through each layer of the building to guide the descent of the trash so that the upper and lower regions of the dust chute This is a technique to adjust the speed at which waste falls by negative pressure difference. When the descent rate is controlled by using the difference in the negative pressure between the upper region and the lower region of the dust sucker based on the garbage bag, it is essential that the garbage bag has a size corresponding to the inner diameter of the dust chute, shall. Accordingly, in the case of Patent Documents 1 and 2, there is a disadvantage in that there is a limitation on the volume of the trash contained in the trash bag or a separate trash container having a size corresponding to the inner diameter of the dust chamber.

In particular, when the volume of the garbage bag is too small to divide the upper region and the lower region within the dust chamber, the difference in the negative pressure between the upper region and the lower region of the dust chamber does not occur, .

In addition, since the difference in the negative pressure between the upper region and the lower region of the dust chute is used based on the garbage bag, the upper and lower ends of the dust chute must be tightly sealed when the garbage bag is dropped.

Japanese Patent No. 2897843 (Mar. 12, 1999) Korean Registered Patent No. 1287171 (Feb.

The present invention provides a garbage lowering device for a high-rise building, which can regulate the descending speed of garbage falling inside a vertical conveying pipe, and a garbage disposal system for a high-rise building using the same.

The present invention also provides a garbage lowering device for a high-rise building and a garbage disposal system for a high-rise building using the same, wherein the garbage of various volumes can be lowered without dropping impact regardless of the inner diameter of the vertical transfer pipe.

According to an aspect of the present invention, there is provided an apparatus for transferring waste discharged from each layer of a high-rise building to a lower portion of a building, A vertical transfer pipe having a plurality of inlet ports for introducing the waste into the area corresponding to each layer; A plurality of loading doors for loading the waste into the vertical transfer pipe while opening and closing the loading port; A discharge door for discharging the waste to the outside of the vertical transfer pipe to open and close the lower end of the vertical transfer pipe; A descending speed regulating means for regulating a descending speed of the waste descending from the inside of the vertical transfer pipe; And a receiving device that receives the waste descending from the inside of the vertical transfer pipe in the vicinity of the discharge door and stably moves the discharge door toward the discharge door.

Wherein the lowering speed adjusting means includes a blowing fan installed to communicate with the upper portion of the discharge door in a lower area of the vertical transferring pipe to supply air into the vertical transferring pipe; And an exhaust fan installed at an upper end of the vertical transfer pipe and exhausting the air inside the vertical transfer pipe to the outside.

The descending speed adjusting means includes a speed control plate having a distal end extended from a portion of the inner surface of the vertical transfer pipe so as to be sloped toward the lower end of the vertical transfer pipe and spaced apart from an inner surface of the vertical transfer pipe; And a length of the piston inserted into the vertical transfer pipe to correspond to a lower area of the speed control plate and a length of the piston inserted into the vertical transfer pipe, And adjusting a draft angle of the plate.

The speed control plate may be formed as a flat type bar type.

The speed control plate may be formed as a bar type curved at a predetermined curvature in a direction perpendicular to the gradient direction.

The descending speed adjusting means includes elastic bars arranged along the circumferential direction of the vertical transfer tube, and the elastic bars may be slanted so that the ends of the respective elastic bars are close to each other.

The vertical conveying pipe is provided with a waste position detecting sensor for detecting the speed of the waste to be lowered, so that the operation amount of the blowing fan and the exhausting fan can be controlled according to the speed of the waste detected by the waste position detecting sensor.

Wherein the discharge door opens and closes the lower end of the vertical transfer pipe while being pivoted downward to the vertical transfer pipe, the receiving device comprising: a base plate positioned inside the vertical transfer pipe; An airbag provided on an upper surface of the base plate; And a plate transfer device installed outside the vertical transfer pipe, connected to the base plate, and configured to move the base plate up and down.

Meanwhile, a high-rise building garbage disposal system according to an embodiment of the present invention is a system for treating garbage discharged from each layer of a high-rise building. The system is installed vertically through each layer and adjusts the descending speed of the garbage At least one descending device for descending the waste; A transfer device installed in a lower portion of the lowered transfer device for transferring the waste discharged from the lowered transfer device to the sorting hall; And a sorting device installed in the sorting hall for sorting and storing the transported waste.

Wherein the lowering device comprises: a vertical transferring pipe having a plurality of input ports through which waste is introduced into the region corresponding to each layer, the vertical transferring pipe extending through the respective layers and leading to the upper region of the transferring device in the vertical direction, A plurality of loading doors for loading the waste into the vertical transfer pipe while opening and closing the loading port; A discharge door installed to open and close the lower end of the vertical transfer pipe and to discharge the waste from the vertical transfer pipe to the transfer device; A descending speed regulating means for regulating a descending speed of the waste descending from the inside of the vertical transfer pipe; And a receiving device that receives the waste descending from the inside of the vertical transfer pipe in the vicinity of the discharge door and stably moves the discharge door toward the discharge door.

Each of the layers is provided with a loading device for loading the waste through the loading door. The loading device includes a case installed around the vertical transferring passage and provided with an access gate, the case surrounding the loading door. And an input unit installed in the case for inputting the type of trash by a user and for opening and closing the closing door.

The sorter may be provided with a plurality of storage containers for storing the garbage according to the type of the garbage. The sorter may selectively supply garbage to the storage container storing the garbage of the corresponding type according to the type of the garbage inputted from the input unit.

The sorting device is provided with a meter for measuring the weight of the waste, and the plurality of storage containers are divided into a plurality of first storage containers for specifying the type of the waste and at least one second storage container for which the type of the waste is not specified , The sorting device compares a reference weight range for each kind of garbage selected and a measured weight of the corresponding garbage according to the type of garbage inputted from the input unit, and if the measured weight is within the reference weight range, And supplied to the second storage container when the actual weight is out of the reference weight range.

Wherein the transfer device is provided with a storage container for receiving and transporting the waste discharged from the lowering device through the opened upper part, and is installed subsequent to the sorting device, wherein the storage container is cleaned and then transported to the lower- And a return device for providing a return value.

A cleaning means for cleaning the interior of the container by spraying the cleaning liquid from the lower portion to the upper portion of the movement path of the return device is provided in the receiving container supplied from the sorting device to the return device, And an inverting means for inverting the upper portion of the receptacle so that the upper portion of the receptacle faces upward may be disposed in the movement path of the return device following the cleaning means.

And an accommodation container waiting device for storing an extra accommodation container in front of each of the descending devices and selectively supplying an extra accommodation container to the transfer device may be provided.

According to the embodiment of the present invention, it is possible to control the descending speed of the garbage descending from the inside of the vertical conveying pipe, which is the passage through which the garbage is lowered.

In addition, since the difference in the negative pressure formed in each of the vertical passageways is not used, the upper and lower ends of the vertical passageways are not required to be hermetically sealed.

In addition, since the descending speed of the waste can be controlled in various forms, there is an effect that it is not necessary to limit the volume of the waste to be brought into the vertical transfer pipe.

FIG. 1 is a configuration diagram showing a garbage disposal system for a high-rise building according to an embodiment of the present invention.
Fig. 2 is an enlarged view of the receiving device of the descent device of the present invention.
3 is a view for explaining another embodiment of the descending speed adjusting means.
4A and 4B show another embodiment of the speed control plate shown in Fig.
5A and 5B are views for explaining another embodiment of the descending speed adjusting means.
6 is a configuration diagram showing a garbage lowering apparatus for a high-rise building which is a main part of the present invention.
FIG. 7 is a block diagram showing a garbage disposal system for a high-rise building according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a high-rise building waste disposal apparatus and a high-rise building waste disposal system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text. It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing. In the accompanying drawings, the dimensions of the structures are enlarged to illustrate the present invention in order to clarify the present invention.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, the terms "comprises", "having", and the like are used to specify that a feature, a number, a step, an operation, an element, a part or a combination thereof is described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

FIG. 1 is a view showing a garbage disposal system for a high-rise building according to an embodiment of the present invention, and FIG. 2 is a view showing a garbage descending apparatus for a high-rise building which is a main part of the present invention.

As shown in FIGS. 1 and 2, a waste treatment system for a high-rise building according to an embodiment of the present invention includes a descending device 100 for descending waste, a receiving device 100 for taking the waste into the descending device 100, A sorting device 400 for sorting and storing the garbage transferred to the sorting device, and a sorting device 400 for sorting the collected garbage into different types, And a returning device 500 for returning the container 320 to which the waste is removed, to the transfer device 300.

The lowering device 100 is a device for lowering the waste to the transfer device in each layer of the high-rise building. The vertical transferring pipe 110, the loading door 120, the discharge door 130, the descending speed adjusting device 140, And a receiver device 160.

The vertical conveying pipe 110 is a means for providing a passage through which the waste is lowered and is provided in the form of a rectangular pipe having an upper end and a lower end opened to form a passage through which the waste moves, . At this time, it is preferable that the opened upper end of the vertical transfer pipe 110 extends to the outside of the building. The lower end of the vertical transfer pipe 110 may extend to a position where the transfer device 300 is installed. For example, the lower end of the vertical transfer pipe 110 preferably extends to the lowest layer of the building.

On the other hand, the vertical transfer pipe 110 is provided with an inlet 111 through which waste can be carried into the vertical transfer pipe 110 at a position corresponding to each layer. In other words, a slot 111 is provided for each layer.

Each of the input ports 111 is provided with the input door 120.

The inlet door 120 is provided in the inlet port 111 to open and close the inlet port 111 and to input the waste into the vertical transfer pipe 110. Accordingly, it is preferable that the closing door 120 is installed to rotate in the outward direction with respect to the lower end of the inlet 111. Therefore, when the closing door 120 rotates in the outward direction and the waste is placed on the upper part of the door 120, the closing door 120 is rotated to close the closing port 111, so that the waste is discharged from the closing door 120 So that the vertical pipe is slid into the pipeline 110. Of course, the construction of the closing door 120 is not limited to the illustrated embodiment, but may be changed in various ways that the waste can be introduced into the vertical transfer pipe 110 by opening and closing the inlet 111 .

In addition, the discharge door 130 is provided at the lower end of the vertical transfer pipe 110.

The discharge door 130 is installed at the lower end of the vertical transfer pipe 110 to open and close the lower end of the vertical transfer pipe 110. At this time, the discharge door 130 is installed to be pivoted downward to the vertical transfer pipe 110. For example, the discharge doors 130 may have a structure in which a pair of the discharge doors 130 are brought into contact with each other on the same plane to block the opened lower end of the vertical transfer vessel 110. At this time, each of the discharge doors 130 may have a structure in which one end thereof is rotatably installed at the lower end of the vertical transfer pipe 110, and the other ends thereof are butted against each other. When the discharge door 130 closes the lower end of the vertical transfer pipe 110, the waste is lowered and is placed on the upper surface of the discharge door 130. At this time, since the discharge door 130 is installed so as to be pivoted downward, an impact can be absorbed when the waste is seated.

The descending speed regulating means 140 regulates the speed of the waste descended by the vertical transfer pipe 110. The descending speed regulating means 140 is connected to the inside of the vertical transfer pipe 110 A blowing fan 141 for supplying air and an exhaust fan 142 for exhausting the air inside the vertical transfer pipe 110 to the outside.

The ventilation fan 141 is installed such that the installation position of the ventilation fan 141 communicates with the upper portion of the discharge door 130 of the lower area of the vertical transfer pipe 110 in order to form a rising air flow inside the vertical transfer pipe 110 It is desirable to install it. Further, the exhaust fan 142 may be installed at the upper end of the vertical transfer pipe 110.

Thus, the upward airflow is formed in the vertical transfer pipe 110 by the action of the air blowing from the blowing fan 141 to the inside of the vertical transfer pipe 110 while the air is sucked and exhausted from the exhaust fan 142 To adjust the descending speed of the trash.

In particular, the vertical transfer pipe 110 is provided with a waste position detecting sensor 150 for each area, so that the falling speed of the waste can be detected. At this time, the operation amount of the blowing fan 141 and the exhausting fan 142 is adjusted according to the falling speed of the detected waste, so that the amount of the rising air in the vertical transfer pipe 110 is controlled to adjust the descending speed of the waste It is.

3 is a view for explaining another embodiment of the descending speed adjusting means.

Referring to FIG. 3, as another example of the descending speed adjusting means 140, the descending speed adjusting means 140 may include a speed controlling plate 143 and a plate adjusting device 144.

The speed control plate 143 may be a long length plate of bar type. The upper end of the speed control plate 143 is fixed to a partial area of the inner surface of the vertical transfer pipe 110 and the end of the speed control plate 143 is sloped from the fixed partial area toward the lower end of the vertical transfer pipe 110 . At this time, the end of the speed control plate 143 may be spaced apart from the inner surface of the vertical transfer pipe 110.

This speed control plate 143 is illustrated in FIG. 3 and FIGS. 4A and 4B. 4A and 4B show another embodiment of the speed control plate shown in Fig. For example, the speed control plate 143 may be formed as a flat bar type as shown in FIG. 3, or may be formed in a direction perpendicular to the direction in which the speed control plate 143 is extended, as shown in FIGS. 4A and 4B. The curved shape of the bar type can be formed. The illustrated speed control plates 143 are provided with elasticity.

The plate adjusting device 144 is positioned outside the vertical transfer pipe 110 to adjust the draft angle of the speed control plate 143. [ In one example, the plate adjustment device 144 may be in the form of a hydraulic or pneumatic cylinder. In this case, the end of the piston 144a may be inserted into the vertical transfer pipe 110 and correspond to the lower region of the speed control plate 143. [

The plate adjusting device 144 may control the length of the piston 144a inserted into the vertical transfer pipe 110 to adjust the draft angle of the speed control plate 143. [ That is, when the length of the piston 144a inserted into the vertical transfer pipe 110 becomes long, the end of the speed control plate 143 gradually approaches the inner surface of the vertical transfer pipe 110, Is rested on the speed control plate 143, and the section in which the speed is reduced becomes longer. On the other hand, when the length of the piston 144a inserted into the vertical transfer pipe 110 is shortened, the end of the speed control plate 143 is moved away from the inner surface of the vertical transfer pipe 110, The section on which the speed is reduced by being seated on the control plate 143 is shortened.

5A and 5B are views for explaining another embodiment of the descending speed adjusting means.

Referring to FIGS. 5A and 5B, as another embodiment of the descending speed adjusting means 140, the descending speed adjusting means 140 may be composed of the elastic bars 145.

The elastic bars 145 are arranged along the circumferential direction of the vertical transfer pipe 110. At this time, the elastic bars 145 are sloped such that the ends of the respective elastic bars 145 are close to each other. The elastic bars 145 have an elastic force. With this configuration, the proximal ends of the elastic bars 145 reduce the passage through which the trash can be lowered. In this case, when the garbage is inserted into the region where the elastic bars 145 are arranged, the lowered garbage is supported by the ends of the elastic bars 145, whereby the lowering speed of the garbage is reduced. The descending speed of the garbage is temporarily reduced and the ends of the elastic bars 145 are temporarily tensioned in the direction of being separated from each other after temporarily supporting the garbage. The waste having the reduced speed is lowered again toward the lower end of the vertical conveying pipe 110.

Fig. 2 is an enlarged view of the receiving device of the descent device of the present invention.

Referring to FIG. 2, the receiving device 160 receives waste descending from the inside of the vertical transfer pipe 110 in the vicinity of the discharge door, and stably moves the discharge door 130 toward the discharge door. Such a receiver device 160 may include a base plate 161, an airbag 162, and a plate transfer device 163.

The base plate 161 may have a shape corresponding to a sectional shape of the vertical transfer pipe 110 and may be installed inside the vertical transfer pipe 110. The base plate 161 receives the waste descending in the vertical transfer pipe 110.

The airbag 162 is installed on the upper surface of the base plate 161. The airbag 162 alleviates impact due to the descending speed of the garbage which is lowered to the upper surface of the base plate 161.

The plate transfer device 163 is installed outside the vertical transfer pipe 110 and is connected to the base plate 161 to move the base plate 161 up and down. At this time, the base plate 161 may be connected to the plate feeding device 163 so as to be rotatable downward. The shape of the transfer device 163 is not particularly limited. For example, the transfer device 163 may be formed of a rack and a pinion.

Each floor is provided with a loading device 200 for loading the waste into the vertical transfer pipe 110 through the loading door 120.

The loading device 200 includes a case 210 installed around the vertical transfer pipe 110 so as to surround the periphery of the loading door 120.

The case 210 serves to isolate the inside of the vertical transfer pipe 110 from the inside of the building. Thus, while the waste is descending from the inside of the vertical conveying pipe 110, the air forming the ascending air flow therein is prevented from flowing into the inside of the building through the inlet 111. [ As a result, the odor is prevented from flowing into the inside of the building.

Meanwhile, the case 210 is provided with a gate 211 for allowing the user to carry the trash into the inside thereof. The case 210 is provided with an input unit 220 for the user to input the type of trash and to open and close the closing door 120.

The input unit 220 may be implemented in various manners in which the user inputs the type of trash and opens and closes the input door 120. For example, a touch panel having various execution buttons can be applied. At this time, the input unit 220 displays whether the closing door 120 can be opened or closed. In other words, it is designed so that the trash can be put into or stood still while the trash is descending from the other layer through the vertical conveying pipe 110. However, while the waste is falling in another layer, the entrance gate 211 is controlled not to be opened so that the air forming the upward flow is prevented from flowing back to the occupant space through the entrance gate 211.

Meanwhile, a transfer device 300 for transferring the lowered waste through the lowering device 100 to the sorting hall is provided.

The conveying device 300 includes a first conveyor 310 installed between the lower portion of the descending device 100 and the sorting device. At this time, when a plurality of lifting apparatuses 100 are provided according to the size of the building, the first conveyor 310 is installed to pass through all of the downward apparatus 100.

In the first conveyor 310, a plurality of receiving containers 320 receiving waste discharged from the descending device 100 are seated and transported.

At this time, in order to smoothly transfer the waste discharged from the plurality of descending devices 100, an extra storage container 320 is stored in the front area of each descending device 100, A container holding device 340 functioning to feed the lower part of each lowering device 100 to the conveyor 310 is disposed. If there is a shortage of the container 320 being moved through the first conveyor 310, the container 320 may be further supplied from the container waiting device 340 located in front of the descending device 100, . Of course, when the container 320 is moving excessively on the first conveyor 310, it can be returned to the container waiting device 340 and wait for it.

The upper portion of the receiving container 320 is opened to allow waste falling through the discharge door 130 of the lowering device 100 to be easily accommodated.

A plurality of receiving container position detecting sensors 330 are provided on the moving path of the first conveyor 310 to detect and confirm the position of the receiving container 320 being conveyed through the first conveyor 310 .

On the other hand, a sorter 400 for sorting garbage by type and storing the garbage in the storage container 410 is installed in the sorter.

The sorting apparatus 400 includes a plurality of storage containers 410 for storing the types of waste, a meter 420 for measuring the weight of the transferred waste, and a storage container 320 containing the waste, And a mounting arm 430 for supplying the storage container 410 to the storage container 410.

The mounting arm 430 attaches the storage container 320 and inverts the storage container 320 to supply waste in the storage container 410 to the storage container 410. At this time, the mounting arm 430 is installed to be able to slide while moving on the rail 431 to drop the waste to the storage container 410.

The plurality of storage vessels 410 may be divided into a plurality of first storage vessels 411 designated for the type of the waste and at least one second storage vessel 412 for which the type of the waste is not specified.

The sorting device 400 compares the actual weight of the corresponding garbage according to the predetermined reference weight range for each type of garbage and the type of the garbage inputted from the input unit 220. If the actual weight is within the reference weight range, To the first storage container 411 corresponding to the weight of the second storage container 411, and supplies the second storage container 412 when the actual weight is out of the reference weight range.

For example, the first storage container 411 is divided into general garbage, waste paper, waste plastic, and waste paper. The second storage container 412 does not specify the kind of garbage. The upper limit value and the lower limit value of the weight are set in advance in consideration of the inner diameter of the vertical transfer pipe 110 and the like in the sorter 400. For example, when the user inputs the type of waste through the input unit 220 as the type of waste, the position of the storage container 320 containing the waste is monitored through the storage container position detection sensor 330, When the weight is measured by a weigher and the measured weight value corresponds to the weight range of the predetermined waste paper, the waste is supplied to the first waste paper storage container 411, and the measured weight value corresponds to the weight range of the preset waste paper The garbage is supplied to the second storage container 412. Therefore, the garbage stored in the first storage container 411 may be processed or recycled without any separate sorting, and the garbage stored in the second storage container 412 may be separately sorted to improve the separation and collection efficiency of the garbage .

Meanwhile, a return device 500 for transferring the container 320, in which waste is collected, to the transfer device 300 is installed in the sorter following the sorter 400.

The return device 500 may adopt a conveyor system for conveying the container 320 in the same manner as the conveyance device 300. Accordingly, the return device 500 includes the second conveyor 510.

At this time, on the moving path of the second conveyor 510, a cleaning means 520 for cleaning the container 320 is provided.

The cleaning means 520 is disposed below the movement path of the second conveyor 510 to spray the cleaning liquid from the lower portion to the upper portion.

In order to clean the storage container 320 using the cleaning means 520, the storage container 320 supplied from the sorting device 400 to the second conveyor 510 is supplied so that the opened top faces downward desirable. Thus, while the container is being conveyed through the second conveyor 510, the inside of the container is cleaned while passing through the cleaning means 520. At this time, since the opened upper portion of the receiving container 320 is directed downward, the washing liquid does not remain in the receiving container 320 but is discharged to the outside.

On the moving path of the second conveyor 510, an inverting means 530 for inverting the open top of the container 320 upwardly is disposed following the cleaning means 520. Therefore, when the receiving container 320 is positioned directly below the lowering device 100, the upper portion of the receiving container 320 is positioned at the lower side of the lower conveyor 310, So that the waste discharged from the descending device 100 can be smoothly accommodated.

The operating state of the garbage disposal system for a high-rise building according to an embodiment of the present invention will be described.

The user collects the garbage according to the type and stores it in a predetermined envelope. In order to discharge the collected garbage, the collected garbage is taken to the loading device 200 provided in each floor.

Then, the user opens the entrance gate 211 of the carry-in apparatus 200 to bring the collected trash into the case 210. [ Then, after the entrance gate 211 is closed, the input unit 220 is used to input the type of the trash. Then, it is detected whether the waste is falling in another layer and whether the container 320 is disposed at the lower part of the vertical conveyance pipe 110, and the input unit 220 indicating whether or not the waste can be inputted is checked. If this is possible, press the drop button on the trash. Then, when the loading door 120 is opened, the waste is carried into the vertical transfer pipe 110.

When the trash is brought into the vertical conveying pipe 110, the trash is lowered while the descending speed is slowed down by the descending speed adjusting means. At this time, the descending speed adjusting means may be one of the forms of the above-mentioned embodiments. In the following description, the descending speed adjusting means including the blowing fan 141 and the exhausting fan 142 among various embodiments of the descending speed adjusting means will be described as an example.

The trash is carried into the vertical conveying pipe 110 and then the lowering button is pressed and air is blown into the vertical conveying pipe 110 through the blowing fan 141 and the vertical conveying pipe 110 are discharged to the outside, an upward flow is formed inside the vertical transfer pipe 110. As a result, the waste descending through the vertical conveying pipe 110 is lowered at a lowering speed. At this time, while the position of the trash is detected by the trash position detecting sensor 150 provided for each region of the vertical transfer pipe 110, the descending speed of the trash is detected. Thus, the descending speed is adjusted until the waste is seated on the discharge door 130.

When the descending speed is controlled and the lowered garbage reaches the discharge door 130, the garbage is seated on the base plate 161 of the receiving device 160. The base plate 161 is in a state of being raised by the plate transfer device 163. At this time, the garbage is relieved by the airbag 162. Thereafter, the plate transfer device 163 operates to move the base plate 161 toward the discharge door 130.

When the trash reaches the discharge door 130, the base plate 161 is rotated so that the trash falls onto the discharge door 130, and then the discharge door 130 is opened so that the trash is disposed below the discharge door 130 And dropped into the storage container 320.

When garbage is received in the storage container 320, the first conveyor 310 is operated and the storage container 320 is transferred to the sorter. At this time, the receiving container 320 is moved while being monitored by the receiving container position detecting sensor 330 provided in the moving path of the first conveyor 310.

By the continuous operation of the first conveyor 310, the receiving container 320 is transported to the sorter, and the receiving container transported to the sorter is weighed while passing through the meter 420.

When the weight of the garbage is measured, the predetermined weight range corresponding to the type of the garbage inputted to the input unit 220 is compared with the weight value measured by the meter 420, 2 storage container 412. [0053]

At this time, the supply of the waste is performed such that the mounting arm 430 mounts the storage container 320 and transfers the storage container 410 to the designated storage container 410, then reverses the storage container 320 to drop the waste to the storage container 410.

When the waste is discharged from the container 320, the mounting arm 430 places the container 320 in the inverted state on the second conveyor 510.

In this state, while the second conveyor 510 is operated, the receiving container 320 is moved in the direction of the washing means by being loaded on the second conveyor 510, and water is sprinkled in the washing means 520 while passing through the washing means 520 The inside of the accommodation container 320 is cleaned by the cleaning liquid.

The container 320 having passed through the cleaning means 520 is continuously moved and reversed to the correct position through the inversion means 530. [ The stationary receiving container 320 is continuously conveyed to be provided to the first conveyor 310 and disposed immediately below the vertical conveying pipe 110.

FIG. 3 is a block diagram illustrating a garbage disposal system for a high-rise building according to another embodiment of the present invention.

Another embodiment of the present invention according to Fig. 3 includes a descending device 100, a carrying device 200, a transfer device 300, and a sorting device 600 as in the above-described embodiment.

However, in this embodiment, the waste is received in the receiving container (320 of FIG. 1 and FIG. 2) and is conveyed to the sorting hall by using the direct conveying device 300 without conveying. Accordingly, the return device (530 in FIG. 1) for returning the container as in the above-described embodiment is not provided.

Accordingly, a detailed description of a configuration overlapping with the configuration of the above-described embodiment will be omitted, and a sorting apparatus provided in the sorting space will be described.

The sorting apparatus 600 according to the present embodiment includes a plurality of storage containers 610 for storing the garbage for each type, a meter 620 for measuring the weight of the transferred garbage, a sorting unit 620 for sorting the garbage into the storage containers 610 And a plurality of selection gates 630 for supplying the selected gates.

The plurality of storage vessels 610 may be divided into a plurality of first storage vessels 611 for which the type of waste is designated and at least one second storage vessel 612 for which no type of waste is designated.

The sorting gate 630 is a means for supplying the transported waste to the storage container 610, and various schemes can be applied to the method. For example, disposed on the path through which the waste is conveyed and selectively opened and closed so that the waste is opened only while passing through the upper portion of the storage container 610, passes through the sorting gate 630 where the waste is opened, And drops into the container 610. At this time, a separate means (not shown) for pushing the trash toward the sorting gate 630 may be provided on the moving path of the trash.

In this embodiment, similarly to the above-described embodiment, the reference weight range for each kind of garbage is compared with the actual weight of the garbage according to the type of garbage inputted from the input unit 220. If the actual weight is within the reference weight range, The garbage is supplied to the first storage container 611 corresponding to the type and supplied to the second storage container 612 when the actual weight is out of the reference weight range.

The description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features presented herein.

Claims (16)

An apparatus for transferring waste discharged from each floor of a high-rise building to a lower portion of the building,
A vertical transfer pipe having a plurality of input ports through which the waste is introduced into the region corresponding to each layer,
A plurality of loading doors for loading the waste into the vertical transfer pipe while opening and closing the loading port;
A discharge door for discharging the waste to the outside of the vertical transfer pipe to open and close the lower end of the vertical transfer pipe;
And a blowing means installed in the lower portion of the vertical transfer pipe so as to communicate with the upper portion of the discharge door so as to adjust a descending speed of the waste descending from the inside of the vertical transfer pipe to supply air into the vertical transfer pipe A descending speed adjusting means And
And a receiving device for receiving waste descending from the inside of the vertical transfer pipe in the vicinity of the discharge door and stably moving the discharge door toward the discharge door,
Wherein the receiving device includes a base plate positioned inside the vertical transfer line and having a shape corresponding to a cross-sectional shape of the vertical transfer line,
Wherein the blowing means supplies an air to the inside of the vertical conveying pipe to form a rising air flow inside the vertical conveying pipe to regulate a descending speed of the waste. The method according to claim 1,
The descending speed adjusting means comprises:
Further comprising an exhaust fan installed at an upper end of the vertical transfer pipe to exhaust air inside the vertical transfer pipe to the outside,
Garbage lowering device for high - rise buildings. The method according to claim 1,
The descending speed adjusting means comprises:
A speed control plate having a distal end extended from a portion of the inner surface of the vertical transfer pipe to a lower end of the vertical transfer pipe and spaced apart from an inner surface of the vertical transfer pipe; And
The end of the piston is inserted into the vertical transfer pipe to correspond to the lower region of the speed control plate and the length of the piston inserted into the vertical transfer pipe is adjusted And a plate adjusting device for adjusting a draft angle of the plate,
Garbage lowering device for high - rise buildings. The method of claim 3,
Wherein the speed control plate is formed as a plate type bar type,
Garbage lowering device for high - rise buildings. The method of claim 3,
Wherein the speed control plate is formed as a bar type curved at a predetermined curvature in a direction perpendicular to the gradient direction,
Garbage lowering device for high - rise buildings. The method according to claim 1,
The descending speed adjusting means comprises:
And elastic bars arranged along the circumferential direction of the vertical transfer pipe,
Wherein the elastic bars are arranged such that ends of the elastic bars are close to each other,
Garbage lowering device for high - rise buildings. 3. The method of claim 2,
The vertical transfer pipe is provided with a waste position detecting sensor for detecting the speed of the waste to be lowered to control the operation amount of the blowing means and the exhaust fan according to the speed of the waste detected by the waste position detecting sensor,
Garbage lowering device for high - rise buildings. The method according to claim 1,
Wherein the discharge door is opened and closed at the lower end of the vertical transfer pipe while being pivoted downward to the vertical transfer pipe,
The receiving device comprising:
An airbag provided on an upper surface of the base plate; And
Further comprising a plate transporting device disposed on the exterior of the vertical transfer line and connected to the base plate and configured to raise and lower the base plate,
Garbage lowering device for high - rise buildings.
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