KR100919848B1 - Waste storage facility - Google Patents

Abstract

The present invention relates to a garbage storage device having a flap valve installed at a lower end of an outdoor inlet or a vertical pipeline of a garbage intake transport system of a building. The waste storage device according to the present invention is continuously arranged in a vertical direction from a top floor to a bottom floor. In the building waste storage device for storing waste when the waste is introduced from a plurality of vertical pipes, and a plurality of waste inlet intermittently arranged with the vertical pipes, and the storage device body having a cross-sectional area larger than the cross-sectional area of the pipe; And a flap which is rotatably supported at an upper end of the storage device and formed to have a size to open and close the conduit, and can be pushed while being in contact with an outer surface of the flap while being avoided from an outer portion of the flap. Both ends having an electric lever rotatably coupled to the main body of the storage device. Characterized in that, the opening and closing operation of the flap in the pipeline for guiding the transport of the incoming waste can be made by the rolling motion of the operating piece, so that it can be operated even during cold freezing.

Description

Waste storage facility

The present invention relates to a waste storage device having a flap valve installed at a bottom of an outdoor inlet or a vertical pipeline of a waste suction transportation system of a building, and more particularly, an opening and closing operation of a flap in a pipeline for guiding the transport of incoming waste. The present invention relates to a waste storage device that can be made by rolling motion of a working piece, thereby making it possible to operate even in a cold weather.

In general, in high-rise buildings such as mansions and business buildings, in order to recover the garbage generated from each floor, residents have directly put the existing elevator directly into the lower floor collecting facility. For this reason, there has been a problem such as dirty with filthy water or smell due to the garbage input of an elevator or a collecting facility.

In recent years, the consciousness of recycling waste has increased, and the awareness of separating and collecting food waste and general waste has increased.

Therefore, even in the case of food waste, especially food waste, various waste can be opened and closed, but also when the food waste, while opening and closing the lid, a lot of odors occur, even bad smell to the furniture around the waste separation container Problems such as seeping have occurred, and there have been various disputes according to the arrangement of the waste separation container.

In response to this, a garbage suction transport system has been provided for each building to allow artificial waste to be automatically sucked out of the building and transported to the outside of the building. However, if there is too much garbage, the waste disposal capacity cannot be handled at once. It had disadvantages.

Accordingly, the present invention has been made in consideration of the above-described circumstances, and an object of the present invention is to input garbage from each floor including each household, and to input garbage, and a garbage detector for detecting garbage input detects whether garbage is input. The waste is sucked by using suction force, but the waste is temporarily suspended at the lower part of each inlet which can stably separate the waste and air through the waste collector with less power and transfer it to the area for the next waste disposal. The present invention provides a waste storage device having a flap valve for storage.

In order to achieve the above object, a garbage storage device according to the present invention includes a vertical pipe which is continuously arranged in a vertical direction from the top floor to a lower floor, and when waste is introduced from a plurality of garbage inlets arranged intermittently with the vertical pipe. As a storage waste storage device for storing the same,

A storage device body having a cross-sectional area larger than that of the conduit;

A flap rotatably supported at an upper end of the storage device and formed to open and close the pipe;

It is characterized in that it is provided with an electric lever rotatably coupled to both ends of the storage device main body in the form of a c-shape to be pushed while in contact with the outer surface of the flap while avoiding from the outer portion of the flap.

1 is a conceptual diagram showing a garbage suction transport system to which an embodiment of the present invention is applied;

2 is a perspective view showing a garbage storage device according to an embodiment of the present invention,

Figure 3 is a plan view showing a garbage storage device according to an embodiment of the present invention as viewed from above,

4 is a front structural view as viewed from the arrow A direction of Figure 3, and

5 is an operation diagram for explaining a process of closing operation while the flap valve of the waste storage device of Figure 4 rotates.

6 is a side view of the structure shown in the direction of arrow B of FIG.

<Explanation of symbols for main parts of the drawings>

   10: suction blower 20: vertical pipe

   30: garbage inlet 40: detection sensor

   50: suction pipe 60: exhaust pipe

   80: garbage collector 90: Venturi tube

  200: garbage storage device 201: storage device body

  210: flap 220: electric lever

  230: rolling roller 240: guide

First, briefly explaining the basic configuration of the garbage suction transport system to help the understanding of the present invention,

1 and 2, the garbage suction transport system is adopted as part of the waste conveying apparatus of the conveying method, and the waste suction for buildings having a vertical chute (dust chute) for transporting the waste when it is added It is intended to constitute a transport system.

In addition, referring to the drawings, first, reference numeral 10 denotes a suction device (hereinafter, referred to as a suction blower), such as a fan or a blower, which is disposed outside an apartment building or the like.

In addition, the waste suction conveying system, the vertical pipe line 20 continuously arranged in a vertical direction from the uppermost floor to the lower floor, and a plurality of waste inlet port 30 intermittently arranged so as to communicate with the vertical pipe line 20. And, a waste storage device 200 for opening and closing the vertical pipe 20 to control the falling of the waste introduced from the waste inlet in the lower side of the waste inlet 30 and the waste inlet 30 When the waste is introduced into the vertical pipe 20 from the sensor, the sensor 40 is disposed in the vertical pipe 20 to detect whether the waste is inputted, and is introduced by the sensor 40. Hopper-type garbage collector (80) connected to the suction blower (10) to be in air communication via the exhaust pipe (60) to the front to suck the waste through the suction pipe (50) connected to the vertical pipe (20) , collector) The hopper-type garbage collector 80 includes a venturi tube 90 connected to the middle of the exhaust pipe line 60 so as to convert the suction air classified into the waste into a pressure to obtain a set suction pressure.

In addition, the connection portion between the vertical pipe 20 and the suction pipe 50 is formed by the curved portion C of the vertical pipe 20 is connected to the suction pipe (50).

In addition, the waste storage device 200, the storage device main body 201 having a larger cross-sectional area than the cross-sectional area of the vertical pipe 20, and hinged to the upper end of the storage device to be rotatably hinged, the water The flap 210 formed to open and close the straight pipe 20 and both ends thereof in a c-shape to be pushed while being in contact with the outer surface of the flap 210 while being avoided from the outer portion of the flap 210. The storage device main body 201 is rotatably configured to include an electric lever 220 rotatably connected via a bearing 203.

In addition, a driving source such as a circular wheel, a lever, or an electric motor M is coupled to the electric lever 220 so as to transmit rotational force.

In addition, the rolling roller 230 is rotatably supported at the center of the electric lever 220.

Moreover, the rotation center line of the said rolling roller 230 with respect to the rotation center line of the said electric lever 220 is arrange | positioned in the off-axis position mutually out of a predetermined distance to the upstream of the rotation direction of the said electric lever in the cross section view. As illustrated in FIG. 4, the electric lever 220 supports the flap 210 from the bottom in the closing operation of the vertical pipe 20 in a state in which the electric lever 220 is vertically placed. In order to ensure sufficient bearing force of the flap 210 by allowing the rolling roller 230 of)) to support the flap 210 at the point as far as possible from the hinge portion as the rotational support point of the flap 210. to be.

In addition, the outer circumferential surface of the flap 210 is fixed to the guide stand 240 is arranged in the longitudinal direction to guide the rolling roller 230 to move the cloud.

In addition, inside the hopper-type garbage collector 80, a strainer 81 in the form of a cylinder in which the exhaust pipe 60 is connected to the upper side is disposed to classify air and garbage, and the double garbage is a cyclone. In order to make it fall freely using the phenomenon, the lower drop opening 83 of the trash collector 80 formed in the hopper shape, in which the discharge end of the suction pipe 50 is connected to one side of the cylindrical portion having the uppermost maximum diameter, is formed. A second waste storage device 200 for opening and closing may be arranged to replace the gate valve G2 of FIG. 1.

Next, the operation | movement of the garbage collection facility which has the suction pressure sending structure of the said structure is demonstrated.

First, in order to take out the waste from the waste inlet 30 to the waste chute 20, an operation terminal (not shown) is operated to drive the existing motor unit M, and the above-described motor unit M is driven according to the driving of the motor unit M. The flap 210 of the waste storage device 200 is rotated up and down to be opened.

In this case, when the garbage is input, whether the garbage is input is detected in advance through the sensor 40.

Subsequently, when the flap 210 of the waste storage device 200 is rotated downward, the waste falls to the vertical pipe 20 under the waste storage device 200.

Here, the suction blower 10 is pushed downward along the waste chute 20 orthogonally connected to the suction conduit 50 by the suction force of the suction blower 10, and a connection portion between the waste chute 20 and the suction conduit 50. By being present under the influence of a strong pressure force through, it is to be conveyed to the suction pipe (50) side.

At this time, the plurality of garbage storage device 200, in the case of a building such as an apartment complex, when the garbage is input to each generation at the same time, the detection sensor detects this, the flap of the garbage storage device 200 sequentially ( By opening the 210, it is to be sucked in order to reduce the load.

In the case of the waste storage device 200 of the present invention, the flap 210, which is one of the internal components, is operated by sliding the outer surface of the flap 210 by sliding in conjunction with the rotational motion of the electric lever 220. Since it is a method, the self-cleaning function can be provided by removing the foreign matter thinned to the outer surface of the flap 210, and the rotation center line of the rolling roller 230 with respect to the rotation center line of the electric lever 220, As seen from the cross section, since it is disposed at an off-axis position that is out of a predetermined distance from each other, it is possible to achieve advantages such as being able to maintain the closing operation of the flap 210 with a stronger supporting force.

Of course, the fixing of the flange and the vertical pipe of the waste storage device 200 is preferably treated by screwing or welding to completely block the inside and outside.

As described above, in the present invention, the outer surface of the flap 210 is detached by the self-cleaning function, and at the same time, the flap 210 can be easily slid with a simple structure so as to smoothly open and close the operation even in a cold season with a simple configuration. ) Can be rotated to open and close, so that the suction transport of the waste can be carried out more smoothly.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

Claims (5)

In the vertical pipes arranged in a vertical direction from the uppermost floor to the lower floor, and the waste storage device for building to store the wastes when the wastes are introduced from the plurality of garbage inlets arranged intermittently with the vertical pipes, A storage device body having a cross-sectional area larger than that of the vertical pipe; A flap rotatably supported at an upper end of the storage device and formed to open and close the pipe; An electric lever rotatably axially coupled to the storage device main body in a c-shape so as to be pushed while being in contact with the outer surface of the flap while being avoided from the outer portion of the flap, The electric lever is coupled to the electric lever to transmit the rotational force, The rolling roller is rotatably supported at the center of the electric lever, The rotation center line of the rolling roller with respect to the rotation center line of the electric lever is disposed in the off-axis position away from each other by a predetermined distance to the upstream side of the rotation direction of the electric lever in a cross section. The method of claim 1, Building flap storage device, characterized in that the guide is fixed to the outer peripheral surface of the flap is arranged in the vertical direction guide the rolling roller to move the cloud. delete delete delete